Michael Hermann scite author profile

New facades of high-rise buildings often include renewable energy converters to allow "green building" operation. At the same time, numerous tenants value visual transparency. Transparent solar thermal collectors (TSTCs) aim at decreasing the non-renewable primary energy demand and increasing the visual transparency at the same time. On the one hand, this paper presents the main modelling challenges that arise when considering building facades and especially integrated TSTC systems. New transient systems simulation (TRNSYS) [Beckman, W. A., L. Broman, A. Fiksel, S. A. Klein, E. Lindberg, M. Schuler, and J. Thornton. 1994. "TRNSYS The Most Complete Solar Energy System Modelling and Simulation Software." Renewable Energy 5 (1-4): 486-488] types have been especially developed for this purpose. A simplified model is presented for comparison purposes. On the other hand, the overall performance for a building with facade-integrated TSTC, as measured by its non-renewable prima ry energy demand, is treated. This is achieved by considering a complete simulation model coupling the TSTC, building and heating, ventilation and air conditioning operation. Possibilities for primary energy savings are investigated using the building mass as additional thermal storage

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Hybrid PV-thermal Collector Development: Concepts, Experiences, Results and Research Needs

Fortuin

Hermann

Stryi-Hipp

et al. 2014

Energy Procedia

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Michael Hermann

Investigation of fractal flow-fields in portable proton exchange membrane and direct methanol fuel cells

Development and modelling of highly-efficient PVT collectors with low-emissivity coatings

PVT collector technologies in solar thermal systems: A systematic assessment of electrical and thermal yields with the novel characteristic temperature approach

Heating and cooling in high-rise buildings using facade-integrated transparent solar thermal collector systems

Hybrid PV-thermal Collector Development: Concepts, Experiences, Results and Research Needs

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