Summary
Cooling is the fastest-growing use of energy in buildings but is also one of the most critical blind spots in today’s energy debate. Rising demand for space cooling is putting enormous strain on electricity systems in many countries, as well as driving up emissions. Comparing to heat, power, and transport, cooling had long been under-represented in the EU energy policy until 2016 when the European Commission took the first step with the launch of its Heating and Cooling Strategy. The strategy identifies actions of ‘increasing the share of renewables’ and ‘reuse of energy waste from industry’ as two key areas for decarbonizing cooling to meet the EU’s climate goals by 2050. Accordingly, the targets are only achievable with fast development and deployment of new efficient and effective cooling technologies driven by either ‘renewable electricity/heat’ or waste heat. This CO-COOL RISE project assembles an international, interdisciplinary consortium from 12 research institutions and 5 industrial companies to collectively accelerate the cooling technology development and deployment, with complementary expertise/skills including composite solids, phase change materials (PCMs), complex fluids, process intensification (heat and mass transfer), cold thermal storage, refrigeration systems, as well as techno-economic analysis (TEA) and life cycle assessment (LCA), marketing analysis, and entrepreneurship skills. Based on the innovation of composite solids (sorbents/PCMs) and fluids (PCMs and hydrate slurries) as well as related components and systems, the project aims to develop renewable/recoverable energy driven, storage-integrated cooling technologies which could offer energy resource-efficient and cost-effective solutions to meet end-users’ low carbon cooling demand.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101007976 |
| Start date: | 01-10-2021 |
| End date: | 30-09-2026 |
| Total budget - Public funding: | 892 400,00 Euro - 639 400,00 Euro |
Cordis data
Original description
Cooling is the fastest-growing use of energy in buildings but is also one of the most critical blind spots in today’s energy debate. Rising demand for space cooling is putting enormous strain on electricity systems in many countries, as well as driving up emissions. Comparing to heat, power, and transport, cooling had long been under-represented in the EU energy policy until 2016 when the European Commission took the first step with the launch of its Heating and Cooling Strategy. The strategy identifies actions of ‘increasing the share of renewables’ and ‘reuse of energy waste from industry’ as two key areas for decarbonizing cooling to meet the EU’s climate goals by 2050. Accordingly, the targets are only achievable with fast development and deployment of new efficient and effective cooling technologies driven by either ‘renewable electricity/heat’ or waste heat. This CO-COOL RISE project assembles an international, interdisciplinary consortium from 12 research institutions and 5 industrial companies to collectively accelerate the cooling technology development and deployment, with complementary expertise/skills including composite solids, phase change materials (PCMs), complex fluids, process intensification (heat and mass transfer), cold thermal storage, refrigeration systems, as well as techno-economic analysis (TEA) and life cycle assessment (LCA), marketing analysis, and entrepreneurship skills. Based on the innovation of composite solids (sorbents/PCMs) and fluids (PCMs and hydrate slurries) as well as related components and systems, the project aims to develop renewable/recoverable energy driven, storage-integrated cooling technologies which could offer energy resource-efficient and cost-effective solutions to meet end-users’ low carbon cooling demand.Status
SIGNEDCall topic
MSCA-RISE-2020Update Date
28-04-2024
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Organisations
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| THE UNIVERSITY OF BIRMINGHAM (Coördinator)
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| CONSIGLIO NAZIONALE DELLE RICERCHE (CNR)
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| GLOBAL ENERGY INTERCONNECTION RESEARCH INSTITUTE EUROPE GMBH
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| GUANGZHOU INSTITUTE OF ENERGY CONVERSION CHINESE ACADEMY OF SCIENCES
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| JIANGSU JINHE ENERGY TECHNOLOGY CO LTD
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| KELVIN THERMOTECH LTD
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| KING MONGKUT'S UNIVERSITY OF TECHNOLOGY NORTH BANGKOK
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| NANJING UNIVERSITY OF AERONAUTICS AND ASTRONAUTICS
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| NANYANG TECHNOLOGICAL UNIVERSITY
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| NILE VALLEY ENGINEERING COMPANY PARTNERSHIP
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| Simon Fraser University
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| THE BOARD OF TRUSTEES OF THE UNIVERSITY OF ILLINOIS
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| UNIVERSIDAD DE LLEIDA
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| UNIVERSITY OF GLASGOW
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| USER FEEDBACK PROGRAM SL