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    Techno-economic Viability and Energy Conversion Analysis of RHES with Less Weight/Area

    New search for: Abd, Mohammed Kdair
    New search for: Sun, Haishun
    New search for: Cheng, Shijie

    This article proposes a new strategy to find the optimal location, configuration and size of the Renewable (wind-photovoltaic-diesel-battery) Hybrid Energy Systems (RHES (off-grid)). This study has two steps: first, the proposaltoa strategybased on a weather change to find the optimal location in Iraq using Hybrid Optimization Model for Electric-Renewables (HOMER) software. Second, the study will examine the influence of the techno-economic viability from side less weight and area on the optimal configuration/size of the RHES, which gives the maximum output power. A period of one-year for meteorological data for both solar radiation and wind speed has used. Finally, simulation results indicated that the optimal location for this RHES is the AL Harithah location. The analysis has shown that RHES can supply 89% of the load demands by renewable-energy. It is also successful in reducing the area required for installation of the RHES about 28%.

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    Techno-economic Viability and Energy Conversion Analysis of RHES with Less Weight/Area

    New search for: Abd, Mohammed Kdair
    New search for: Sun, Haishun
    New search for: Cheng, Shijie

    This article proposes a new strategy to find the optimal location, configuration and size of the Renewable (wind-photovoltaic-diesel-battery) Hybrid Energy Systems (RHES (off-grid)). This study has two steps: first, the proposaltoa strategybased on a weather change to find the optimal location in Iraq using Hybrid Optimization Model for Electric-Renewables (HOMER) software. Second, the study will examine the influence of the techno-economic viability from side less weight and area on the optimal configuration/size of the RHES, which gives the maximum output power. A period of one-year for meteorological data for both solar radiation and wind speed has used. Finally, simulation results indicated that the optimal location for this RHES is the AL Harithah location. The analysis has shown that RHES can supply 89% of the load demands by renewable-energy. It is also successful in reducing the area required for installation of the RHES about 28%.

    Access

    Download

    Techno-economic Viability and Energy Conversion Analysis of RHES with Less Weight/Area

    New search for: Abd, Mohammed Kdair
    New search for: Sun, Haishun
    New search for: Cheng, Shijie

    This article proposes a new strategy to find the optimal location, configuration and size of the Renewable (wind-photovoltaic-diesel-battery) Hybrid Energy Systems (RHES (off-grid)). This study has two steps: first, the proposaltoa strategybased on a weather change to find the optimal location in Iraq using Hybrid Optimization Model for Electric-Renewables (HOMER) software. Second, the study will examine the influence of the techno-economic viability from side less weight and area on the optimal configuration/size of the RHES, which gives the maximum output power. A period of one-year for meteorological data for both solar radiation and wind speed has used. Finally, simulation results indicated that the optimal location for this RHES is the AL Harithah location. The analysis has shown that RHES can supply 89% of the load demands by renewable-energy. It is also successful in reducing the area required for installation of the RHES about 28%.

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    Title:

    Techno-economic Viability and Energy Conversion Analysis of RHES with Less Weight/Area

    Contributors:

    Abd, Mohammed Kdair (author) / Abdullah, Hadeel Nasrat (author) / Sun, Haishun (author) / Cheng, Shijie (author)

    Publication date:

    2018-10-01

    Remarks:

    doi:10.12928/telkomnika.v16i5.8897
    TELKOMNIKA (Telecommunication Computing Electronics and Control); Vol 16, No 5: October 2018; 2331-2341 ; 2302-9293 ; 1693-6930 ; 10.12928/telkomnika.v16i5

    DOI:

    https://doi.org/10.12928/telkomnika.v16i5.8897

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    techno-economic , renewable , net power cost (NPC) , cost of energy (COE)

    Classification:

    DDC:  690

    Licence:

    http://creativecommons.org/licenses/by-sa/4.0

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