Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ...
If large-scale rooftop photovoltaic is to reach its full potential in snow rich climates, energy production losses caused by snow shading need to be alleviated. Here we investigate the energy performance and wind loads of five alternative PV system designs, conceived to reduce the snow shading losse...
| Main Authors: | , , , , , , , |
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| Format: | Conference Object |
| Language: | English |
| Published: |
WIP-Munich
2024
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| Subjects: | |
| Online Access: | https://dx.doi.org/10.4229/eupvsec2024/4eo.2.3 https://userarea.eupvsec.org/proceedings/EU-PVSEC-2024/4eo.2.3 |
| _version_ | 1821577884375973888 |
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| author | Svedjeholm, Maria Lampa, Josefin Petersson, Anna Malou Olofsson, Arvid Andersson, Robin Fooladgar, Ehsan Estola, Pirjo Lindh, Mattias |
| author_facet | Svedjeholm, Maria Lampa, Josefin Petersson, Anna Malou Olofsson, Arvid Andersson, Robin Fooladgar, Ehsan Estola, Pirjo Lindh, Mattias |
| author_sort | Svedjeholm, Maria |
| collection | DataCite |
| description | If large-scale rooftop photovoltaic is to reach its full potential in snow rich climates, energy production losses caused by snow shading need to be alleviated. Here we investigate the energy performance and wind loads of five alternative PV system designs, conceived to reduce the snow shading losses in these environments. For the town of Luleå (Sweden, 65°N) we find that all alternative designs perform better than the conventional reference in terms of snow shading losses and annual specific energy yield, but that elevated high-tilt designs are exposed to high wind loads and lower energy production per roof area. In our view, a variant of a conventional system that is elevated above the expected snow depth make out a promising design for strong roofs, since it features very low wind loads, small snow shading losses, and high energy production per roof area. For weaker buildings that require snow removal, we instead suggest less surface efficient, elevated high-tilt designs with large enough row spacing for ... |
| format | Conference Object |
| genre | Luleå Luleå Luleå |
| genre_facet | Luleå Luleå Luleå |
| id | ftdatacite:10.4229/eupvsec2024/4eo.2.3 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftdatacite |
| op_doi | https://doi.org/10.4229/eupvsec2024/4eo.2.3 |
| publishDate | 2024 |
| publisher | WIP-Munich |
| record_format | openpolar |
| spelling | ftdatacite:10.4229/eupvsec2024/4eo.2.3 2025-01-16T23:01:16+00:00 Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... Svedjeholm, Maria Lampa, Josefin Petersson, Anna Malou Olofsson, Arvid Andersson, Robin Fooladgar, Ehsan Estola, Pirjo Lindh, Mattias 2024 application/pdf https://dx.doi.org/10.4229/eupvsec2024/4eo.2.3 https://userarea.eupvsec.org/proceedings/EU-PVSEC-2024/4eo.2.3 en eng WIP-Munich PV Systems Engineering, Integrated/Applied PV Design, Engineering and Installation of PV Systems ConferencePaper Article 2024 ftdatacite https://doi.org/10.4229/eupvsec2024/4eo.2.3 2024-12-02T15:28:56Z If large-scale rooftop photovoltaic is to reach its full potential in snow rich climates, energy production losses caused by snow shading need to be alleviated. Here we investigate the energy performance and wind loads of five alternative PV system designs, conceived to reduce the snow shading losses in these environments. For the town of Luleå (Sweden, 65°N) we find that all alternative designs perform better than the conventional reference in terms of snow shading losses and annual specific energy yield, but that elevated high-tilt designs are exposed to high wind loads and lower energy production per roof area. In our view, a variant of a conventional system that is elevated above the expected snow depth make out a promising design for strong roofs, since it features very low wind loads, small snow shading losses, and high energy production per roof area. For weaker buildings that require snow removal, we instead suggest less surface efficient, elevated high-tilt designs with large enough row spacing for ... Conference Object Luleå Luleå Luleå DataCite |
| spellingShingle | PV Systems Engineering, Integrated/Applied PV Design, Engineering and Installation of PV Systems Svedjeholm, Maria Lampa, Josefin Petersson, Anna Malou Olofsson, Arvid Andersson, Robin Fooladgar, Ehsan Estola, Pirjo Lindh, Mattias Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title | Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title_full | Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title_fullStr | Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title_full_unstemmed | Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title_short | Energy Yields and Wind Loads of Alternative PV Designs for Roofs in Snowy Climates ... |
| title_sort | energy yields and wind loads of alternative pv designs for roofs in snowy climates ... |
| topic | PV Systems Engineering, Integrated/Applied PV Design, Engineering and Installation of PV Systems |
| topic_facet | PV Systems Engineering, Integrated/Applied PV Design, Engineering and Installation of PV Systems |
| url | https://dx.doi.org/10.4229/eupvsec2024/4eo.2.3 https://userarea.eupvsec.org/proceedings/EU-PVSEC-2024/4eo.2.3 |