A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Performance compromises of building-integrated and building-applied photovoltaics (BIPV and BAPV) in Brazilian airports
Highlights Airport building envelopes can receive 90–95% of the maximum available annual solar irradiation. The choice of PV technology has a large impact on the annual energy generation potential. Compared with BIPV, BAPV leads to lower installed peak power capacity and annual energy density. Compared with BIPV, BAPV leads to higher annual energy yields. Differences in performance ratio (PR) between BIPV and BAPV are negligible.
Abstract Civil aviation is a large and growing contributor to greenhouse gas emissions. The airports that host commercial flights are often national landmarks and architectural showcases. They are typically large, horizontal and free of shading, and are also ideally suited for the integration of photovoltaic (PV) systems for onsite generation of clean and renewable electricity. While ground-mounted PV generators should be designed for optimum performance, PV systems integrated on buildings should also consider aesthetics. We have analysed building-applied and building-integrated PV systems (BAPV and BIPV). In BAPV, optimised PV module orientation and tilt angles were proposed for maximum annual output, while in BIPV, modules were accommodated respecting the existing architecture of airport buildings. Two Brazilian airports were analysed, comparing the performance of BAPV and BIPV using two “off-the-shelf” PV technologies. On average, both the installed peak power and the energy generation density were found to be higher for BIPV (100% and 87%, respectively), while the final annual energy yield was 7% higher for BAPV. A compromise of pleasant integration and small energy losses was reached, which can assist in convincing clients and the public more than an ideally tilted and oriented PV generator that impacts negatively on the building's aesthetics.
Performance compromises of building-integrated and building-applied photovoltaics (BIPV and BAPV) in Brazilian airports
Highlights Airport building envelopes can receive 90–95% of the maximum available annual solar irradiation. The choice of PV technology has a large impact on the annual energy generation potential. Compared with BIPV, BAPV leads to lower installed peak power capacity and annual energy density. Compared with BIPV, BAPV leads to higher annual energy yields. Differences in performance ratio (PR) between BIPV and BAPV are negligible.
Abstract Civil aviation is a large and growing contributor to greenhouse gas emissions. The airports that host commercial flights are often national landmarks and architectural showcases. They are typically large, horizontal and free of shading, and are also ideally suited for the integration of photovoltaic (PV) systems for onsite generation of clean and renewable electricity. While ground-mounted PV generators should be designed for optimum performance, PV systems integrated on buildings should also consider aesthetics. We have analysed building-applied and building-integrated PV systems (BAPV and BIPV). In BAPV, optimised PV module orientation and tilt angles were proposed for maximum annual output, while in BIPV, modules were accommodated respecting the existing architecture of airport buildings. Two Brazilian airports were analysed, comparing the performance of BAPV and BIPV using two “off-the-shelf” PV technologies. On average, both the installed peak power and the energy generation density were found to be higher for BIPV (100% and 87%, respectively), while the final annual energy yield was 7% higher for BAPV. A compromise of pleasant integration and small energy losses was reached, which can assist in convincing clients and the public more than an ideally tilted and oriented PV generator that impacts negatively on the building's aesthetics.
Performance compromises of building-integrated and building-applied photovoltaics (BIPV and BAPV) in Brazilian airports
Zomer, Clarissa D. (author) / Costa, Marcela R. (author) / Nobre, André (author) / Rüther, Ricardo (author)
Energy and Buildings ; 66 ; 607-615
2013-07-28
9 pages
Article (Journal)
Electronic Resource
English
Building integrated photovoltaics (BIPV) photovoltaic system
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