Summary
HyCool Project Mission is increasing the current use of Solar Heat in Industry Processes, and to do so the project proposes the coupling of a new Fresnel CSP Solar thermal collectors (FCSP) with specially build Hybrid Heat Pumps (HHP) (a “two-in one” combination of adsorption and compressor based heat pumps) for a wider output temperature range (Solar Heating & Cooling –SHC-), and to provide a wide range of design and operational configurations to better fit each case, hence increasing the potential implementation of the proposed Solar Heat in industrial environments.
The two main features of HyCool System are Flexibility and Efficiency an they will allow different strategies for a technically and economically viable system. During Capital Expeditures phase simplicity will be aimed pursuing easiness in design configuration optimization, modular construction and ITS for commissioning. During Operational Expenditures the optimum balance between the HyCool System Operational Flexibility and Efficiency will be targeted to maximize HyCool cost effectiveness to each individual case. Following this, the pilots proposed will demonstrate both opposed strategies in two selected key leading industry sectors:
Food Case Pilot targets specialized small Food industries in high solar irradiation areas with cooling needs in their processes. Here narrow configurations are aimed to optimize Efficiency, so a simple system will be selected to obtain maximum outputs based on the conditions of use.
Chemical Case Pilot target industries with several processes in high solar irradiation areas with steam and cooling needs. Here a more complex configuration is aimed to optimize Operational Flexibility, so a more complex system will be implemented, able to be switched among different options based on weather, season and production schedule.
Finally, special consideration will be taken in building trust during HyCool communication and results dissemination during the project.
The two main features of HyCool System are Flexibility and Efficiency an they will allow different strategies for a technically and economically viable system. During Capital Expeditures phase simplicity will be aimed pursuing easiness in design configuration optimization, modular construction and ITS for commissioning. During Operational Expenditures the optimum balance between the HyCool System Operational Flexibility and Efficiency will be targeted to maximize HyCool cost effectiveness to each individual case. Following this, the pilots proposed will demonstrate both opposed strategies in two selected key leading industry sectors:
Food Case Pilot targets specialized small Food industries in high solar irradiation areas with cooling needs in their processes. Here narrow configurations are aimed to optimize Efficiency, so a simple system will be selected to obtain maximum outputs based on the conditions of use.
Chemical Case Pilot target industries with several processes in high solar irradiation areas with steam and cooling needs. Here a more complex configuration is aimed to optimize Operational Flexibility, so a more complex system will be implemented, able to be switched among different options based on weather, season and production schedule.
Finally, special consideration will be taken in building trust during HyCool communication and results dissemination during the project.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/792073 |
| Start date: | 01-05-2018 |
| End date: | 31-10-2022 |
| Total budget - Public funding: | 7 740 440,00 Euro - 5 818 971,00 Euro |
Cordis data
Original description
HyCool Project Mission is increasing the current use of Solar Heat in Industry Processes, and to do so the project proposes the coupling of a new Fresnel CSP Solar thermal collectors (FCSP) with specially build Hybrid Heat Pumps (HHP) (a “two-in one” combination of adsorption and compressor based heat pumps) for a wider output temperature range (Solar Heating & Cooling –SHC-), and to provide a wide range of design and operational configurations to better fit each case, hence increasing the potential implementation of the proposed Solar Heat in industrial environments.The two main features of HyCool System are Flexibility and Efficiency an they will allow different strategies for a technically and economically viable system. During Capital Expeditures phase simplicity will be aimed pursuing easiness in design configuration optimization, modular construction and ITS for commissioning. During Operational Expenditures the optimum balance between the HyCool System Operational Flexibility and Efficiency will be targeted to maximize HyCool cost effectiveness to each individual case. Following this, the pilots proposed will demonstrate both opposed strategies in two selected key leading industry sectors:
Food Case Pilot targets specialized small Food industries in high solar irradiation areas with cooling needs in their processes. Here narrow configurations are aimed to optimize Efficiency, so a simple system will be selected to obtain maximum outputs based on the conditions of use.
Chemical Case Pilot target industries with several processes in high solar irradiation areas with steam and cooling needs. Here a more complex configuration is aimed to optimize Operational Flexibility, so a more complex system will be implemented, able to be switched among different options based on weather, season and production schedule.
Finally, special consideration will be taken in building trust during HyCool communication and results dissemination during the project.
Status
CLOSEDCall topic
LCE-12-2017Update Date
26-10-2022
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Organisations
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| VEOLIA SERVEIS CATALUNYA SOCIEDAD ANONIMA UNIPERSONAL (Coördinator)
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| AIT AUSTRIAN INSTITUTE OF TECHNOLOGY GMBH (AIT Austrian Institute of Technology GmbH)
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| ASOCIACION ESPAÑOLA DE NORMALIZACION Y CERTIFICACION
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| BO DE DEBO S.L.
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| CIAOTECH Srl
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| COMET GLOBAL INNOVATION, SL
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| CONSIGLIO NAZIONALE DELLE RICERCHE (CNR)
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| DR. JAKOB ENERGY RESEARCH GMBH & CO. KG
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| ECOTHERM AUSTRIA GMBH
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| EKODENGE MUHENDISLIK MIMARLIK DANISMANLIK TICARET ANONIM SIRKETI
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| FAHRENHEIT GMBH
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| FRESNEX GMBH
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| GIVAUDAN IBERICA SA
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| GIVAUDAN SUISSE SA
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| IDP INGENIERIA Y ARQUITECTURA IBERIA SL