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    Calculating solar irradiance without shading geometry: a point cloud-based method

    New search for: Bognár, Á.
    New search for: Loonen, R.C.G.M.
    New search for: Hensen, J.L.M.

    Accurate simulation of solar irradiance on facades and roofs in a built environment is a critical step for determining photovoltaic yield and solar gains of buildings, which in an urban setting are often affected by the surroundings. In this paper, a new modelling method is introduced that uses Digital Surface Model (DSM) point clouds as shading geometry, combined with a matrix-based approach for simulating solar irradiance. The proposed method uses the DSM as shading geometry directly, eliminating the need for 3D surface geometry generation and conducting ray-tracing, thus simplifying the simulation workflow. The real-world applicability is demonstrated with two case studies, where it is shown that if the site is shaded, ignoring the shading from the surroundings would cause overprediction in the simulated annual PV yield, underprediction of the annual heating and overprediction of the annual cooling demand.

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    Calculating solar irradiance without shading geometry: a point cloud-based method

    New search for: Bognár, Á.
    New search for: Loonen, R.C.G.M.
    New search for: Hensen, J.L.M.

    Accurate simulation of solar irradiance on facades and roofs in a built environment is a critical step for determining photovoltaic yield and solar gains of buildings, which in an urban setting are often affected by the surroundings. In this paper, a new modelling method is introduced that uses Digital Surface Model (DSM) point clouds as shading geometry, combined with a matrix-based approach for simulating solar irradiance. The proposed method uses the DSM as shading geometry directly, eliminating the need for 3D surface geometry generation and conducting ray-tracing, thus simplifying the simulation workflow. The real-world applicability is demonstrated with two case studies, where it is shown that if the site is shaded, ignoring the shading from the surroundings would cause overprediction in the simulated annual PV yield, underprediction of the annual heating and overprediction of the annual cooling demand.

    Access

    Download

    Calculating solar irradiance without shading geometry: a point cloud-based method

    New search for: Bognár, Á.
    New search for: Loonen, R.C.G.M.
    New search for: Hensen, J.L.M.

    Accurate simulation of solar irradiance on facades and roofs in a built environment is a critical step for determining photovoltaic yield and solar gains of buildings, which in an urban setting are often affected by the surroundings. In this paper, a new modelling method is introduced that uses Digital Surface Model (DSM) point clouds as shading geometry, combined with a matrix-based approach for simulating solar irradiance. The proposed method uses the DSM as shading geometry directly, eliminating the need for 3D surface geometry generation and conducting ray-tracing, thus simplifying the simulation workflow. The real-world applicability is demonstrated with two case studies, where it is shown that if the site is shaded, ignoring the shading from the surroundings would cause overprediction in the simulated annual PV yield, underprediction of the annual heating and overprediction of the annual cooling demand.

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    Download

    Access

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    Document information
    Title:

    Calculating solar irradiance without shading geometry: a point cloud-based method

    Contributors:

    Bognár, Á. (author) / Loonen, R.C.G.M. (author) / Hensen, J.L.M. (author)

    Published in:

    Journal of Building Performance Simulation ; 14 ; 480-502

    Publication date:

    2021-09-03

    Size:

    23 pages

    ISSN:

    1940-1493 , 1940-1507

    DOI:

    https://doi.org/10.1080/19401493.2021.1971765

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Solar irradiance , photovoltaics , solar heat gains , shading

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