Summary
Application of Solar Thermal Energy to Processes (ASTEP) will create a new innovative Solar Heating for Industrial Processes (SHIP) concept focused on overcoming the current limitations of these systems. This solution is based on modular and flexible integration of two innovative designs for the solar collector (SunDial) and the Thermal Energy Storage (TES, based on Phase Change Materials, PCM) integrated via a control system which will allow flexible operation to maintain continuous service against the unpredictable nature of the solar source and partially during night operation. ASTEP will demonstrate its capability to cover a substantial part of the heat demand of the process industry at temperatures above 150 ºC and for latitudes where current designs are not able to supply it. Its modularity and compactness will also enable easy installation and repair with reduced space requirements, while most of components can be sourced locally. The ASTEP`s process integration will allow full compatibility with the existing systems of potential end-users of SHIP. These aspects will provide a very competitive solution to substitute fossil fuel consumption. The developed solar concept will be tested at two industrial sites to prove the objective’s target of TRL5. Life Cycle Analysis will be included to validate and demonstrate the efficiency of the proposed technologies. The first Industrial Site of the proposal is the world’s leading steel company, ArcelorMittal, with a heating demand above 220 ºC for a factory located at a latitude of 47.1 N (Iasi, Romania). The second site is the dairy company MANDREKAS, located at a latitude of 37.93 N (Corinth, Greece) with a heating demand for steam at 175 ºC and a cooling demand at 5 ºC. These test locations will validate the ASTEP solution for a substantial part of the potential requirements of industrial heating and cooling demand of the European Union (EU28), which is estimated at approximately 72 TWh per year
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| Web resources: | https://cordis.europa.eu/project/id/884411 |
| Start date: | 01-05-2020 |
| End date: | 30-06-2025 |
| Total budget - Public funding: | 4 999 360,00 Euro - 4 999 360,00 Euro |
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Original description
Application of Solar Thermal Energy to Processes (ASTEP) will create a new innovative Solar Heating for Industrial Processes (SHIP) concept focused on overcoming the current limitations of these systems. This solution is based on modular and flexible integration of two innovative designs for the solar collector (SunDial) and the Thermal Energy Storage (TES, based on Phase Change Materials, PCM) integrated via a control system which will allow flexible operation to maintain continuous service against the unpredictable nature of the solar source and partially during night operation. ASTEP will demonstrate its capability to cover a substantial part of the heat demand of the process industry at temperatures above 150 ºC and for latitudes where current designs are not able to supply it. Its modularity and compactness will also enable easy installation and repair with reduced space requirements, while most of components can be sourced locally. The ASTEP`s process integration will allow full compatibility with the existing systems of potential end-users of SHIP. These aspects will provide a very competitive solution to substitute fossil fuel consumption. The developed solar concept will be tested at two industrial sites to prove the objective’s target of TRL5. Life Cycle Analysis will be included to validate and demonstrate the efficiency of the proposed technologies. The first Industrial Site of the proposal is the world’s leading steel company, ArcelorMittal, with a heating demand above 220 ºC for a factory located at a latitude of 47.1 N (Iasi, Romania). The second site is the dairy company MANDREKAS, located at a latitude of 37.93 N (Corinth, Greece) with a heating demand for steam at 175 ºC and a cooling demand at 5 ºC. These test locations will validate the ASTEP solution for a substantial part of the potential requirements of industrial heating and cooling demand of the European Union (EU28), which is estimated at approximately 72 TWh per yearStatus
SIGNEDCall topic
LC-SC3-RES-7-2019Update Date
26-10-2022
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Organisations
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| UNIVERSIDAD NACIONAL DE EDUCACION A DISTANCIA (Coördinator)
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| ARCELORMITTAL ACERALIA BASQUE HOLDING SOCIEDAD LIMITADA
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| ARCELORMITTAL TUBULAR PRODUCTS IASI SA
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| BRUNEL UNIVERSITY LONDON
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| CENTRE FOR RENEWABLE ENERGY SOURCES AND SAVING FONDATION (CRES)
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| CROWDHELIX LIMITED
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| CROWDHELIX LIMITED
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| DYNAMIC & SECURITY COMPUTATIONS SL (ANALISIS-DSC)
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| EBOS TECHNOLOGIES LIMITED
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| FUNDACION PARA EL FOMENTO DE LA INNOVACION INDUSTRIAL
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| GALAKTOKOMIKA MANDREKAS ANONYMI ETAIREIA
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| IRIS
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| PRODUCTION TRADE AND SUPPORT OF MACHINABLE PRODUCTS OF SOFTWARE AND INFORMATICS - RELATIONAL TECHNOL...
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| REAY DAVID
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| UNIVERSIDAD POLITECNICA DE CARTAGENA