SP Energy HubAnnual ReportReliabilitySustainabilityInnovation Young Animators Draw up Gas Safety Tips RELIABILITY Working closely with NYP students were SP Group’s gas safety committee and corporate affairs department. The team comprised (first row, from left) SP’s Engineer Lydia Koh, SP’s Senior Engineer Nur Hafiza binte Mohd Zulkifli, NYP’s Lim Shu Ming, NYP’s Koh Chiau Wen, SP’s Head of Corporate Affairs, Amelia Champion, NYP’s Andrea Low, (second row, from left) NYP’s Quek Yu Jie, SP’s Senior Engineer Lo Ai Jin, NYP’s project supervisor Bhakta Srini, SP’s Senior Engineer Roseanne Chan, and SP’s Deputy Director, Corporate Affairs, Jeanie Lee. When Nanyang Polytechnic student Quek Yu Jie was 10, he came home to a strange smell and a hissing sound. He witnessed his mother’s quick reaction: she turned off a gas ring that had been left on, and opened all windows in the flat. “My mother knew we needed to let the gas out quickly. But I don’t think we knew we had to shut the main gas valve and leave all other appliances untouched,” Yu Jie, now 25 and a Nanyang Polytechnic final year student, recalled. Yu Jie and three other animation coursemates from NYP’s School of Interactive & Digital Media learnt this when they created a series of gas safety videos for SP Group as part of their Final Year Project. The biggest learning for them was that, using a mobile phone during a gas leak can spark a fire due to the microwaves emitted from phones, said Yu Jie, who led the video’s post-production. Statistics have shown that 42.5 per cent of the gas leaks attended to in the second half of 2018 were due to the misuse of gas appliances.  The videos are part of a gas safety campaign that is rolled out in September this year. NYP students engaged with the SP team to come up with a compelling public education campaign The team used animation to highlight key safety tips: how to detect a leak, ways to prevent gas-related incidents, and the importance of engaging a Licensed Gas Service Worker to install gas appliances. Team-mates Koh Chiau Wen and Lim Shu Ming, both 19, took the lead in developing key characters, while Andrea Low, 20, focused on creating the backdrop. The students worked closely with SP to decide on the best ways to drive home the key messages to a broad audience. “We want to raise the level of gas safety awareness as many people overlook the correct and safe use of gas appliances and accessories,” said Nur Hafiza binte Mohd Zulkifli, Senior Engineer, Gas Operations, from SP’s gas safety committee, a workgroup on gas safety education. Final Year Projects usually take about 480 hours, but project supervisor Bhakta Srini said that for this one, each put in up to 30 hours more, including over weekends and after school, to perfect the videos and capture the realism of human characters. “One second of a film is 24 frames and requires 12 drawings.  We created over 1,500 drawings in total,” explained Chiau Wen, who led the project team. But the students all agreed that it was worth it, since the videos get the message across using everyday scenarios. NYP students had to acquire gas safety knowledge from the SP Engineers and figure out how best to communicate this. Head of Corporate Affairs, Amelia Champion said the collaboration with the polytechnic helped to bring across SP’s gas safety advice through the lens of the students. “Anyone can potentially help detect or prevent a leak or be an advocate for safe practices. This series aims to make our safety messages easily understood and shared with others.” — 24 September 2019 TAGS RELIABILITYGAS SAFETY YOU MIGHT BE INTERESTED TO READ How this 'grid doctor' maintains the health of Singapore's electricity network so everything stays on Ground feedback, digital tools: How she helps 8,000 workers end their day safely Faster repairs, fewer disruptions: Meet the innovative teams using smart tech to keep your piped gas supply flowing

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Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2024.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2024 Capacity Charge : $23.67/kWr per month Usage Charge : $0.0798/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines Eco Town Singapore's first brownfield district cooling project In highly developed cities like Singapore, majority of land has been built up and individual building owners are already equipped with their own chiller plants. With a Distributed District Cooling (DDC) network – an interconnected cooling system – existing towns and districts may now be able to enjoy a more sustainable way to cool. 7 commercial and community buildings Reduces carbon emissions by more than 1,000 tonnes annually Brownfield District Cooling Feasibility Study: Tampines Central Distributed District Cooling  Download WhitepaperRead moreWatch Video STMicroelectronics (AMK) Singapore's largest industrial district cooling project In partnership with STMicroelectronics (ST), SP Group (SP) will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. The estimated project value of $370 million USD over 20 years, will help the manufacturing company save 20 per cent on cooling-related electricity consumption annually. 5 industrial buildings Reduces carbon emissions by more than 120,000 tonnes annually (Photo credit: STMicroelectronics) Read moreWatch Video Tengah Town Centralised Cooling System Singapore's first centralised cooling public housing township In collaboration with the Housing & Development Board, SP Group will be bringing its first large-scale residential centralised cooling system to Tengah, Singapore’s first smart energy township. Chilled water will be centrally produced from interconnected modular chiller plants built on the rooftops before it is distributed to residential and commercial units for air-conditioning. The centralised cooling system will also be serviced by SP, bringing greater convenience to residents living in Tengah. (Photo credit: HDB) Read moreVisit Microsite Raffles City Chongqing District cooling and heating in China An advanced energy-efficient cooling and heating system was designed and built for Raffles City Chongqing, an iconic integrated development, spanning 1.12 million square metres, comprising a shopping mall, a hotel, office towers, residences and service residences. A megastructure featuring a suite of 8 buildings Reduce energy consumption by more than 40 per cent, compared to conventional building's chiller plants Read more International Sports Park City SP’s largest district cooling system in Chengdu SP Group (SP) has secured a bid to build and operate a state-of-the-art district cooling and heating system for the new International Sports Park City – an integrated development with commercial, residential and leisure spaces in Chengdu, China. The sustainable cooling solution will be enhanced with an ice thermal energy storage system that will strengthen its reliability and performance. This is SP’s first deployment in China of such a system. With an installed cooling capacity of 9,800 refrigeration tonnes, this project will be SP’s largest district cooling system in Chengdu when operational in 2025. Enables energy savings of 2,900 MWh annually Reduces carbon emissions by 1,700 tonnes Delivers greater energy efficiency of over 30% for cooling and over 50% for heating Read more Shudu Center Upgrade to energy-efficient cooling and heating Building on successful projects in Chengdu, SP Group acquired Shudu Center’s existing chiller plant to optimise it for district cooling and heating. The mixed-use development is equipped with a 7,000 refrigeration-tonne cooling and heating system that ensures efficient energy consumption and a sustainable way to work and play in comfort. 7 commercial, retail, and office buildings Covers a land area of 4,400 square metres Government Complex Center Zone C SP's first district cooling project in Thailand SP Group and Banpu NEXT have entered a joint venture to design, build, own and operate a cutting-edge district cooling system at Government Complex Center Zone C in Bangkok, Thailand. As SP’s first district cooling project in Thailand, the integrated development will have a total cooling capacity of up to 14,000 refrigeration tonnes and is expected to achieve results equivalent to removing about 20,000 Internal Combustion Engine cars from the roads over 20 years. Total gross floor area of 660,000 square metres Reduces carbon emissions by up to 3,000 tonnes annually Achieves 20 per cent in energy savings per year Read more International Urban Design Centre China’s first ever district cooling microgrid Under the MOUs signed with Wuhou District government, SP will serve as the sustainable energy solutions partner to the district government with the objective of establishing the district as the benchmark for smart eco-districts in Chengdu. This includes developing and implementing technologies and digital solutions such as advanced data analytics and artificial intelligence tools to support the city’s roadmap to carbon neutrality. Total gross floor area of 630,000 square metres Cooling capacity of 1,950 refregeration tonnes Achieves 35 per cent and 50 per cent in cooling and heating savings per year respectively Read more Chongqing East Railway Station Delivering sustainable energy to Western China’s largest high-speed rail hub Sino-Singapore Energy Services, a joint venture between SP Group and Chongqing Gas Group, is the integrated energy system operator for Chongqing East Railway Station, the largest high-speed railway hub in Western China. The project marks the first time a major high-speed railway hub in the country has appointed a professional third-party energy services provider to manage its energy systems. The integrated energy system spans 360,000 square metres and features a trigeneration setup — combining natural gas-powered electricity generation with high-efficiency chillers to provide cooling, heating and electricity.  Cooling and heating capacity of nearly 14,000 refrigeration tonnes Reduces energy consumption by 15% each year Lowers carbon emissions by approximately 9,400 tonnes per year Read more Additional Media Supply condition for Marina Bay district cooling Latest tariff rates for Marina Bay district cooling Latest News SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win Read more STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh Read more SP signs PPA with BASF for rooftop solar deployment Read more SP partners State Grid China at International Forum on Power System Transformation 2025 Read more Engineer, 27, shares how she is undaunted by male-dominated energy industry & climbs the ranks Read more SP Digital’s Green Energy Tech (GET) solutions at Airbus Asia Training Centre Read more Launch of Distributed District Cooling network at Tampines Read more Launch of Singapore’s Fastest Public EV Charger at Temasek Polytechnic by SP Mobility and Huawei Read more SP Group launches Tengah’s First Public EV Chargers, Expanding Singapore’s Green Mobility Network Read more S'pore engineer explains why bird poop is so dangerous to solar panels Read more Have a business inquiry? Interested to find out more how our integrated services can serve your business needs? Drop us an online enquiry and our qualified professionals will reach out to you. Contact Us Form Our Integrated Energy Solutions District Cooling & Heating Electric Vehicle Solutions Digital Products Renewable Energy Climate Services Hide Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=district-cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search Searchhttps://www.spgroup.com.sg/search?tag=District-Cooling Search SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8ae71105-507f-4abc-8e63-53015ea1dff7/%5BInfo%5D+Tariff+for+District+Cooling+(from+1+May+2022).pdf?MOD=AJPERES&CVID= SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2022 Capacity Charge : $21.28/kWr per month Usage Charge : $0.1549/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-May-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 MAY 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0616/kWrh SINGAPORE DISTRICT COOLING PTE LTDhttps://www.spgroup.com.sg/dam/spgroup/pdf/sustainable-energy-solutions/district-cooling-and-heating/SDC-change-of-tariff-wef-1-Nov-2025.pdf SINGAPORE DISTRICT COOLING PTE LTD TARIFF FOR DISTRICT COOLING SERVICES WITH EFFECT FROM 1 NOV 2025 Capacity Charge : $24.23/kWr per month Usage Charge : $0.0651/kWrh District Cooling System | SP Grouphttps://www.spgroup.com.sg/sustainable-energy-solutions/district-cooling-and-heating OverviewKey ProjectsContact Us District Cooling & Heating District Cooling & Heating for Sustainable Operations District cooling and heating systems are centralised energy systems which help buildings, districts, and townships improve energy efficiency, lower operational costs and reduce their carbon footprint. As Singapore's largest district cooling operator, SP Group designs, builds and operates district cooling systems for customers across the region. These include Marina Bay in Singapore, the world's largest underground district cooling network and Raffles City Chongqing, the largest shopping mall in Chongqing, China. In partnership with STMicroelectronics (ST), SP Group will design, build, own, and operate Singapore's largest industrial District Cooling System (DCS) with a cooling capacity of up to 36,000 refrigeration tonnes. Read more What is District Cooling and Heating District cooling and heating is an energy-efficient urban utility service that distributes chilled or hot water and supply air-conditioning to a network of buildings, providing comfort and reliability while reducing carbon emissions. Key Benefits Instead of individual buildings having their own chillers, district cooling reaps the benefits of economies of scale by consolidating chiller and heating capacity, operated and maintained by our expert operations team. With attributes similar to public electricity supply, district cooling is an energy- and economically-efficient urban utility service. It presents attractive value propositions to building owners: Round-the-clock availability and support On-demand flexibility High supply reliability More space for alternative use Lower initial and recurrent operating costs Platinum Green Mark Certification Energy assessment on existing and potential savings To view our list of awards, please click here. Click to download the Supply Conditions for District Cooling and the latest Tariff Rates. Key Projects Marina Bay District World's largest underground district cooling network Situated in Singapore’s Marina Bay financial district, the cooling network has achieved zero supply disruptions since 2006. As one of Singapore’s Top 50 Engineering Feats, the network will be expanded and connected to five more buildings to extend the same reliable and sustainable solution to other buildings in Singapore’s core financial district. Expanding to 32 buildings by 2027 Reduces carbon emissions by nearly 22,000 tonnes annually Read MoreWatch Video Tampines

Search Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017https://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Singapore-Polytechnic-And-SP-Group-Launch-Next-Generation-Solar-Car-For-World-Solar-Challenge-2017 Media Release Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017 SP Group adds $2 million sponsorship to groom engineering talent Singapore, 21 July 2017 – Singapore Polytechnic and SP Group today unveiled their most advanced solar car, SunSPEC 5 [20170721] Media Release - Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challengehttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/8769a10c-aa3a-44b3-b14b-8a58b69185d5/%5B20170721%5D+Media+Release+-+Singapore+Polytechnic+And+SP+Group+Launch+Next-Generation+Solar+Car+For+World+Solar+Challenge.pdf?MOD=AJPERES&CVID= MEDIA RELEASE Singapore Polytechnic and SP Group launch next-generation solar car for World Solar Challenge 2017 SP Group adds $2 million sponsorship to groom engineering talent Singapore, 21 July 2017 – Singapore Polytechnic and SP Group today unveiled their most advanced solar car, SunSPEC 5 Searchhttps://www.spgroup.com.sg/search?tag=singapore-polytechnic ://www.spgroup.com.sg/search?tag=singapore-polytechnic Search Searchhttps://www.spgroup.com.sg/search?tag=singapore-polytechnic Search Searchhttps://www.spgroup.com.sg/search?tag=sunspec Search Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017https Searchhttps://www.spgroup.com.sg/search?tag=sunspec Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017 SP Group adds $2 million sponsorship to groom engineering talent Singapore, 21 July 2017 – Singapore Polytechnic and SP Group today unveiled their most advanced solar car, SunSPEC 5 [20170721] Media Release Sustainabilityhttps://www.spgroup.com.sg/about-us/media-resources/energy-hub/sustainability/powering-future-engineering-talent SP Energy HubAnnual ReportReliabilitySustainabilityInnovation Powering Future Engineering Talent SUSTAINABILITY All set for the race are Singapore Polytechnic’s SunSPEC team (from left), Ng Qianhui, Roy Leung, Effy Chang and Lau Lok Yee. SP Group has been SunSPEC’s presenter and main sponsor since Category: Sustainability Searchhttps://www.spgroup.com.sg/search?tag=solar Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017 SP Group adds $2 million sponsorship to groom engineering talent Singapore, 21 July 2017 – Singapore Polytechnic and SP Group today unveiled their most advanced solar car, SunSPEC 5 [20170721] Media Release Searchhttps://www.spgroup.com.sg/search?tag=solar Singapore Polytechnic And SP Group Launch Next-Generation Solar Car For World Solar Challenge 2017 SP Group adds $2 million sponsorship to groom engineering talent Singapore, 21 July 2017 – Singapore Polytechnic and SP Group today unveiled their most advanced solar car, SunSPEC 5 [20170721] Media Release Singapore Polytechnic Students Rebuild Solar Car After Setback, Supported By Singapore Powerhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Singapore-Polytechnic-Students-Rebuild-Solar-Car-After-Setback--Supported-By-Singapore-Power all odds, they have committed themselves to stay in the World Solar Challenge. We must nurture this resilient, “never-say-die” spirit in our younger generation. Singapore can be proud of our SunSPEC team as they hold our flag high in Australia!” Besides being Singapore’s sole entry, SunSPEC4 Media Release - Singapore Polytechnic Students Rebuild Solar Car After Setback, Supported By Singapore Powerhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/7f993018-17d4-45a3-bf7d-f750fd3c267e/%5B20150929%5D+Media+Release+-+Singapore+Polytechnic+Students+Rebuild+Solar+Car+After+Setback,+Supported+By+Singapore+Power.pdf?MOD=AJPERES&CVID= to help them overcome the setback. Against all odds, they have committed themselves to stay in the World Solar Challenge. We must nurture this resilient, “never-saydie” spirit in our younger generation. Singapore can be proud of our SunSPEC team as they hold our flag high in Australia!” Besides being Searchhttps://www.spgroup.com.sg/search are Singapore Polytechnic’s SunSPEC team (from left), Ng Qianhui, Roy Leung, Effy Chang and Lau Lok Yee. SP Group has been SunSPEC’s presenter and main sponsor since 2015, helping more than 70 students hone their engineering skills on their self-made solar car. A gruelling 3,000 km solar car race Innovationhttps://www.spgroup.com.sg/about-us/media-resources/energy-hub/innovation/next-generation-solutions-for-your-future-needs cars to compete in the biennial World Solar Challenge. The latest edition of the car, SunSPEC5, was launched in July 2017. It features advanced solar and energy storage capabilities close to commercially viable vehicles. We are also offering SunSPEC polytechnic and university sponsorships for students Category: Innovation SP Group Annual Report FY1516https://www.spgroup.com.sg/dam/spgroup/pdf/annual-reports/SP-Group-Annual-Report-FY1516.pdf and logistical support from SP, as well as our undertaking to air freight the SunSPEC4 to save time, both the team and their car were at the starting line on time to be flagged off. SP’s staff, who are also alumni of the polytechnic, travelled with the SunSPEC team to provide additional support and advice 1 2

Taking Heart Deloitte donates $30,000 to HCA Hospice Care SINGAPORE’s largest home hospice provider, HCA Hospice Care, has received a donation of $30,000 from Deloitte Singapore. The funds were raised through a two-month internal campaign leading up to last Thursday’s JP Morgan Corporate Challenge, in which 892 runners registered under Deloitte. For every $1,000 raised for HCA Hospice Care, a staff member ran the race in a special costume – like the three little pigs and the big bad wolf. The $30,000 will go to HCA’s Star PALS programme, which provides home palliative care for children under the age of 19. Under the initiative, HCA’s teams visit these children’s homes to care for them and their families, both medically and emotionally. Separately, Deloitte’s participation also contributed $53,520 to the JP Morgan Corporate Challenge’s official beneficiary, Operation Smile. Million-dollar S’pore Power boost for Community Chest IN 2013, Singapore Power raised $1.05 million for Community Chest through the company’s Heartware Fund. The money will go towards Community Chest’s home help service programmes, which provide a range of practical assistance efforts for the elderly, such as the delivery of warm meals and transportation of elderly beneficiaries to hospitals for medical appointments. Contributions to the Heartware Fund are raised through donations from Singapore Power staff, business partners and the public. Singapore Power matches its staff donations to the fund dollar for dollar. Recycling efforts raise vouchers for needy students FOR the students who participated in the Recycling Helps @ South East campaign, their recycling efforts weren’t just good for the environment; they were also instrumental in raising funds for the needy. The initiative was jointly launched by NTUC FairPrice Foundation and South East Community Development Council. For every 5kg of recyclables collected by the students, FairPrice Foundation donated a set of $25 in FairPrice vouchers to a student from a less privileged family studying in schools within South East District. Through the efforts of 13 participating schools, over 2,000kg of used plastic bottles, paper and cans were collected for the cause. As a result, a total of $10,000 worth of vouchers were raised, benefiting 400 students from less privileged families. By KELLY TAY kellytay@sph.com.sg @KellyTayBT Taking Heart is a regular column highlighting charitable causes

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Dulu ‘kaki ponteng’, kini pelajar cemerlang Pelajar ITE antara tujuh anak Melayu yang terima biasiswa Singapore Power Nithiah Nandan �ERVINA MOHD JAMIL ervinamj@sph.com.sg DAHULU, Encik Mohamed Farhan Mohamed Rafi sering ponteng sekolah sehingga pernah meraih kurang daripada satu mata Gred Purata Mata (GPA). Mata penuh GPA ialah empat. Akhirnya, beliau berhenti sekolah. Namun kini, anak kedua daripada keluarga tiga beradik itu bukan sahaja bakal tamat pengajian di Institut Pendidikan Teknikal (ITE), bahkan berjaya meraih biasiswa. Encik Mohamed Farhan, 24 tahun, adalah antara tujuh pelajar Melayu daripada 21 pelajar ITE dan politeknik yang menerima Biasiswa ITE dan Politeknik Singapore Power (SP) Nithiah Nandan, yang diberikan buat julung-julung kalinya. “Selepas saya berhenti sekolah, saya masuk Perkhidmatan Negara (NS), tetapi enam bulan selepas tamat NS pada 2012, saya terfikir, nak pergi mana selepas ini? “Saya pergi ke pameran pekerjaan dan ceramah kerjaya tapi saya sedar, tak banyak kerja yang boleh BERJAYA WALAU HADAPI CABARAN: Cik Nurfadilah dan Encik Mohamed Farhan antara penerima Biasiswa ITE dan Politeknik Singapore Power (SP) Nithiah Nandan, yang diberikan buat kali pertama. – Foto TUKIMAN WARJI saya lakukan kerana saya hanya ada sijil peperiksaan GCE Peringkat ‘N’,” kata pelajar ITE Kolej Timur dalam jurusan kejuruteraan elektrikal itu. Menteri di Pejabat Perdana Menteri, Encik Lim Swee Say, menghadiri upacara penyampaian biasiswa di Institut Devan Nair di Jurong East itu semalam selaku tetamu terhormat. Penerima biasiswa dipilih berdasarkan keputusan akademik, kebolehan dan minat mereka terhadap bidang kejuruteraan tenaga. Pelajar politeknik menerima $24,000 sementara pelajar ITE menerima $11,000 seorang, yang antara lain membiayai pengajian mereka. Mereka juga perlu berkhidmat di SP selama dua tahun selepas tamat pengajian. Seorang lagi penerima biasiswa, Cik Nurfadilah Mustaffa, 19 tahun, pula terpaksa bersiap ke sekolah di ITE Kolej Timur di Simei sedang kebanyakan teman sekolahnya sedang nyenyak dibuai mimpi. Anak bongsu daripada keluarga tiga beradik itu tinggal di Johor Bahru bersama keluarganya dan bangun pada 4.30 pagi setiap hari untuk tiba di kampus pada 8.30 pagi. Namun, ia sedikit pun tidak menghambatnya daripada terus bekerja keras demi mencapai keputusan cemerlang di sekolah. “Biasiswa ini dapat meringankan beban ibu bapa saya. Saya juga ingin buktikan bahawa wanita pun boleh berjaya dalam bidang kejuruteraan yang biasanya diceburi lelaki,” katanya yang merancang melanjutkan pengajian ke peringkat diploma.

SP Energy HubAnnual ReportReliabilitySustainabilityInnovation SP Cools Outdoor Food Fiesta SUSTAINABILITY With temperatures at a high of 33 degree Celsius, Nathasha Azman was relieved to spot SP Group’s outdoor coolers in Food Fiesta 2019 at Bayfront Avenue. Like many others, Nathasha was “chilling” near the outdoor coolers. Each unit can lower surrounding temperatures to around 24 degree Celsius, much like enjoying air-conditioning outdoors. In the hot and humid climate of Singapore, this provided a huge respite for many a visitor to Food Fiesta. The cooling technique taps on the world’s largest underground district cooling network, located at Marina Bay and operated by SP Group. The outdoor cooling solution delivers temperatures lower than that of cool mist of ventilation fans. Air blown out is also comfortably dryer than evaporative air coolers.  SP Group’s outdoor cooling solution has unlocked the potential for urban spaces in many ways. Aside from al fresco dining, visitors to the area were spotted playing outdoor games and taking naps in the hammocks provided. “It is a good idea to have outdoor cooling. We should have more of them in different spots so that we can walk around more comfortably, as it is less hot,” suggested Ivy Chew, another visitor to Food Fiesta. — 29 April 2019 TAGS SUSTAINABILITYOUTDOOR COOLING YOU MIGHT BE INTERESTED TO READ SP Group expands sustainable energy operations in China with Chongqing Transport Hub project win STMicroelectronics enhances sustainability with chiller cooling system at Toa Payoh SP signs PPA with BASF for rooftop solar deployment

18 Mar 2015 For Immediate Release MEDIA RELEASE SP Services’ Customer Service Centre Relocates To PWC Building 1. SP Services’ Customer Service Centre at TripleOne Somerset will be relocated to PWC Building at 8 Cross Street from Monday 23 March 2015. 2. The new Customer Service Centre is conveniently located next to Telok Ayer MRT station and within walking distance from Chinatown and Raffles Place MRT stations. Please refer to Annex A for details. 3. The last day of operation for our Customer Service Centre at TripleOne Somerset is Saturday 21 March 2015. 4. For customers’ convenience, we have two other Customer Service Centres located at Toa Payoh and Woodlands. Please refer to Annex B for the location of our Customer Service Centres. 5. Customers may also carry out their utility transactions via the following channels: � Self-service kiosks located at all Customer Service Centres; � SP Services’ customer service hotline at 1800 222 2333; � SP Services’ website at www.spservices.com.sg; and � SP Services mobile app (download from iTunes or Google Play Store). _______________________________________________________________________________________________________ Issued by: SP Services Limited 10 Pasir Panjang Road #03-01 Mapletree Business City Singapore 117438 Co. Reg No : 199504470N www.spservices.com.sg 1 SP SERVICES’ CUSTOMER SERVICE CENTRE AT 8 CROSS STREET Annex A Directions via MRT: Directly beside Telok Ayer MRT station via Exit C Approximately 6mins walk from Raffles Place MRT station via Exit F Approximately 8mins walk from Chinatown MRT station via Exit E Directions via bus: Bus stop opposite PWC Building: Bus 186 and 970 2 Annex B List of SP SERVICES’ CUSTOMER SERVICE CENTRES Address Opening Hours Hotline 8 Cross Street #02-01 to 03 PWC Building Singapore 048424 480 Lorong 6 Toa Payoh #02-08 HDB Hub Singapore 310480 900 South Woodlands Drive #03-07 Woodlands Civic Centre Singapore 730900 Mon to Fri: 8.30am to 6pm Sat: 8.30am to 1pm Closed on Sundays and Public Holidays 1800 222 2333 Mon to Fri: 8.30am to 5pm Sat: 8.30am to 1pm Closed on Sundays and Public Holidays 3

Search SPD23_6450 SP App Digital Brochure_R4https://www.spgroup.com.sg/dam/jcr:7757fa21-6247-4b58-8c7c-bbf1c1a92ef3/SPD23_6450%20SP%20App%20Digital%20Brochure_R4.pdf Managing your utilities is easy, quick, and green! Download the SP app now! Convenience and sustainability, all within the app! Submit meter readings Explore sustainable products on Green Marketplace Green your electricity consumption with My Green Credits™ Locate an EV charger, charge and pay View and pay bills Track your carbon footprint Open account, link and track your consumption Utilities Management with Consumption Insights Manage your utilities account anywhere, anytime. Monitor your utilities consumption through dynamic insights and save energy. You can: • Open and close your utilities account • Link your utilities account to track your consumption • View your consumption in an hourly, monthly and yearly comparison • Submit meter readings for electricity, water and gas • Reschedule appointments My Carbon Footprint A calculator that helps you understand the impact of your actions on the environment, this tracker promotes changes in behaviour and lifestyle to reduce your carbon emissions. Calculate your carbon footprint based on your lifestyle choices such as in food, transportation and the use of electrical appliances. View and pay bills Never worry again about missing a payment, queuing to pay or finding your past or present bills. View and pay your bills on the go with your preferred card or via PayNow QR. You may also choose to set it on recurring payment. Adhoc payments STEP 1 Select the Bills tab > Select a bill. STEP 2 Select a payment method. STEP 3 Complete your payment. Recurring payments Have the option to set it on automatic monthly recurring payment to avoid missing a payment. STEP 1 Select the Profile tab. STEP 2 Select your Payment Method. STEP 3 Select your default card for recurring payments. STEP 4 Choose the Account to set up recurring and select Submit. Electric Vehicle (EV) Charging Your green mobility journey is an easy ride with Singapore’s largest fast-charging network via the app. Search for the nearest available charging points, receive updates about your charging sessions and make payments seamlessly. My Green Credits™ Support the growth of renewable energy projects through the purchase of renewable energy certificates (RECs), that represent the environmental attributes of the generation of a one-megawatt hour (MWh) of energy produced by renewable sources such as solar, wind and others. With every purchase of My Green Credits from the OneMillionTrees Initiative category, SP Group pledges to donate 15% of proceeds to support the OneMillionTrees movement in partnership with Garden City Fund under NParks. Green Marketplace Welcome to Green Marketplace, where you can find greener choices for your planned purchases. These include financial services which encourage green living, for instance a home loan with incentives for solar panel installation, or a car insurance plan that rewards you for driving less! You can look for car loans specifically designed for the purchase of Electric Vehicles (EVs). You can choose home loans that encourage greener living, for instance with incentives for solar panel installation, or rewards if your home incorporates sustainability features. You can even choose financial services that encourage green behaviour, including an innovative car insurance plan that rewards you for driving less! In the meantime, you’ll gain insights on how your choices can reduce your carbon footprint and save costs. © 2023 Singapore Power Ltd. All Rights Reserved Information is accurate as of July 2023 publication. Digital Productshttps://www.spgroup.com.sg/sustainable-energy-solutions/digital-products Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. [Media+Release]+Digital+Twin+for+National+Power+Grid.pdfhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/45562f72-f426-4d68-886e-28ae29cfe57b/%5BMedia+Release%5D+Digital+Twin+for+National+Power+Grid.pdf?MOD=AJPERES&CVID= MEDIA RELEASE 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources. 2 The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: • Asset Twin 1 for the health management of grid assets (such as substations, transformers, cables); and • Network Twin 2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) 3 Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network. 4 In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations. 5 Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.” 6 Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.” 7 When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations. Annex: Factsheet on the Singapore Power Grid Digital Twin About Energy Market Authority -- End -- The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG. ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2 The digital twin of Singapore’s power grid will comprise two key models: a. Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory 3 . b. Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO) 4 , the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-stransition-to-electric-vehicles. 3 Key benefits of the Grid Digital Twin are: a. Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets. b. Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads. c. Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience. Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL OF NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. Searchhttps://www.spgroup.com.sg/search?tag=digital-twin Search Singapore's First Digital Twin for National Power Gridhttps://www.spgroup.com.sg/about-us/media-resources/news-and-media-releases/Digital-Twin-for-National-Power-Grid Media Release Singapore's First Digital Twin for National Power Grid 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources.   The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: Asset Twin1 for the health management of grid assets (such as substations, transformers, cables); and Network Twin2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network.   In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations.   Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.”   Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.”   When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations.   Annex: Factsheet on the Singapore Power Grid Digital Twin -- End -- About Energy Market Authority The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG.   ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2. The digital twin of Singapore’s power grid will comprise two key models: Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allows SP Group (SP) to make informed decisions on renewal and maintenance plans accordingly. The Asset Twin is underpinned by five research projects awarded by the Energy Market Authority (EMA) to SP and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory3   Network Twin for impact assessment on grid. This uses modelling and simulations to determine the impact of additional loads (such as charging of electric vehicles) and distributed energy resources (such as solar photovoltaics and energy storage systems) on the grid. Using an advanced software framework known as the Multi Energy System Modelling & Optimisation (MESMO)4, the Network Twin is able to provide SP with a high-level assessment of the impact of demands on the grid and any upgrades required for different scenarios. The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO).   Key benefits of the Grid Digital Twin are: Enhanced condition monitoring of assets and prioritisation of asset renewal, by having a decision tool that can identify risks and prioritise grid assets renewal plans. The tool will take into account health, utilisation and failure history of the grid assets.   Improvement in carrying out network planning analysis by having a better network utilisation when balancing new or peak electricity loads.   Optimisation of asset investment, by identifying potential synergies between asset renewal and upgrades for load growth without compromising grid resilience.   Grid Digital Twin comprising the Asset Twin and Network Twin (Image Credit: Energy Market Authority) KEY VISUAL FOR ASSET TWIN Overview of Asset Health and Criticality Index for the Distribution Network (Image Credit: SP Group-NTU Joint Laboratory) KEY VISUAL FOR NETWORK TWIN Dashboard for analysing electric vehicle charging impact on the distribution grid using the Network Twin (Image Credit: Institute of High Performance Computing and TUMCREATE) 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). 3 The SP Group - NTU Joint Lab was established between SP Group and NTU in 2020, to explore energy-related projects in the areas of asset management and network operations. 4 MESMO is one of two primary simulation technologies that is used in the Singapore Integrated Transport Energy Model (SITEM) project. More details on SITEM can be found on A*STAR’s website: www.a-star.edu.sg/News-and-Events/a-star-news/news/press-releases/supporting-singapore-s- transition-to-electric-vehicles. [Media+Release]+Digital+Twin+for+National+Power+Grid.pdfhttps://www.spgroup.com.sg/dam/spgroup/wcm/connect/spgrp/45562f72-f426-4d68-886e-28ae29cfe57b/%5BMedia+Release%5D+Digital+Twin+for+National+Power+Grid.pdf?MOD=AJPERES&CVID= MEDIA RELEASE 27 October 2021 Singapore’s First Digital Twin for National Power Grid Created in collaboration with government agencies, industry players and research experts to enhance power grid resilience A brighter and more sustainable energy future – this is what Singapore’s first digital twin for the power grid will enable. Supported by the Energy Market Authority (EMA), SP Group (SP) and the Science and Technology Policy and Plans Office (S&TPPO) under the Prime Minister’s Office, the upcoming Grid Digital Twin will serve to enhance Singapore’s grid resilience to ensure grid reliability and support the deployment of cleaner energy sources. 2 The Grid Digital Twin is a virtual representation of the physical power grid assets and network and operates using real-time and historical data. It comprises two key models: • Asset Twin 1 for the health management of grid assets (such as substations, transformers, cables); and • Network Twin 2 for the assessment of impact on the grid when connecting new energy sources or consumers to the grid. The Grid Digital Twin is currently in a prototype stage and is expected to be fully developed over the next few years. When fully deployed, it will enable SP to better plan, operate and maintain the national power grid through modelling and simulations so that the actual works can be carried out in a more effective and efficient way. (Refer to Annex for more information.) 3 Key benefits of the Grid Digital Twin include improving network planning analysis and remote monitoring of asset conditions, thereby saving manpower resources in carrying out extensive physical inspections. As the Grid Digital Twin provides a more holistic model of the grid, it can facilitate planning of infrastructure for 1 The Asset Twin is underpinned by five research projects awarded by EMA to SP Group and Nanyang Technological University (NTU) under the SP Group - NTU Joint Laboratory. 2 The Network Twin is being developed by the Institute of High Performance Computing (IHPC) at the Agency for Science, Technology and Research (A*STAR), together with its technology partner TUMCREATE Ltd. The project is funded by the Public Sector Science & Technology Policy & Plans Office (S&TPPO). different needs (such as installation of electric vehicle chargers, and connection of solar photovoltaic systems and energy storage systems). Progressive enhancements to the Grid Digital Twin are in place to make it more accurate and efficient, as SP continues to digitise the existing electricity assets under the network. 4 In tandem with the Singapore Green Plan 2030, Singapore is looking to greener sources of energy and more diversification of energy supply, such as solar deployments, energy storage systems and vehicle-to-grid technologies. In addition, power grid operations will become more complex with increasing electrification and deployment of more distributed energy resources (DERs). Currently, the national power grid comprises over 18,000 transformers, with more than 27,000 km of underground cables interconnecting over 11,000 substations. The Grid Digital Twin will therefore help to future-proof our power grid, to ensure that it is well-equipped to manage such complexities while maintaining reliability of grid operations. 5 Mr Ngiam Shih Chun, Chief Executive of EMA, said, “The digital twin for our national power grid will help to enhance the reliability of our electricity supply and support our transition towards greater energy sustainability. With the pressing need to tackle climate change, the power grid needs to evolve to support a more complex power system that will connect to more diverse sources of cleaner energy as well as a growing network to meet rising demand.” 6 Mr Stanley Huang, Group Chief Executive Officer of SP Group, said, “SP Group works closely with EMA to explore measures to improve Singapore’s grid reliability and resilience. Harnessing the power of digitisation, the Grid Digital Twin enables us to monitor and test different scenarios based on a virtual replica of the grid. We can then effectively test potential upgrades and enhancements, and future-ready innovations such as the projects under the SP Group - NTU Joint Lab to support our ambition to empower the future of energy.” 7 When completed, the Grid Digital Twin will be a key initiative in contributing towards Singapore’s overall efforts for greater sustainability through enhanced grid network planning and operations. Annex: Factsheet on the Singapore Power Grid Digital Twin About Energy Market Authority -- End -- The Energy Market Authority (EMA) is a statutory board under the Singapore Ministry of Trade and Industry. Through our work, we seek to forge a progressive energy landscape for sustained growth. We aim to ensure a reliable and secure energy supply, promote effective competition in the energy market and develop a dynamic energy sector in Singapore. Visit www.ema.gov.sg for more information. Instagram: @EMA_Singapore | Facebook: facebook.com/EnergyMarketAuthority | Twitter: @EMA_sg | LinkedIn: linkedin.com/company/energy-market-authority-ema-/ About SP Group SP Group is a leading utilities group in the Asia Pacific, empowering the future of energy with low-carbon, smart energy solutions for its customers. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and sustainable energy solutions in Singapore and China. As Singapore’s national grid operator, about 1.6 million industrial, commercial and residential customers benefit from its world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. Beyond traditional utilities services, SP Group provides a suite of sustainable and renewable energy solutions such as microgrids, cooling and heating systems for business districts and residential townships, solar energy solutions, electric vehicle fast charging and digital energy solutions for customers in Singapore and the region. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG, on LinkedIn at spgrp.sg/linkedin and on Twitter @SPGroupSG. ANNEX FACTSHEET ON THE SINGAPORE POWER GRID DIGITAL TWIN A digital twin is a virtual model of physical infrastructure, processes and systems that can carry out various functions such as intelligent data analysis, computer modelling and simulation and machine learning to support users in improving planning and decision-making processes. 2 The digital twin of Singapore’s power grid will comprise two key models: a. Asset Twin to optimise the planning, operations and maintenance of SP’s grid assets (such as substations, transformers, switchgears and cables). The Asset Twin is able to remotely monitor and analyse the condition and performance of assets and identify potential risks in grid operations early. This allo

Media Release Electricity Tariff Revision For The Period 1 July to 30 September 2021 Singapore, 30 June 2021 – For the period from 1 July to 30 September 2021, electricity tariff (before 7% GST) will increase by an average of 3.8% or 0.84 cent per kWh compared with the previous quarter. This is due to higher cost of fuel for producing electricity by the power generation companies. For details on the four components of the electricity tariff, please refer to Appendix 1: Breakdown of Electricity Tariff. For households, the electricity tariff (before 7% GST) will increase from 22.55 to 23.38 cents per kWh for 1 July to 30 September 2021. The average monthly electricity bill for families living in HDB four- room flats will increase by $3.04 (before 7% GST) (Appendix 3: Average monthly electricity bills of domestic consumers). *before 7% GST SP Group reviews the electricity tariffs every quarter based on guidelines set by the electricity industry regulator, Energy Market Authority (EMA). The tariffs shown in Appendix 2 have been approved by the EMA. Issued by: SP Group 2 Kallang Sector Singapore 349277 www.spgroup.com.sg Appendix 1 BREAKDOWN OF ELECTRICITY TARIFF The electricity tariff consists of the following four components: Energy costs (paid to the generation companies): This component is adjusted quarterly to reflect changes in the cost of fuel and power generation. The fuel cost is the cost of imported natural gas, which is tied to oil prices by commercial contracts. The cost of power generation covers mainly the costs of operating the power stations, such as the manpower and maintenance costs, as well as the capital cost of the stations. Network costs (paid to SP Group): This is to recover the cost of transporting electricity through the power grid. Market Support Services Fee (paid to SP Group): This is to recover the costs of billing and meter reading, data management, retail market systems as well as for market development initiatives. Market Administration and Power System Operation Fee (paid to Energy Market Company and Power System Operator): This fee is reviewed annually to recover the costs of operating the electricity wholesale market and power system. Appendix 2 Appendix 3 AVERAGE MONTHLY ELECTRICITY BILLS OF DOMESTIC CUSTOMERS TARIFF WEF 1 JULY 2021 (before 7% GST)

SP Energy HubAnnual ReportReliabilitySustainabilityInnovation NDP 2019: Stand By for Singapore RELIABILITY On Duty:(from left) Deputy Director Electrical Operations, Chong Hoi Fye, Technical Officer Mohammad Hussaini Bin Rahmat, Technical Officer Hirman Bin Ali, Senior Engineer Lee Yong Ta, Principal Engineer Lau Zhi Wei, Senior Engineer Aidir Bin Jamil, and Director Electrical Operations, Cedric Lee. As F16s roar past their Hougang flat in tight formation during Saturday’s National Day Parade preview, two-and-a-half-year-old Brandon points and squeals. The countdown to Singapore’s party of the year has begun. This year’s celebration is especially significant due to Singapore’s bicentennial – and the toddler knows that daddy Lee Yong Ta will be brightening part of the celebrations. Yong Ta, Senior Engineer of Electricity Operations, heads SP Group’s National Day Parade (NDP) standby crew. His team of 28 has been on Parade duty in groups of four at all rehearsals. “When Brandon sees me donning my red T-shirt, he knows I am going to work near the planes,” says the 37-year-old, who has been with SP’s Distribution Network South (DNS) for four years. This year, the Parade, themed “Our Singapore”, returns to the Padang for the first time since SG50 in 2015. It will involve some 15,000 participants, volunteers and personnel. For Team SP, work has been underway since end of last year to keep the electricity network and supply in top form during the celebration.  Much of the on-field action is supported by mobile generators. The spectator stands along National Gallery Singapore (NGS) are supported by the nearby substation. Other substations keep supply to the vicinity steady.  Yong Ta was the number two-man in SP’s team at last year’s Parade. This is not unfamiliar terrain as he has overseen support for events like the Formula 1 Singapore Grand Prix.  “I love National Day. I’ve watched NDPs with my parents since I was young, and now my wife and son join us. As an engineer and member of SP, I am glad to play a part in Singapore’s success story,” says Yong Ta. The job requires close coordination with the NDP committee, NGS personnel and  various SP teams. This could include corresponding on matters related to security, electricity network stability and equipment health, along with numerous pre-event checks. There’s never too much planning for a national event. The team’s experience in power equipment and the network helps them consider various scenarios and contingencies. “We’ve done checks on electrical cables and earthworks in the area. We’ve also inspected all substations and tested the remote switching of all circuit breakers,” he says, working through his mental checklist. The day before the main event, his team will also do security sweeps of the substations in the area, together with the police. And on August 9th itself, Yong Ta and seven others will be based at the NGS until the last spectator leaves, with additional men on standby in the vicinity as well. And while Yong Ta will not be next to Brandon as the planes zoom by, he and his little boy will both be flying Singapore’s flag with pride. Months of preparation and many hands on deck ensure the party of the year stays bright. — 1 August 2019 TAGS PEOPLE OF SPRELIABILITY YOU MIGHT BE INTERESTED TO READ How this 'grid doctor' maintains the health of Singapore's electricity network so everything stays on Ground feedback, digital tools: How she helps 8,000 workers end their day safely Faster repairs, fewer disruptions: Meet the innovative teams using smart tech to keep your piped gas supply flowing

SP Group starts vehicle-to-grid technology trial � THU, JUL 08, 2021 - 9:24 PM | UPDATED THU, JUL 08, 2021 - 9:35 PM TAY PECK GEK � peckgek@sph.com.sg � @PeckGekBT Jimmy Khoo, chief executive of SP PowerGrid, with the V2G-capable Nissan LEAF and a V2G bi-directional charger that will be used in the Singapore trial. NATIONAL grid operator SP Group (SP) has started its trial of vehicle-to-grid (V2G) technology and has raised its investment in a V2G technology rm as Singapore progresses towards wider adoption of electric vehicles (EVs). The company aims to test the viability of tapping the energy stored in EVs in the trial to enhance the reliability of the grid, which will need to support more than 600,000 vehicles when Singapore phases out internal combustion engine vehicles by 2040, said SP in its media statement on Thursday. When charged, EVs store energy in their lithium-ion batteries, which serve as small energy storage systems that can transfer energy back to balance the power grid, such as when renewable energy sources such as solar power fluctuate due to weather conditions. If V2G technology is viable, owners of EVs can be paid for the use of their batteries when they are tapped to mitigate the intermittency problem in other energy sources. SP has stepped up its investment in the V2G technology rm The Mobility House (TMH), but did not provide the speci cs. SP only stated that TMH has a presence in Munich, Zurich and Belmont (in California) , and provides a non-proprietary software for integrating vehicle batteries into power grids using intelligent charging and storage solutions. SP is providing four V2G charging points at SP's premises for the trial, which will be completed in June 2022. V2G technology allows energy transfer between the batteries within an EV and the power grid, and so is more sophisticated than uni-directional charging of EVs.