Summary
The EU promotes the use of renewable energy for the reduction of CO2 emissions as part of the EU’s effort to protect the
natural environment. It aims to reduce carbon emissions by 60% relative to the 1990 level by 2050 and increase the use of
renewable energy to 20% by 2020. Buildings account for about 40% energy consumption in the EU and the use of
renewable energy for heating and cooling of buildings will be important in achieving this goal.
Transformation of the EU new-existing building stock towards low/zero energy buildings requires effective integration and full
use of the potential yield of intermittent renewable energy sources. Thermochemical heat storage (THS) can play a pivotal
role in synchronizing energy demand and supply, on both short and long term basis. The proposed solar powered
thermochemical heat storage (Solar-Store) system will integrate solar collector, evaporative humidifier and heat pipe
technology with a novel THS reactor design for seasonal storage of solar energy. The proposed system will deliver efficient,
low-cost THS that can be fitted in the limited space in dwellings. The fellowship aims to benefit from Prof. Yijun Yuan’s
recent work in energy storage systems, making use of sorption materials and solar thermal technology. Professor Yuan's
considerable industrial and academic experience will make valuable contribution to the EU host organisation in terms of
technology/knowledge transfer, PhD student/young researcher training and IP/commercialisation of new technologies. The
partner organisations will also involve to this interaction (secondments) to enhance the effectiveness of the fellowship.
Combining the skills and experience of UNOTT, Prof. Yuan and partner organisations and presenting them to the next
generation of researchers and professionals in industry through the comprehensive programme of knowledge transfer
activities proposed in this project will lead to a step change in the development of future products in this area.
natural environment. It aims to reduce carbon emissions by 60% relative to the 1990 level by 2050 and increase the use of
renewable energy to 20% by 2020. Buildings account for about 40% energy consumption in the EU and the use of
renewable energy for heating and cooling of buildings will be important in achieving this goal.
Transformation of the EU new-existing building stock towards low/zero energy buildings requires effective integration and full
use of the potential yield of intermittent renewable energy sources. Thermochemical heat storage (THS) can play a pivotal
role in synchronizing energy demand and supply, on both short and long term basis. The proposed solar powered
thermochemical heat storage (Solar-Store) system will integrate solar collector, evaporative humidifier and heat pipe
technology with a novel THS reactor design for seasonal storage of solar energy. The proposed system will deliver efficient,
low-cost THS that can be fitted in the limited space in dwellings. The fellowship aims to benefit from Prof. Yijun Yuan’s
recent work in energy storage systems, making use of sorption materials and solar thermal technology. Professor Yuan's
considerable industrial and academic experience will make valuable contribution to the EU host organisation in terms of
technology/knowledge transfer, PhD student/young researcher training and IP/commercialisation of new technologies. The
partner organisations will also involve to this interaction (secondments) to enhance the effectiveness of the fellowship.
Combining the skills and experience of UNOTT, Prof. Yuan and partner organisations and presenting them to the next
generation of researchers and professionals in industry through the comprehensive programme of knowledge transfer
activities proposed in this project will lead to a step change in the development of future products in this area.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/744914 |
| Start date: | 01-07-2017 |
| End date: | 30-06-2019 |
| Total budget - Public funding: | 195 454,80 Euro - 195 454,00 Euro |
Cordis data
Original description
The EU promotes the use of renewable energy for the reduction of CO2 emissions as part of the EU’s effort to protect thenatural environment. It aims to reduce carbon emissions by 60% relative to the 1990 level by 2050 and increase the use of
renewable energy to 20% by 2020. Buildings account for about 40% energy consumption in the EU and the use of
renewable energy for heating and cooling of buildings will be important in achieving this goal.
Transformation of the EU new-existing building stock towards low/zero energy buildings requires effective integration and full
use of the potential yield of intermittent renewable energy sources. Thermochemical heat storage (THS) can play a pivotal
role in synchronizing energy demand and supply, on both short and long term basis. The proposed solar powered
thermochemical heat storage (Solar-Store) system will integrate solar collector, evaporative humidifier and heat pipe
technology with a novel THS reactor design for seasonal storage of solar energy. The proposed system will deliver efficient,
low-cost THS that can be fitted in the limited space in dwellings. The fellowship aims to benefit from Prof. Yijun Yuan’s
recent work in energy storage systems, making use of sorption materials and solar thermal technology. Professor Yuan's
considerable industrial and academic experience will make valuable contribution to the EU host organisation in terms of
technology/knowledge transfer, PhD student/young researcher training and IP/commercialisation of new technologies. The
partner organisations will also involve to this interaction (secondments) to enhance the effectiveness of the fellowship.
Combining the skills and experience of UNOTT, Prof. Yuan and partner organisations and presenting them to the next
generation of researchers and professionals in industry through the comprehensive programme of knowledge transfer
activities proposed in this project will lead to a step change in the development of future products in this area.
Status
CLOSEDCall topic
MSCA-IF-2016Update Date
28-04-2024
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