新 加 坡 能 源 职 员 到 宏 茂 桥 亚 洲 妇 女 福 利 协 会 乐 龄 之 家 分 发 紧 急 袋 给 居 民 。 图 为 公 司 义 工 委 员 会 主 席 陈 美 慧 (44 岁 ) 给 高 龄 94 岁 的 黄 金 选 示 范 如 何 戴 口 罩 。( 萧 紫 薇 摄 ) “ 应 急 包 ” 派 给 长 者 应 急 用 亚 洲 妇 女 福 利 协 会 乐 龄 之 家 的 70 多 名 年 长 者 前 午 收 到 新 加 坡 能 源 公 司 分 发 的 “ 应 急 包 ”。 袋 中 有 N95 口 罩 、 口 罩 使 用 指 南 和 几 家 机 构 的 紧 急 联 络 号 码 , 以 备 年 长 者 不 时 之 需 。 新 加 坡 能 源 公 司 (Singapore Power) 的 职 员 也 现 场 示 范 戴 口 罩 的 正 确 方 法 , 并 提 醒 年 长 者 为 紧 急 情 况 做 好 准 备 的 重 要 性 。 淡 马 锡 关 怀 基 金 会 (Temasek Cares) 日 前 宣 布 为 新 加 坡 人 分 发 应 急 包 的 计 划 , 鼓 励 家 家 户 户 提 前 为 紧 急 时 刻 做 好 准 备 。 配 合 该 计 划 , 新 加 坡 能 源 在 新 加 坡 邮 政 支 持 下 , 分 发 应 急 包 给 120 万 户 家 庭 , 另 外 也 分 发 1 万 7000 个 给 慈 善 组 织 。 他 们 还 预 备 了 30 万 个 , 以 备 在 国 家 出 现 严 重 烟 霾 或 流 感 时 供 有 需 要 的 家 庭 使 用 。 除 了 亚 洲 妇 女 福 利 协 会 的 乐 龄 之 家 (AWWA Community Home for Senior Citizens) 的 年 长 者 , 约 30 名 新 加 坡 能 源 职 员 当 天 也 给 住 在 同 座 租 赁 组 屋 的 居 民 分 发 应 急 包 。 AWWA 活 动 策 划 经 理 钟 凤 仙 (58 岁 ) 受 访 时 说 , 应 急 包 对 年 长 者 非 常 有 用 。“ 他 们 在 危 急 时 刻 无 需 自 掏 腰 包 去 买 , 平 日 可 以 放 在 床 边 , 出 门 时 还 可 以 随 时 携 带 。 我 们 准 备 鼓 励 他 们 将 一 些 药 品 、 风 油 、 乘 车 卡 和 个 人 资 料 卡 放 入 袋 中 。”

Media Release SP Group Launches One Of The World's First Blockchain-Powered Trading Of Renewable Energy Certificates City Developments Limited and DBS Bank on board as first buyers of certificates Enables local and international organisations – regardless of size, business or location - to meet their sustainability targets Singapore, 29 October 2018 - SP Group (SP) launched one of the world’s first blockchain-powered renewable energy certificate (REC) marketplace at the ASEAN Energy Business Forum (AEBF) on Monday, 29 October 2018. In conjunction with the launch, AEBF forum participants saw screenshots of the first purchases by buyers, City Developments Limited (CDL) and DBS Bank (DBS). Designed and built in-house by SP’s team of digital energy experts, this marketplace enables local and international organisations – regardless of size, business or location in the world – to trade in RECs. The unique attributes of blockchain technology will ensure the security, integrity and traceability of each REC transaction. This will drive the greater integration of renewable energy sources on the electricity grid. Launching the marketplace innovation at the opening session of the Forum on Monday 29 October 2018, SP’s Chief Digital Officer, Samuel Tan, said, “Through blockchain technology, we enable companies to trade in renewable energy certificates conveniently, seamlessly and securely, helping them achieve greener business operations and meet their sustainability targets.” The SP REC marketplace supports local, regional and international RECs. It also supports different supply options including types of sellers and renewable energy sources. SP announced that local organisations such as CDL and DBS, who are keen drivers of sustainable solutions, have signed on as REC buyers. Solar developers such as Cleantech Solar Asia and LYS Energy Solutions, with local and regional solar assets, have signed a collaboration with SP to place their solar assets on the marketplace for sale of RECs. Katoen Natie Singapore, a global chemical logistics company who will be launching Singapore’s largest single unit rooftop solar facility at a warehouse, has also come onboard as a REC seller. When companies purchase RECs, they are consuming electricity from renewable sources, sold to them by other companies that produce green energy. With SP’s blockchain-powered marketplace, buyers are automatically matched with sellers, around the globe, according to their preferences. This helps big and small organisations to achieve their green targets and strengthens cross-border sustainability efforts with SP’s international reach. It contributes to Singapore’s low carbon targets, as part of its Paris COP-21 agreement. Annex A Hear from our Partners “As a green advocate for over two decades, CDL has always been committed to embracing technology and solutions that reduce environmental impact. Given that buildings consume 40% of energy globally, increasing the use of solar energy and neutralising our operations’ carbon footprint has been a priority in the way we build and manage our projects. We are glad to support the innovative and timely initiative by SP Group to embrace blockchain technology as a platform to accelerate Singapore’s transition to a low-carbon economy.” Ms Esther An, Chief Sustainability Officer, City Developments Limited “As Southeast Asia’s largest bank, we recognise the leadership role we can play in promoting sustainable development, including supporting innovations in renewable energy. SP Group’s blockchain REC platform will make it more economically effective for organisations and will catalyse the transition towards a low carbon economy. We look forward to many more innovations in renewable energy technologies to achieve a sustainable, affordable, secure and inclusive energy future.” Mr Mike Power, Chief Operating Officer of Technology and Operations, DBS “Cleantech Solar is excited to be onboarded onto one of the world’s first blockchain-powered REC marketplace pioneered by SP Group. By having our 120 solar sites in Asia on board this platform, we can now allow consumers, who are unable to generate their own renewable energy, another reliable solution to achieve their clean energy goals. Cleantech Solar is proud to be a contributor to SP Group’s innovative green solutions and together to work towards a zero carbon future.” Mr Raju Shukla, Executive Chairman, Cleantech Solar Asia “We are very excited to be part of the SP REC marketplace. We are launching a 6.8 MWh Solar Power Facility in Singapore this week. The SP REC marketplace gives Katoen Natie access to a broader ecosystem to drive sustainability.” Mr Koen Cardon, Chief Executive Officer, Katoen Natie Singapore “Pioneering the RECs trading since 2016, LYS Energy has envisioned the potential of blockchain technology as a powerful catalyst of a sustainable and global widespread of renewable energies adoption. Innovation leadership is our company philosophy, we are delighted today to be partnering with SP Group to support this significant milestone, as a world-wide debut of ensuring interoperability towards smart grid success while helping companies to achieve their sustainability targets.” Mr Lionel Steinitz, Chief Executive Officer, LYS Energy Solutions About SP Group SP Group is a leading energy utilities group in the Asia Pacific. It owns and operates electricity and gas transmission and distribution businesses in Singapore and Australia, and district cooling businesses in Singapore and China. SP Group is committed to providing customers with reliable and efficient energy utilities services. About 1.5 million industrial, commercial and residential customers in Singapore benefit from SP Group’s world-class transmission, distribution and market support services. These networks are amongst the most reliable and cost-effective world-wide. SP Group also drives digital solutions to empower customers to manage their utilities, reduce consumption and save cost. For more information, please visit spgroup.com.sg or for follow us on Facebook at fb.com/SPGroupSG and on Twitter @SPGroupSG

Consumption_Elect Average consumption of Electricity (kWh) Premises Types Oct-23 Nov-23 Dec-23 Jan-24 Feb-24 Mar-24 Apr-24 May-24 Jun-24 Jul-24 Aug-24 Sep-24 HDB 1-Room 146 144 135 126 126 132 150 152 149 140 151 148 HDB 2-Room 190 188 176 164 167 173 199 199 195 183 198 192 HDB 3-Room 274 269 247 236 241 250 292 285 277 264 283 277 HDB 4-Room 374 370 342 321 330 342 398 396 383 360 385 381 HDB 5-Room 437 436 401 367 381 399 463 466 448 416 447 446 HDB Executive 541 530 478 456 474 489 575 568 544 515 546 548 Apartment 537 541 483 430 435 486 578 573 543 500 513 539 Terrace 890 881 804 740 794 821 957 900 872 838 847 885 Semi-Detached 1,187 1,174 1,065 1,019 1,038 1,109 1,254 1,224 1,170 1,128 1,126 1,168 Bungalow 2,308 2,358 2,075 2,106 1,951 2,146 2,432 2,360 2,266 2,220 2,121 2,347 Note: The figures exclude electricity consumption for PAYU customers and customers who are not purchasing electricity at the regulated tariff.

Media Release Singapore’s First Centralised Power Plant Simulator & Structured Genco Training Programme 1. Workforce training on operations for Singapore’s power generation companies (Gencos) will now be centralised and standardised with the launch of Singapore’s first Centralised Power Plant Simulator (CPPS). 2. Developed by the Singapore Institute of Power and Gas (SIPG) – the Centralised Training Institute for Power and Gas sectors – in partnership with the Energy Market Authority (EMA) and Gencos, the CPPS courses mark the first time that Gencos operating in a competitive environment have come together to collectively design and level training standards for the sector. This ensures a consistent level of training, which plays a critical role in ensuring a secure and stable supply of electricity for Singapore. 3. Six courses integrated with CPPS training have been co-developed by SIPG and Gencos comprising Keppel Merlimau Cogen O&M, PacificLight Power, Sembcorp Cogen, Senoko Energy, Tuas Power and YTL PowerSeraya. Spanning basic to advanced levels, the training programme establishes a consistent standard for skills training, such as in power plant operations, process controls, and management of common equipment alarms and malfunctions in a controlled environment separate from actual day-to-day plant operations, ensuring the safety of participants as well as plant and system reliability. 4. A simulated environment also ensures that the workforce could be trained in scenarios which are rare in the power sector but can lead to plant shutdowns. A unique feature of the CPPS courses is that various Gencos have committed to provide trainers who are industry practitioners, who will be able to impart valuable knowledge and skills to the participants. 5. As part of the launch of the CPPS, SIPG has introduced a structured training programme consisting of two new Power Generation Certificate Programmes with certificates recognised by all Gencos. Certificates will be issued upon the completion of the CPPS courses, as well as other Power Generation courses offered by SIPG. 6. Minister of State (MOS) for Trade and Industry Low Yen Ling officiated the launch of the CPPS at SIPG today. In her opening speech, MOS Low commended key industry partners for the strong collaboration to bolster the competency of its workforce. 7. Mr Chia Soo Ping, Principal of SIPG, said: “As the energy landscape continues its dynamic and transformative journey, SIPG is focused on cultivating competencies and technological know-how needed for the industry to keep pace with change. The Gencos’ collaborative and structured approach promotes sharing and adoption of best practices. The Centralised Power Plant Simulator training reaps efficiencies and optimises the pooling of resources and expertise across all Gencos in Singapore to strengthen the overall resilience of the workforce for the energy sector.” 8. On the launch of the CPPS, Ms Violet Chen, EMA’s Industry Ecosystem Development Director, said: “We are heartened by the collective effort of SIPG and Gencos to strengthen the training of its workforce. The Power sector will continue to play a critical role in keeping the lights on and gas flowing for Singapore as we step up efforts to advance Singapore’s energy transition towards a sustainable future.”

SP Energy HubAnnual ReportReliabilitySustainabilityInnovation SP Group and Hyundai to Accelerate Adoption of EVs in Singapore INNOVATION SP Group (SP) and Hyundai will jointly develop a new business model for battery leasing, or Battery-as-a-Service (BaaS) – a first in Southeast Asia – where EV users lease the car battery instead of owning it. The collaboration includes a study on EV battery utilisation and improving the ownership experience for consumers. It also involves the expansion of the EV charging infrastructure and development of new solutions for battery reuse and recycling to achieve carbon neutrality. This aims to lower the initial cost of purchasing an EV, enhance the accessibility of charging points and build an ecosystem of innovative solutions that can encourage the adoption of EVs in Singapore. Read more in the media release. - 12 November 2020 TAGS INNOVATION YOU MIGHT BE INTERESTED TO READ SP partners Pyxis to launch direct-current fast charging point for electric harbour crafts Using GET™ to help Mercatus digitally manage their tenant utilities SP Group is partnering Mercatus Co-operative Limited to deploy SP Digital’s Green Energy Tech (GET™) solutions to Mercatus’ properties. Developing the digital core of sustainable energy solutions From coding to designing systems, Ibrahim develops and manages all the central platforms and systems that power the SP Utilities app, commercial solutions, and internal projects for SP.

TUESDAY, OCTOBER 29, 2013 MONEY B11 One man demonstrated ‘outstanding leadership’ in searching for solutions to the energy sector’s manpower challenges, while an organisation made a sustained effort in promoting energy awareness among youth. Another organisation received special mention for rallying youth around energy causes. The Straits Times speaks to the inaugural winners of the Singapore Energy Award, which honours those who have made transformational changes in the energy sector, and finds out what fuels their passion. Energy Matters A series brought to you by the Energy Market Authority Powered by pure passion SINGAPORE Power’s (SP) senior adviser Quek Poh Huat lays the ground rules at the start of the interview. “This isn’t about me, okay? The Singapore Energy Award belongs to the company. I was just fortunate to be here to oversee all this,” says the 67-year-old, ironically also the inaugural winner of the Individual category of this year’s awards. Mr Quek was appointed a director of SP Ltd in 2001 and became the group chief executive of SP from May 2004. He stepped down in January last year but is still on the frontline of addressing the sector’s manpower crisis. He recently chaired the Power Sector Manpower Taskforce (PSMT) to develop recommendations for building manpower capabilities for Singapore’s power sector. The challenges it highlighted included the ageing technical workforce and the difficulty of attracting and retaining younger Singaporeans (see previous story). “At Singapore Power (SP), the average age of our workers is 43. And as the workforce ages, we need them to be replaced. We also want to ensure know-how is transferred,” he said. “Working in the power sector is not seen as easy. People think that they will have to deal with harsh working conditions – having to be in substations and being on the ground. “But these conditions aren’t always harsh. We also need to make people understand the opportunities.” Mr Quek is no stranger to challenging situations. When SP introduced integrated billing for power, water and waste removal over 2000 and 2001, a computer glitch meant some households did not receive a bill for a year, then got them all at once. “It took 12 months to correct the faults,” he recalls. “We had to work out instalment schemes. I even went to Parliament to explain to the MPs how to trickle down the information to their concerned constituents.” Mr Quek was also under heat when, in 2004, the country experienced two outages. The first, in April, lasted 59 minutes and knocked out electricity supply to about 80,000 homes. The second, in June, left 30 per cent of the island in the dark for close to two hours. “Since then, most of the outages have been minor. Touch wood!” he says. Despite being in the sector just nine years, Mr Quek’s list of contributions to it is long. Under his watch, SP has become one of the largest energy utility companies in the Asia Pacific with revenues of $8.97 billion in financial year 2012/2013. He has also been developing capabilities within the industry and addressing the sector’s talent crunch through a variety of measures, including cultivating a close relationship with the unions. His efforts earned him the NTUC May Day Award – Medal of Commendation (Gold) in May last year. Mr RKS Nachiappan, general-secretary of the Union of Power & Gas Employees, says Mr Quek put in place more frequent meetings – both formal and casual – to understand the challenges and issues. “He has a real soft spot for the low-income group, and knows training is the best way to help make their lives better,” Mr Nachiappan adds. In 2010, Mr Quek was heavily involved in implementing an industry-wide Work Skills Qualification (WSQ) System and even before re-employment of older workers was legislated, SP put such a scheme in place. Mr Quek also lent his support to bond-free scholarships for power workers and mooted the idea of the Singapore Power Heartware Fund to help the needy elderly in our community. “The three most important ENERGY WARRIORS Singapore Power’s senior adviser Quek Poh Huat with a mural of the Singapore night skyline behind him at the SP offices. The 67-year-old is the inaugural winner of the Individual category of the Singapore Energy Award. PHOTO: EDWARD TEO FOR THE STRAITS TIMES things in my life are family, friends and faith. I follow that when dealing with the union, staff, new recruits and retirees. We are a family, Singapore Power,” Mr Quek says. Now retired, Mr Quek’s focus will be on the Singapore Power Training Institute (SPTI). It currently conducts about 200 training sessions under 70 programmes annually covering areas such as electricity and gas network operations, business continuity management, and safety and power quality. His plan is to retain the expertise present in the industry by inviting retired power workers back to teach. He also sees room for Singapore to share what it knows with the region. “Singapore has invested so much and learnt hard lessons developing its know-how. This can A LOVE for Lego was what drew 22-year-old Rochelle Hung to the National University of Singapore’s student organisation Energy Carta. Earlier this year, Energy Carta organised an event called Changing the Game, which visualised energy usage through the use of Lego bricks. Ms Hung, a major in Project and Facility Management at NUS’ School of Design and Environment (SDE), heard about it through a department e-mail blast. A long-time lover of Lego, she signed up. “I was determined to understand more about the energy field, especially sustainability, and be able to plan the future that I want to be in, that is, one with smart and sustainable buildings,” she recalls. Ms Hung eventually became one of the student leaders of Energy Carta, which has earned a Special Mention Award in the Organisation category of the inaugural Singapore Energy Award. Energy Carta, which draws part of its name from the ancient historical document Magna Carta, or Latin for “great charter”, was founded by 30-year-old NUS alumnus Yujun Chean in 2008. The then final-year engineering student had been working with a Silicon Valley start-up and attending classes at Stanford University under a year-long NUS student programme, when he saw former US vice-president Al Gore deliver a landmark speech ahead of the screening of his documentary An Inconvenient Truth. Separately, he also attended a conference by a now-defunct Stanford organisation that convinced him students could make a difference. Back at NUS, it dawned on him that he could do something similar. “I penned down names of prominent individuals within the be packaged and exported,” he says. Also a priority is to ensure that Singapore continues “keeping the lights on”. Singaporeans experience an average of just 25 seconds of outage a year. “And there is just a 0.01 per cent chance of a blackout. That’s the best in the world,” he says, beaming. It is a long way to have come for a man who remembers running through back lanes barefoot, electric trams in Orchard Road and calling it a night when daylight ended. “The next 20 years will also be dramatically different from how it is now,” he said, adding that the priority is finding the people who can keep things humming while also handling areas like electric cars and smart grids. “We cannot afford to fail.” Senoko is on the cutting edge of various energy innovations, including adopting and testing electric vehicles. PHOTO: ELECTRIC VEHICLE TASKFORCE Undergrads’ ‘great charter’ for environment Youth organisation Energy Carta, founded by NUS alumnus Yujun Chean (front row, left) in 2008, is one of the three inaugural winners of the Singapore Energy Award. Energy Carta has raised more than $170,000 in sponsorships from corporations such as PowerSeraya, Chevron, Sembcorp, Singapore Airlines and UOL. PHOTO: YUJUN CHEAN, ENERGY CARTA clean-tech world,” he recalls. “I also tried to get my friends excited about creating a student-run conference as a final year project.” In the end, an event he thought would simply allow him to “leave school with a bang” ended up having a much greater impact. First, Professor Chou Siaw Kiang, executive director of the NUS Energy Studies Institute, encouraged him not to set up the organisation as a Stanford offshoot but as an independent Singapore-rooted organisation. Then, the Economic Development Board (EDB) threw in its support and the Energy Market Authority (EMA) agreed to make Energy Carta its youth partner at the inaugural Singapore International Energy Week in 2008. “This gave us a lot of credibility when we were pitching for support, speakers and funding, and accelerated our growth curve,” says Mr Chean. What resulted was the Asian Youth Energy Summit in 2008, which became the largest student-led energy conference in Singapore, attracting over 500 participants and featuring 30 industry speakers. The following year, Energy Carta added the Chevron Case Challenge, where 97 teams vied to develop the best 20-year energy plan for a fictional city. A year later, the winner of the Singapore round of the Cleantech Open Global Ideas Competition was flown to the United States for the global leg of the competition. Energy Carta has raised more than $170,000 in sponsorships from corporations such as PowerSeraya, Chevron, Sembcorp, Singapore Airlines and UOL. “These funds have enabled us to organise large-scale events, reaching well over a thousand participants,” says Mr Chean. “The belief is that while most people may not be intrinsically keen to solve climate change, they may indirectly do so by building a career in the sector, and Energy Carta aims to get them started on that path,” he explains. Senoko’s activities to engage the young IT IS a Saturday but one of Senoko Energy’s vice-presidents is at Woodgrove Secondary School helping staff to develop an education module for next year and exploring how the school can become more energy-efficient. Woodgrove Secondary is one of 18 schools that has been adopted by Singapore’s largest power generation company as part of the NEA Corporate and School Partnership Programme (Casp). Senoko offers the schools training attachments, plant tours and project sponsorship among other things, and Mr Kwong Kok Chan has made it his personal mission to work with them. “When I first started in 2004, I saw it as just part of my job. Now I can’t differentiate between work and personal interest,” says the 60-year-old, an engineering graduate from the University of Malaya. “The students treat me like an uncle, and I’ve also learnt from the way they see things. One Admiralty student even challenged me, asking why Singapore didn’t harness electricity from lightning. I had no idea what to say!” It is people like Mr Kwong that Senoko Energy president and chief executive officer Brendan Wauters credit for the company’s win in the Organisation category of the inaugural Singapore Energy Awards. “The award reflects the continued and consistent efforts we have put in over the past decade,” he says. “A lot of people like Mr Kwong are instrumental to what we have done. Mr Kwong loves to interact with students and their teachers. His passion is infectious.” But Casp is only one of many community outreach activities undertaken by Senoko, the only power generation company located in the north of Singapore. “Being in the north, we are closer to residential areas, so it important that we have a relationship with our neighbouring communities,” explains Mr Wauters. Senoko has also partnered with the PUB to adopt Sungei Sembawang and help make young people aware of the need for water conservation. In 2012, the company launched the Senoko Sustainability Challenge, which challenged students from primary schools to junior colleges to come up with solutions to environmental problems. “It aims to create awareness of the importance of sustainability in general and climate change in particular among the younger generation, who are ultimately the ones who can impact future outcomes the most,” says Mr Wauters. A total of 120 teams from 52 schools participated this year. Senoko, which started in 1975, has, through the years, delivered several firsts. In 1991, it became the first power generation company to import natural gas into Singapore from Malaysia. It was a landmark moment, representing the nation’s first step away from liquid fuel. Senoko was also the first to use combined cycle gas turbine (CCGT) technology in 1995. Being able to fire with either natural gas or fuel oil or a mix of both translated into about 10 per cent in energy efficiency gains and cleaner emissions. Senoko was also the first company to take the 3R principles of reduce, reuse and recycle to a new level: Its “repowering” approach so far has resulted in a more than 40 per cent drop in carbon intensity over 1990 levels. Senoko is still on the cutting edge of other innovations, including adopting and testing electric vehicles. “Power companies are often seen as part of the problem in terms of the environment, but in Singapore, we can say we have become part of the solution,” says Mr Wauters.

Consumption_Water Average consumption of Water (CuM) Premises Types Aug-24 Sep-24 Oct-24 Nov-24 Dec-24 Jan-25 Feb-25 Mar-25 Apr-25 May-25 Jun-25 Jul-25 HDB 1-Room 8.1 8.3 7.9 8.1 7.8 7.8 7.8 7.2 7.8 7.8 8.1 7.8 HDB 2-Room 9.4 9.5 9.2 9.3 9.0 9.0 9.1 8.4 9.0 9.0 9.1 9.0 HDB 3-Room 12.4 12.5 12.2 12.2 12.0 11.9 12.0 11.2 12.0 12.0 12.1 11.8 HDB 4-Room 15.6 15.7 15.3 15.5 15.1 14.9 15.2 14.3 15.3 15.1 15.4 14.9 HDB 5-Room 16.9 17.1 16.7 17.0 16.4 16.1 16.7 15.8 16.8 16.5 16.8 16.2 HDB Executive 18.8 19.1 18.5 18.8 18.1 17.9 18.7 17.8 18.8 18.4 18.7 18.2 Apartment 13.1 13.8 13.8 13.8 13.3 12.8 13.0 12.7 13.7 13.5 13.4 12.8 Terrace 25.7 26.7 25.9 26.2 25.6 24.7 25.7 24.7 25.7 25.1 25.6 25.1 Semi-Detached 31.5 33.4 31.4 32.2 30.9 30.4 30.6 29.8 31.0 30.4 30.9 30.5 Bungalow 48.1 54.7 52.4 52.4 50.2 49.8 49.4 48.6 51.5 48.4 49.7 49.3

Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for everyone to contribute, no matter where in Singapore you live. SP Group is helping its customers to do just that through the My Carbon Footprint and My Green Credits features on the SP Utilities app. These allow customers to track carbon emissions resulting from electricity, water and gas consumption, and match this with the purchase of an equivalent amount of green energy. With the right urban infrastructure and power of knowledge, it will be possible to achieve climate action goals at both the individual and national levels. stopinion@sph.com.sg • Hugh Lim is the executive director of the Centre for Liveable Cities (www.clc.gov.sg), under the Ministry of National Development. Searchhttps://www.spgroup.com.sg/search?tag=smart-city Search [20210430] The Straits Times - What does it mean to be a smart and sustainable cityhttps://www.spgroup.com.sg/dam/jcr:d1eb0dd3-254c-4c02-99d8-9b3da06e5799 What does it mean to be a smart and sustainable city? In the eco-vanguard are Tengah’s innovative cooling system and Punggol’s open digital platform Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district (above) in 2006, enabling energy savings of up to 40 per cent, according to energy utilities provider SP Group. Tengah new town will be similarly equipped with a centralised cooling system adapted for residential use. PHOTO: SP GROUP test new concepts of living, working and service delivery for the neighbourhood. In Tengah, numerous initiatives – such as solar photovoltaic installations (which convert sunlight directly into electricity) and charging systems for electric vehicles, along with battery energy storage systems – are planned in an integrated manner. SP Group’s OneTengah digital platform will allow town council and facility operators to better measure, monitor and manage what systems are being deployed. Sustainable districts in a city hold huge promise for turning eco-conscious living into a collaborative endeavour. When such innovations are successfully implemented, the city is able to reap many benefits from systems-level integration and enjoy economies of scale, including energy savings. People: However, the success of these innovations ultimately rests on the people on the ground. Governments and developers can build the necessary infrastructure, but to actually reduce emissions, residents must do their part through individual lifestyle choices. A recent media survey found that nine in 10 Singaporean millennials are willing to make personal sacrifices to support climate change mitigation efforts. That’s why Tengah is designed to make it as easy and socially desirable as possible for residents to reduce their carbon footprint. One way Tengah will do this is through Eco Boards – digital displays that provide residents with block-level information on energy and water use. These will encourage utilities savings through “friendly competition” among blocks and allow town councils to achieve more efficient estate management. Additionally, the MyTengah app will allow residents to understand household utilities usage, intelligently control air-conditioning usage and buy energy-efficient appliances. Hugh Lim For The Straits Times Climate change and urbanisation are two of the most important challenges facing the world today – and they are inextricably linked. In South-east Asia, one of the most rapidly developing regions in the world, millions are moving out of rural settings into more urbanised areas every year. Sadly, this urbanisation is usually accompanied by an increase in greenhouse gas emissions. However, this need not be the case. Recent studies reveal that residents of denser city centres emit half the greenhouse gas emissions of their suburban neighbours. Moreover, cities have the unique ability to respond to a global issue such as climate change at a more local level, engaging residents directly. Cities are crucibles of innovation and usually offer more immediate and effective communication between the public and decision-makers. Therefore, cities that are well planned and managed may hold the key to balancing economic growth and environmental sustainability. REQUIREMENTS OF SUCCESS On a city scale, urban infrastructure and policies are required to drive emissions reductions through lifestyle choices. Take the example of Tengah, Singapore’s most ambitious smart and sustainable new town to date. The Housing Board, in collaboration with energy utilities provider SP Group, will implement Singapore’s first large-scale residential centralised cooling system there. Such collaborations and initiatives will aid Singapore in achieving its pledge to cap its emissions by 2030 and halve them by 2050. Its success will hinge on three things: power, process and people. Power: Geophysical constraints make it challenging for Singapore to adopt large-scale renewable energy solutions. This makes improving the performance of energy-consuming systems critical. The National Climate Change Secretariat predicts an increase in average surface temperatures of 2.9 deg C to 4.6 deg C under the RCP8.5 greenhouse gas trajectory for the period of 2070 to 2099, relative to 1980 to 2009. (RCP8.5 is a baseline scenario referring to the concentration of carbon that delivers global warming at an average of 8.5 watts per sq m across the planet.) What an increase in average surface temperatures means for Singapore is that there will be a commensurate increase in demand for air-conditioners. The amount of energy used to cool Singapore – which has the highest rate in the South-east Asian region of air-conditioners installed per capita – is projected to grow by 73 per cent between 2010 and 2030. The good news is that Singapore is piloting more energy-efficient technologies, including district cooling systems like the one implemented in the Marina Bay district in 2006, enabling energy savings of up to 40 per cent, according to SP Group. Tengah, which is scaled at around 220 to 300 HDB blocks, will be similarly equipped with a centralised cooling system adapted for residential use. Through centralised cooling, lifetime household energy consumption is expected to be reduced by 30 per cent. The upcoming Punggol Digital District, developed by national industrial infrastructure developer JTC Corporation, will be equipped with a smart energy grid that can lower energy usage, distribute green energy such as solar power seamlessly across the district and detect abnormal energy consumption. In Punggol Digital District, the buildings will be 30 per cent more energy-efficient than conventional commercial buildings, thanks to the sustainable design and smart optimisation enabled by the district’s open digital platform. Process: Sustainable districts can serve as test beds for urban systems innovation, enabling government agencies and industry partners to pilot a suite of complementary policies and actions to tackle greenhouse gas emissions. Take Punggol’s open digital platform, which will collect districtwide data through its network of sensors, including building data (to do with lifts, lighting and occupancy, for example) and environmental data (such as temperature and rainfall). These data sets will allow JTC to optimise resources in real time and fix issues before they become serious problems. The open digital platform’s digital twin technology will also provide an experimental environment for anyone in the district. It will allow industries and researchers to tap the open data to MAKING A DIFFERENCE Tengah and Punggol Digital District are in the vanguard of city-level eco-smartness, but there are ways for ev

Media Coverage Catch the latest news on SP All Years 15 Sep 2023 The Business Times - Labrador Tower set to showcase SP Group’s green, digital energy prowess Source: The Business Times © SPH Media Limited. Permission required for reproduction 14 Sep 2023 The Business Times - Labrador Tower set to showcase SP Group’s green, digital energy prowess (Online) Source: The Business Times Online © SPH Media Limited. Permission required for reproduction 09 Sep 2023 The Business Times Online - SGX SP Group Charity Golf Events Raise More Than $900,000 Source: The Business Times © Singapore Press Holdings Limited. Permission required for reproduction. 27 Aug 2023 The Straits Times - A good engineer likes to be challenged": Mentor's tough assignments sharpen skills of next generation Source: The Straits Times © Singapore Press Holdings Limited. Permission required for reproduction. 24 Aug 2023 The Business Times - SP Group, Frasers Property to jointly develop smart energy solutions in Vietnam industrial park Source: The Business Times © Singapore Press Holdings Limited. Permission required for reproduction. 23 Aug 2023 Lianhe Zaobao - SP Group, Frasers Property to jointly develop smart energy solutions in Vietnam industrial park Source: Lianhe Zaobao © Singapore Press Holdings Limited. Permission required for reproduction. 23 Aug 2023 The Business Times Online - SP Group, Frasers Property team up for green project in Vietnam Industrial Park Source: The Business Times Online © Singapore Press Holdings Limited. Permission required for reproduction. 31 May 2023 The Straits Times - Van turned mobile outreach station provides youth guidance twice a week in Jurong Source: The Straits Times © SPH Media Limited. Permission required for reproduction. 31 May 2023 Lianhe Zaobao - New social van-ture reaches out to at-risk youth at their haunts Source: Lianhe Zaobao © SPH Media Limited. Permission required for reproduction. 26 May 2023 Lianhe Zaobao - SP Group expands Marina Bay district cooling network to reduce 25,000 tonnes of carbon emissions annually Source: Lianhe Zaobao © SPH Media Limited. Permission required for reproduction. 1 ... 9 10 11 ... 47

SP Energy HubAnnual ReportReliabilitySustainabilityInnovation Electricity’s First Responders RELIABILITY SP Group’s Principal Engineer Jerome Choong is one of the first at the scene should an electricity disruption happen. Five-year-old Jovan thinks his father Jerome Choong, an SP Group Principal Engineer, is a cross between an electrician and a magician. “He thinks that when people have no electricity, they call me, and I make it appear,” laughs the 35-year-old, who takes care of the electricity distribution network in the north zone, which spans the area stretching from Boon Lay to Punggol. “Jovan used to get annoyed when I left abruptly during family gatherings. Now, he is proud of what I do,” says Jerome who also has a two-year-old son. Principal Engineer Jerome Choong (right) and son Jovan Jerome has been with SP for seven years and leads a unit of 30. He is one of the first on site when an outage happens. His priority is to work with his unit to quickly and safely get supply back up. While prevention is key and every effort is made to keep trouble at bay, it is important to be prepared for the unexpected. It helps the team spring into action without delay should something happen. His car boot is testimony to his commitment – half holds a stroller for his two-year-old, and the other half, the tools he needs, from cable insulation testing equipment to multi-meters. His iPad stores documents, schematic drawings and operations manuals. His network of fellow engineers is a Whatsapp message away. Always on the alert, Jerome forms his recovery plan as he drives to the site where an incident has occurred, helped by information on the location, number of customers affected, and the substations and breakers he should zoom in on. This is provided by the Electricity Service Centre and Distribution Control Centre, which he works closely with. Principal Engineer Jerome Choong checking on switchgears in a substation. For every incident, he and his colleagues investigate what went down, isolate and test the equipment, and start on repairs or replacements. “We explore every what-if scenario,” Jerome says, “and have back-ups to the back-up plans.” While the control centre can remotely resolve some issues, manual intervention by Jerome’s team is sometimes required, and checks are always done before supply sources are switched to ensure safety. Replacement parts are also tested before being connected and energised. Only then is the power transferred back on to customers. Work does not end when an issue is resolved, and even a late-night activation often sees him back on duty the next morning. In the day, Jerome oversees the maintenance of the switchgears and transformers of the high-voltage network. He also regularly engages commercial and industrial customers with higher electricity consumption requirements. The job keeps him on his toes, he says, as does the need to evolve with his role. The rise of renewables, for one, has meant having to integrate non-traditional sources of electricity onto the grid. “I love solving problems, and we seldom encounter two situations that are exactly the same. We’re constantly learning, and re-learning. That’s what keeps the job interesting.” (From left) Principal Engineer Jerome Choong with Service Technicians Hasly Bin Hashim and Mohammad Iskandar bin Sapari attending to an incident at an affected substation. (From left) Principal Engineer Jerome Choong and Senior Engineer Ren Zhiping using an equipment to diagnose where an issue lies. (From right) Principal Engineer Jerome Choong supervising Technical Officer Arif Tham during the checking of a Low Voltage (LV) board, to maintain substation equipment. — 29 May 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 Energy HubAnnual ReportReliabilitySustainabilityInnovation Mobile Generators: Powering Continuity RELIABILITY Mohamed Nasir bin Mohamed Ismail, Technical Officer, Electricity Operations (center) together with Ismet Imran bin Chuma'ing, Senior Technician, Electricity Operations (left) and Mohammad Najib bin Jalil, Technical Officer, Electricity Operations (right) from SP Group's Mobile Generator Unit. When an electrical glitch hit Kian Teck Avenue in Jurong last month, a team from SP Group’s Mobile Generator Unit was charged and ready to roll. In minutes, a mobile generator mounted on a 30-ft trailer left a facility in Pasir Panjang for the site of the incident. The generator carried some 2,000 litres of diesel, enough to power up a housing estate for around eight hours, and up to 40 metres of cable to hook up to a low-voltage (LV) board, which distributes electricity. “We need to always be prepared to provide temporary power,” says Mr Mohamed Nasir bin Mohamed Ismail, 42, a technical officer who is part of the unit. Readiness is key for the Mobile Generator Unit. This begins at 7.30am with a daily “warm up”, conducted by the 10 men on the morning shift. During the one-hour ritual, all the operational mobile generators – the larger ones mounted on fourteen 30-ft trailers, and the smaller ones on seven 20-ft lorries – are started and tested to ensure they are ready to be deployed. The team members also conduct cable insulation tests and checks on their toolboxes and personal protection gear. This enables them to act swiftly and safely, in the event of an electricity disruption. The men, who work on three shifts round the clock, are deployed by SP Group’s Electricity Service Centre in teams of three – a leader, an assistant, and a driver. Mr Nasir, the leader of his team, has been with SP for 21 years, joining right after he completed his National Service in 1998. He studied mechanical engineering at the ITE and plays the role of synchroniser, ensuring that the voltage and frequency of the mobile generator matches that of the grid network. Mr Nasir, who has both a Class 4 and Class 5 driving license, doubles up as a driver, and says navigating these massive vehicles is an exercise that requires both practice and courage. The trailer-mounted mobile generators cannot travel through tunnels, including those on expressways like the MCE, CTE or KPE. The 60km/h speed limit also keeps them in the slowest lanes most of the time. The trailer-mounted generators are part of a fleet of 22 vehicles of different sizes and capacities used for power restoration. “You need to know the quickest alternative route around traffic or restrictions. Outage in Ang Mo Kio and leaving from Pasir Panjang? Alexandra, Farrer, Adam, Braddell, then join the CTE after the tunnel,” Mr Nasir rattles off. The narrow roads in some estates and parked vehicles can also pose problems for the 13 metres by 2.6 metres by 4.3 metres trailers, and it is up to the two men with the driver to recce for a spot to hunker down – which must also be close enough to an electrical room to hook up. While Singapore enjoys one of the lowest occurrences of outages in the world, it is gratifying to be a part of a team that helps “get the lights back on" if supply is disrupted, Mr Nasir says. “We are usually greeted by frustrated faces when we arrive, so seeing them happy again makes us very happy,” he quipped. — 1 May 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

GRID-TIED PHOTOVOLTAIC (PV) SYSTEM: APPLICATION FOR DECOMMISSIONING OF PV SYSTEM IN THE PREMISES To: SP PowerGrid Ltd 2 Kallang Sector Singapore 349277 For official use only Application No. Date Received PART I : APPLICANT’S DETAILS I hereby acknowledge the application to decommission the entire PV system in my premises as given in Part II by my Licensed Electrical Worker responsible for the PV system, including closing of associated PV account (if applicable). Name of Company / Applicant: Department / Sub-BU: Name of Authorised Person & Designation: Forwarding Address: Telephone: Email: Signature: Date: (DD/MM/YYYY) PART II : PV INSTALLATION DETAILS (TO BE COMPLETED BY LEW) Installation Address: Electrical Installation License No.: Utility Account No (Existing): Installation Intake Voltage: Existing Approved PV Capacity: kWp kWac I, (LEW No.: ), the (Name) undersigned Licensed Electrical Worker (LEW) for the PV system at the above premises, wish to apply for decommissioning of the entire PV system at the above premises on: Date: (at least 30 days in advance from date of application) (DD/MM/YYYY) Signature: Date: (DD/MM/YYYY) Page 1 of 1 Ver 1.0