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    Modeling of a Photovoltaic/Thermal Hybrid Panel for Residential Hot Water System

    Source: Journal of Solar Energy Engineering:;2024:;volume( 147 ):;issue: 001::page 11003-1
    Author:
    Odeh, Saad
    ,
    Aden, Ilyas
    DOI: 10.1115/1.4065552
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: Despite the extensive body of research on photovoltaic (PV)/thermal systems, a gap remains in evaluating their performance in residential settings. This study aims to bridge this gap by focusing on the energy modeling of a PV/Thermal (PVT) hybrid panel that incorporates heat pipe technology. The evaluation is conducted through MATLAB code to assess the system's capability to fulfill the electricity and heating demands of residential buildings. The model's reliability is affirmed by comparing it with experimental data from a PVT panel tested in Sydney, exploring the transient variations in both water heat gain rates and power generation. The model's precision is evident from the percentage of error in the estimated temperatures of the PV panel based on the test results under various weather conditions, which ranged from −8% to 6%. This method was also utilized to determine the overall energy efficiency of the PVT panel under different climatic conditions. The results reveal that the overall energy efficiency of the proposed PVT panel, on a typical day, is approximately 45%, significantly outperforming traditional PV panels by more than double. Furthermore, the payback period for a typical residential PVT system, providing both hot water and electricity, is found substantially shorter than that of installing separate PV and solar hot water systems, highlighting the economic and environmental benefits of the proposed hybrid system.
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      Modeling of a Photovoltaic/Thermal Hybrid Panel for Residential Hot Water System

    URI
    http://yetl.yabesh.ir/yetl1/handle/yetl/4306210
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    contributor authorOdeh, Saad
    contributor authorAden, Ilyas
    date accessioned2025-04-21T10:26:41Z
    date available2025-04-21T10:26:41Z
    date copyright6/13/2024 12:00:00 AM
    date issued2024
    identifier issn0199-6231
    identifier othersol_147_1_011003.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4306210
    description abstractDespite the extensive body of research on photovoltaic (PV)/thermal systems, a gap remains in evaluating their performance in residential settings. This study aims to bridge this gap by focusing on the energy modeling of a PV/Thermal (PVT) hybrid panel that incorporates heat pipe technology. The evaluation is conducted through MATLAB code to assess the system's capability to fulfill the electricity and heating demands of residential buildings. The model's reliability is affirmed by comparing it with experimental data from a PVT panel tested in Sydney, exploring the transient variations in both water heat gain rates and power generation. The model's precision is evident from the percentage of error in the estimated temperatures of the PV panel based on the test results under various weather conditions, which ranged from −8% to 6%. This method was also utilized to determine the overall energy efficiency of the PVT panel under different climatic conditions. The results reveal that the overall energy efficiency of the proposed PVT panel, on a typical day, is approximately 45%, significantly outperforming traditional PV panels by more than double. Furthermore, the payback period for a typical residential PVT system, providing both hot water and electricity, is found substantially shorter than that of installing separate PV and solar hot water systems, highlighting the economic and environmental benefits of the proposed hybrid system.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleModeling of a Photovoltaic/Thermal Hybrid Panel for Residential Hot Water System
    typeJournal Paper
    journal volume147
    journal issue1
    journal titleJournal of Solar Energy Engineering
    identifier doi10.1115/1.4065552
    journal fristpage11003-1
    journal lastpage11003-10
    page10
    treeJournal of Solar Energy Engineering:;2024:;volume( 147 ):;issue: 001
    contenttypeFulltext
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