Abstract
This paper describes large scale tests conducted on a novel unglazed solar air collector system. The proposed system, referred to as a back-pass solar collector (BPSC), has on-site installation and aesthetic advantages over conventional unglazed transpired solar collectors (UTSC) as it is fully integrated within a standard insulated wall panel. This paper presents the results obtained from monitoring a BPSC wall panel over one year. Measurements of temperature, wind velocity and solar irradiance were taken at multiple air mass flow rates. It is shown that the length of the collector cavities has a direct impact on the efficiency of the system. It is also shown that beyond a height-to-flow ratio of 0.023m/m<sup>3</sup>/hr/m<sup>2</sup>, no additional heat output is obtained by increasing the collector height for the experimental setup in this study, but these numbers would obviously be different if the experimental setup or test environment (e.g. location and climate) change. An equation for predicting the temperature rise of the BPSC is proposed.
Original language | English |
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Pages (from-to) | 871-880 |
Number of pages | 10 |
Journal | Renewable Energy |
Volume | 83 |
Early online date | 02 Jun 2015 |
DOIs | |
Publication status | Published - Nov 2015 |
Keywords
- Back pass non-perforated unglazed solar collector
- Renewable energy
- Solar air heaters
- Thermal efficiency
ASJC Scopus subject areas
- Renewable Energy, Sustainability and the Environment