Abstract
Solar thermal energy and heat pumps are key technologies to increase the share of renewable energy in in dustry. In order to spread these technologies, integration barriers should be reduced, such as high investment
costs, lack of experience, missing integration schemes and planning guidelines or lack of knowledge about
technological developments. Within the Austrian research project EnPro appropriate guidelines for manufac turers, users and planners are being developed. Therefore, in total 12 case studies in food, paper, metal pro duction and processing, laundries and insulation industry have been performed, three of them selected and
presented in this paper. Based on a detailed assessment of the processes, their process parameters and energy
demand as well as the energy supply of the industry, integration concepts of solar thermal and heat pump
systems and their combinations have been developed. Possible integration concepts include the parallel use
and three different variations of serial integration of solar thermal and heat pumps. As variation I solar ther mal is integrated first in the supply cascade (heating demand of a process or the supply system), followed by
the heat pump. Variation II is the reversal of the order while as variation III solar thermal is used as source
for the heat pump. Integration points for all possible combinations have been detected in the assessed com panies. The concepts will be economically evaluated. The focus is set on generalized integration schemes for
solar thermal and heat pump systems and the combination of both followed by the identification of upcoming
R&D topics to push the implementation of identified solutions.
Original language | English |
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Title of host publication | EuroSun 2016 / ISES Conference Proceedings (2016) |
Number of pages | 13 |
DOIs | |
Publication status | Published - 2016 |
Event | 11th ISES EuroSun 2016 - Duration: 11 Oct 2016 → 13 Oct 2016 |
Conference
Conference | 11th ISES EuroSun 2016 |
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Period | 11/10/16 → 13/10/16 |
Research Field
- Efficiency in Industrial Processes and Systems