Summary
The Hi-ThermCap project offers a solution for the macro-encapsulation of phase-change materials (PCM) for use in gaseous
and aqueous systems as a heat transfer medium. The expected outcome of this innovation project is to put at the market’s
disposal a unique solution for thermal energy storage in heating and cooling systems in Europe.
The heating industry is recognized as the sector with the biggest energy-saving potential in Europe. In the low temperature
range of -20 to +100°C, most of the thermal energy amounts are required and then discarded, in particular in our buildings
and industries. PCM are recognized among the key materials to save these huge energy and – at the same time – CO2
amounts. They can run through a reproducible phase-change at a substance-specific temperature, during which the thermal
energy is either stored in very large amounts or returned at a constant temperature. Since decades, an adequate method is
being sought to transfer PCM into a user-friendly form. Both existing micro- and macro-encapsulation solutions for PCM
storage have until now revealed not industrially and economically viable enough for a broad application. The most common
solution in use in Europe is sensible heat storage (e.g. water storage tank) that has a low energy density and thermal
storage capacity.
ESDA offers an affordable, easy-of-use, high-capacity and high-performance solution in the form of a PCM-filled capsule
able to function in combination with all heat exchangers, including renewable energy technologies. The markets addressed
are the high-volume heating and cooling market for residential and service sector buildings in Europe, but also the very
promising industrial heating and cooling market. ESDA first calculations foresee a large impact in the application with solar
thermal collectors and heat pumps, with a cumulated turnover of €2,256M and additional 75 job creations at strategic
European locations within the first 6 years after project completion.
and aqueous systems as a heat transfer medium. The expected outcome of this innovation project is to put at the market’s
disposal a unique solution for thermal energy storage in heating and cooling systems in Europe.
The heating industry is recognized as the sector with the biggest energy-saving potential in Europe. In the low temperature
range of -20 to +100°C, most of the thermal energy amounts are required and then discarded, in particular in our buildings
and industries. PCM are recognized among the key materials to save these huge energy and – at the same time – CO2
amounts. They can run through a reproducible phase-change at a substance-specific temperature, during which the thermal
energy is either stored in very large amounts or returned at a constant temperature. Since decades, an adequate method is
being sought to transfer PCM into a user-friendly form. Both existing micro- and macro-encapsulation solutions for PCM
storage have until now revealed not industrially and economically viable enough for a broad application. The most common
solution in use in Europe is sensible heat storage (e.g. water storage tank) that has a low energy density and thermal
storage capacity.
ESDA offers an affordable, easy-of-use, high-capacity and high-performance solution in the form of a PCM-filled capsule
able to function in combination with all heat exchangers, including renewable energy technologies. The markets addressed
are the high-volume heating and cooling market for residential and service sector buildings in Europe, but also the very
promising industrial heating and cooling market. ESDA first calculations foresee a large impact in the application with solar
thermal collectors and heat pumps, with a cumulated turnover of €2,256M and additional 75 job creations at strategic
European locations within the first 6 years after project completion.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/717376 |
| Start date: | 01-03-2016 |
| End date: | 31-08-2016 |
| Total budget - Public funding: | 71 429,00 Euro - 50 000,00 Euro |
Cordis data
Original description
The Hi-ThermCap project offers a solution for the macro-encapsulation of phase-change materials (PCM) for use in gaseousand aqueous systems as a heat transfer medium. The expected outcome of this innovation project is to put at the market’s
disposal a unique solution for thermal energy storage in heating and cooling systems in Europe.
The heating industry is recognized as the sector with the biggest energy-saving potential in Europe. In the low temperature
range of -20 to +100°C, most of the thermal energy amounts are required and then discarded, in particular in our buildings
and industries. PCM are recognized among the key materials to save these huge energy and – at the same time – CO2
amounts. They can run through a reproducible phase-change at a substance-specific temperature, during which the thermal
energy is either stored in very large amounts or returned at a constant temperature. Since decades, an adequate method is
being sought to transfer PCM into a user-friendly form. Both existing micro- and macro-encapsulation solutions for PCM
storage have until now revealed not industrially and economically viable enough for a broad application. The most common
solution in use in Europe is sensible heat storage (e.g. water storage tank) that has a low energy density and thermal
storage capacity.
ESDA offers an affordable, easy-of-use, high-capacity and high-performance solution in the form of a PCM-filled capsule
able to function in combination with all heat exchangers, including renewable energy technologies. The markets addressed
are the high-volume heating and cooling market for residential and service sector buildings in Europe, but also the very
promising industrial heating and cooling market. ESDA first calculations foresee a large impact in the application with solar
thermal collectors and heat pumps, with a cumulated turnover of €2,256M and additional 75 job creations at strategic
European locations within the first 6 years after project completion.
Status
CLOSEDCall topic
SIE-01-2015-1Update Date
27-10-2022
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