Fluid-based spectrally selective filters for direct immersed PVT solar systems in building applications

Abstract

Liquid filters applied in hybrid photovoltaic-thermal (PVT) solar systems report potential benefits as they allow for selecting the wavelengths at which the solar cell operates with higher efficiency. Among the rest, low frequency photons are absorbed by the liquid, therefore not warming the cell up. In addition, direct immersion of photovoltaic cells in liquids enhances temperature control by cooling the cells under almost negligible contact resistance between the liquid and the cell. The characteristics of the liquids for direct immersed PVT application are described, defining an indicator (ideal filter window) to select the best liquid depending on the PV technology and the incident irradiance. Several liquids are assessed based on the required properties for the present application. As a conclusion, regarding optical, thermal, electrical and operational aspects, a mixture of deionized water and isopropyl alcohol results as proper candidate satisfying well all of them.

The authors would like to thank ''Ministerio de Economía y Competitividad'' of Spain for the funding (grant references ENE2013- 48325-R and ENE2016-81040-R) and to “Generalitat de Catalunya, AGAUR” (grant reference 2017 SGR 1276).