JAMALUDDIN, MUHAMMAD (2017) DESAIN BUILDING INTEGRATED PHOTOVOLTAIC SYSTEM PADA BANGUNAN FOOD COURT DI WILAYAH SURABAYA. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Performansi dari photovoltaic(PV) modul berhubungan langsung dengan suhu modul photovoltaic saat operasi. Suhu modul ini dipengaruhi oleh nilai iradiansi serta faktor pemasangan modul photovoltaic dalam hal ini terjadi karena suhu photovoltaic akan berkurang saat terkena udara, oleh karena itu celah udara antara modul photovoltaic dengan atap bangunan pada Building Integrated Photovoltaic merupakan hal yang perlu diperhatikan dalam perancangan desain. efek dari celah udara pada performansi PV dengan dimensi PV (1593x790x50mm) untuk lokasi yang digunakan di teliti. Penelitian ini membahas tentang efek dari perubahan celah udara antara panel dan atap bangunan. Pembuatan desain pemasangan panel pv disimulasikan mengunakan software computational Fluid Dynamic (CFD). Untuk nilai iradiansi yang sama nilai suhu photovoltaic semakin menurun dengan perubahan jarak antara 0,06m sampai dengan 0,2m dari atap bangunan. Suhu rata-rata panel photovoltaic berkurang saat pengunaan modul dari 3 modul photovoltaic menjadi 4 modul photovoltaic sebesar 5,08oC saat lebar celah udara 0,12m. Dapat disimpulkan bahwa pemberian celah udara dapat mengurangi suhu operasi modul photovoltaic untuk memelihara performansinya.
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The performance of photovoltaic (PV) modules directly related to the temperature of photovoltaic modules during the operation. The temperature of this module is influenced by the value of irradiance and photovoltaic module installation. Because the temperature of photovoltaic will be reduced when exposed to air, the air gap between the photovoltaic modules with the roof of Building Integrated Photovoltaic was investigated. The effect of the air gap in PV performance with dimensions of (1593x790x50mm) and the number of PV modules are required for proper installation. This study on panel is to varying the number of modules arrangement in series and variations in distance between the module and the roof to determine the effects of air gaps which are then used to determine the installation design suitable for building. CFD simulation is used with same irradiance and different windspeed because natural convection. The results show that PV operating temperature is decreasing for the air gap 0,06m to 0.2 m from the roof of the building. The average temperature decreases as the photovoltaic panels use 3 to 4 modules of 5,08oC when the air gap 0,12m with same irradiation and different wind speed. It is concluded that the air gap installation reduces the operation temperature of photovoltaic and then maintain the performance.
| Item Type: | Thesis (Undergraduate) |
|---|---|
| Uncontrolled Keywords: | BIPV, Photovoltaic, Air Gap, CFD, Building Integrated Photovoltaic, celah udara |
| Subjects: | Q Science > QC Physics T Technology > T Technology (General) T Technology > TJ Mechanical engineering and machinery > TJ164 Power plants--Design and construction |
| Divisions: | Faculty of Industrial Technology > Physics Engineering > 30201-(S1) Undergraduate Thesis |
| Depositing User: | MUHAMMAD JAMALUDDIN |
| Date Deposited: | 27 Jan 2017 08:50 |
| Last Modified: | 08 Mar 2019 07:16 |
| URI: | http://repository.its.ac.id/id/eprint/3848 |
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