期刊
SOLAR ENERGY
卷 211, 期 -, 页码 488-502出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.solener.2020.09.087
关键词
Building integrated photovoltaics (BIPV); Lifecycle cost analysis (LCCA); BIPV societal and environmental benefits; BIPV end-of-life material recovery; Net present value (NPV); Building envelope materials
资金
- Department of Safety, Economics, and Planning (ISOP) of the University of Stavanger [IN-12011]
- Smart City Group
- Future Energy Hub at the University of Stavanger
In dense urban areas, the use of building integrated photovoltaics (BIPV) facades are becoming popular and they are bringing many advantageous along with the energy-saving features. However, at the same time, they raise tensions in capital investments and overall returns. Solsmaragden is one of such a commercial building, that is integrated with BIPV facade with the peak power of 127.5 kW and owned by Union eiendomsutvikling AS in Norway. In this paper, a lifecycle cost analysis (LCCA) of BIPV facade integrated to Solsmaragden is investigated based on on-field recorded data after four years of operation (2016-2019). While formulating LCCA, numerous benefits from system power generation, societal and environmental benefits, and financial gains due to three different end-of-life material recovery approaches were also considered. The result based on the field monitored performance showed that the net present value (NPV), discounted payback period, internal rate of return and levelised cost of energy of the system is equal to 478,934 NOK, 22 years, 6% and 1.28 NOK/kWh, respectively. It is observed that the BIPV system as a building envelope material for different orientations of the building skin could reimburse not only all the investment costs but also become a source of income for the buildings. The results also illustrated that the granted subsidy is substantially covering the societal and environmental benefits of this project.
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