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    Design of optimal building envelopes with integrated photovoltaics

    New search for: Youssef, Amr M. A.
    New search for: Zhai, Zhiqiang John
    New search for: Reffat, Rabee M.

    Abstract Building integrated photovoltaics (BIPV) receives growing attentions due to both architectural and engineering favorability. Large commercial building envelopes present a great potential of utilizing solar radiation, especially in climate zones with rich solar resources. Most current studies have been focused on predicting and optimizing power generation of BIPV on designed envelope systems, which leaves limited room for performance improvement of BIPV. This study introduces a framework of an optimization method that formulates the best building envelope shapes and the most matching BIPV systems. A set of criteria are established to determine the best alternatives of envelope variations, upon which the power generation and economic impact of different BIPV systems are evaluated and compared. The proposed optimization process was demonstrated using a general commercial building design application in Egypt. The developed tool can help designers in achieving an optimized building envelope that is most suitable for PV integration.

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    Design of optimal building envelopes with integrated photovoltaics

    New search for: Youssef, Amr M. A.
    New search for: Zhai, Zhiqiang John
    New search for: Reffat, Rabee M.

    Abstract Building integrated photovoltaics (BIPV) receives growing attentions due to both architectural and engineering favorability. Large commercial building envelopes present a great potential of utilizing solar radiation, especially in climate zones with rich solar resources. Most current studies have been focused on predicting and optimizing power generation of BIPV on designed envelope systems, which leaves limited room for performance improvement of BIPV. This study introduces a framework of an optimization method that formulates the best building envelope shapes and the most matching BIPV systems. A set of criteria are established to determine the best alternatives of envelope variations, upon which the power generation and economic impact of different BIPV systems are evaluated and compared. The proposed optimization process was demonstrated using a general commercial building design application in Egypt. The developed tool can help designers in achieving an optimized building envelope that is most suitable for PV integration.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Design of optimal building envelopes with integrated photovoltaics

    New search for: Youssef, Amr M. A.
    New search for: Zhai, Zhiqiang John
    New search for: Reffat, Rabee M.

    Abstract Building integrated photovoltaics (BIPV) receives growing attentions due to both architectural and engineering favorability. Large commercial building envelopes present a great potential of utilizing solar radiation, especially in climate zones with rich solar resources. Most current studies have been focused on predicting and optimizing power generation of BIPV on designed envelope systems, which leaves limited room for performance improvement of BIPV. This study introduces a framework of an optimization method that formulates the best building envelope shapes and the most matching BIPV systems. A set of criteria are established to determine the best alternatives of envelope variations, upon which the power generation and economic impact of different BIPV systems are evaluated and compared. The proposed optimization process was demonstrated using a general commercial building design application in Egypt. The developed tool can help designers in achieving an optimized building envelope that is most suitable for PV integration.

    Access

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    Title:

    Design of optimal building envelopes with integrated photovoltaics

    Contributors:

    Youssef, Amr M. A. (author) / Zhai, Zhiqiang John (author) / Reffat, Rabee M. (author)

    Published in:

    Building Simulation ; 8 ; 353-366

    Publication date:

    2015-02-03

    Size:

    14 pages

    ISSN:

    1996-8744 , 1996-3599

    DOI:

    https://doi.org/10.1007/s12273-015-0214-y

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    building integrated photovoltaics , optimal building envelope , power generation , economic analysis Engineering , Building Construction , Engineering Thermodynamics, Heat and Mass Transfer , Atmospheric Protection/Air Quality Control/Air Pollution , Environmental Monitoring/Analysis

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