Balancing Sustainability In Sustainable Energy And Clean Technology Investments – The Keppel-NUS Infrastructure Carbon Health Laboratory will use the NUS Kent Ridge facility to build, test and test commercial innovations in energy management and carbon reduction.
Keppel Infrastructure Holdings Pte Ltd (Keppel Infrastructure) has entered into a Masters partnership agreement with the University of Singapore (NUS). and translational research and development of smart grids, renewable and clean energy. It includes technology to reduce emissions.
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As part of the partnership, Keppel Infrastructure and NUS will use NUS Kent Ridge’s “Keppel Infrastructure-NUS Low Carbon Living Laboratory” for design, testing and testing. and expand the use of business opportunities. in distributed energy distribution, integrated Photovoltaic (PV), microgrid energy storage including electric vehicle (EV) charging stations and grid-to-grid (V2G) trials, the partnership will provide learning and training opportunities for NUS students, as well as collaboration opportunities and players in the system. Other environments include startups, SMEs, and researchers.
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To launch this strategic partnership, Keppel Infrastructure and NUS have brought together innovative technologies that have been proven to test, demonstrate and adapt to changing environments. and integrating systems/systems into different systems. For data collection, analysis, and performance monitoring in order to expedite delivery. Selected projects include:
Ms. Cindy Lim, CEO of Keppel Infrastructure, said: “We are increasing our efforts to innovate and develop technologies related to sustainability. Developing Keppel’s infrastructure in a low carbon economy as well as being a partner and adding value to our industry and customers in Therefore, we are pleased to form this strong partnership with NUS to accelerate the commercialization of new technologies. It uses digital transformation and decentralization for speed and scale. This is in line with Keppel’s Vision 2030, which places sustainable development at the heart of the company’s strategy. ”
Professor Chen Tsuhan, NUS Vice-Chancellor (Research and Technology), said: “NUS is very proud to use our strengths in energy research and sustainability research. In partnership with Keppel Infrastructure to create practical business solutions For green to thrive, the NUS Kent Ridge campus will act as a key laboratory. New solutions are tested in practical applications before being launched on a large scale. These technological capabilities will help our company to face the challenges again. ”
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Keppel Infrastructure and NUS will also explore collaboration in other areas. related to energy and sustainability, such as reducing greenhouse gas emissions Solar energy projects as well as technologies and implementation of carbon capture. It also includes using standard solutions.
Keppel Corporation Limited, the parent company of Keppel Infrastructure Development such developments may not have a material impact on earnings per share and net assets per share for the financial year.
 The solution is designed and developed by NUS and Keppel DHCS Pte Ltd (KDHCS), a division of Keppel Infrastructure. This project received funding from the Energy Market Agency under the Energy Resilience Grant in 2018.
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Green technology is also known as clean technology or environmentally friendly technology. It refers to any technology or process. promotes the environment and is committed to reducing the negative impact on the environment. This will ultimately reduce greenhouse gas emissions and make the world more sustainable.
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One of the pillars of green technology is the growth of renewable energy sources. Solar, wind, hydroelectric, geothermal and biomass are sources of renewable energy that have made great strides in recent years. These technologies harness the power of nature to create clean energy. Reduce dependence on fossil fuels and reduce the negative impact of greenhouse gases in the atmosphere.
Renewable energy is an important part of green technology. Innovations in building construction, transportation, and equipment have led to drastic reductions in energy consumption, smart networks, LED lighting, and energy-efficient HVAC systems. And electric vehicles are a prime example of how technology drives energy conservation and improves sustainability.
Greenery has also revolutionized waste management and recycling. Modern recycling technologies and energy solutions are changing the way we deal with waste materials. Removing waste from waste and turning it into usable materials or energy. We can reduce environmental pollution and make better use of scarce resources.
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Agriculture plays an important role in sustainability. And the Greens are looking for new ways. Increase food production while reducing environmental impact. vertical agriculture integrated agriculture And the use of modern sensors and data analysis increases crop production and conserves water and soil.
The smart city concept integrates green technologies to create a sustainable urban environment. Using IoT devices, data analysis and automation Smart cities can increase energy efficiency. Reduce traffic volume Improve waste management and improve the quality of life of the community
Advances in green technology support environmental conservation efforts around the world. From monitoring and tracking endangered species to using AI and drones to protect wildlife. Technology plays an important role in the preservation of ecosystems and fragile organisms.
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Various businesses and industries are more aware of their responsibility to promote sustainable development. Green Support Organizations Adopt environmentally friendly practices. Reducing emissions and incorporating sustainability into their business processes.
Green technologies and sustainable development are among the most important factors in the fight against climate change and environmental protection. and sustainable energy use, waste management, sustainable agriculture and other environmental innovations. Technology has proven to be a powerful tool in creating a greener, more sustainable world. Embracing this development and adopting environmentally friendly actions at the individual and societal level will pave the way for a future where technology and nature work together for the well-being of the planet and future generations.
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This is despite the fact that energy companies use about 1% of all electricity used worldwide. But the impact that data centers have on the transition to sustainable and sustainable energy is far greater. Some of the effects are obvious and tangible. and some of these are indirect effects and difficult to assess.
In their analysis, George Kamiya and Laszlo Varro wrote: “The energy consumption of major technology companies is low compared to their economic, financial, and social impact.” The International Energy Agency “but because of its great power Add to this the great cultural and scientific power of these institutions. This gives these companies a significant role in tackling the climate crisis. ”
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One of the most visible ways these companies participate in the renewable energy market is through power purchase agreements, or PPAs. With the PPA, the company agrees to purchase renewable energy from the project that has not yet reached the Internet for a specified period of time. Set a price Usually between ten and 20 years.
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