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NUS campus as a living lab for advancing innovative and sustainable energy solutions

来源机构: 新加坡国立大学    发布时间:2023-11-21点击量:1

Engaging with industry partners is integral to bringing research innovations in sustainable energy from the lab bench to real-world solutions for Singapore to achieve its decarbonisation goals. To support Singapore in achieving these goals, NUS is offering its built environment as a hub for sustainability-related research through the Campus as A Living Lab at NUS (CALL@NUS) initiative.

CALL@NUS is an innovative platform that utilises the physical systems and infrastructure of the NUS campus, together with the innovative capabilities of the NUS Digital Twin platform, for researchers and industry partners to co-create and validate impactful and scalable sustainability solutions in a living and operational environment, for future implementation in Singapore and globally.

NUS President Professor Tan Eng Chye said, “At NUS, we are presenting the campus as a Living Lab, where our physical infrastructure and operational systems serve as an integrative test-bed for sustainability solutions. This opens up a myriad of possibilities for impactful discoveries, game-changing innovations, and transformative education.”

Leveraging CALL@NUS for sustainable energy projects

Making use of the unique CALL@NUS initiative is the Keppel-NUS Low Carbon Living Laboratory, where NUS researchers and Keppel engineers will work on a multi-pronged project, announced on 20 November 2023, aimed at advancing NUS’ Campus Sustainability Roadmap 2030 and the Singapore Green Plan 2030. This project will enhance the adoption of commercially viable and sustainable energy technologies, as well as boost energy efficiency.

The Keppel-NUS Low Carbon Living Laboratory is hosted on NUS Kent Ridge campus through a Master Research Collaboration Agreement (MRCA) signed between NUS and Keppel Corporation’s Infrastructure Division in April 2022.

Through this multi-faceted project, NUS and Keppel Corporation aim to advance distributed energy management solutions, develop and deploy a smart AC/DC hybrid microgrid, as well as implement an innovative and energy-efficient district-wide cooling system.

“This collaboration leverages NUS’ expertise in energy and sustainability research and Keppel’s technological capabilities to develop cutting-edge technologies for smart grid management and district cooling which, once validated, could be applied within NUS, on a national-scale, and even globally,” said Prof Tan.

One aspect of this multi-pronged project will be conducted from 2023 to 2026 and co-led by Associate Professor Sanjib Kumar Panda along with Professor Dipti Srinivasan from the Department of Electrical and Computer Engineering under the NUS College of Design and Engineering together with Keppel engineers. In this aspect, NUS researchers and Keppel engineers will implement a digital twin and leverage comprehensive sensing technologies and modelling to develop innovative distributed energy management solutions and explore the adoption of a smart AC/DC hybrid microgrid to allow seamless integration and optimisation of different sustainable energy technologies, such as renewable energy resources, energy storage devices, and smart electric vehicle charging solutions. These innovations are envisaged to create an infrastructure network that reduces energy consumption while enhancing grid reliability and climate resilience.

In another aspect of this project under the MRCA, NUS researchers and Keppel Infrastructure engineers will focus on the implementation of an innovative district-wide cooling network at the NUS University Hall and its adjacent developments. This aspect will see the deployment of a proprietary material-based thermal energy storage technology jointly developed by NUS and Keppel in an earlier collaboration, techniques that use outdoor air for cooling, and real-time AI-based optimisations. These technologies will be integrated with the AC/DC hybrid microgrid, which has the potential to significantly reduce the carbon footprint and energy consumption for cooling at NUS.

This multi-pronged project is aimed to scale across the entire NUS campus in different phases, and replicated for third-party customers locally and abroad.

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