ANALISA EFISIENSI PROSES PEMASANGAN PHOTOVOLTAIC PADA BUILDING INTEGRATED PHOTOVOLTAIC MENGGUNAKAN TIGA MACAM MATERIAL FRAME
Daftar Isi:
- ABSTRAK Pemanfaatan Photovoltaic (PV) saat masih kurang maksimal dari segi pemanfaatan, banyak pemanfaatan PV sebagai pembangkit stand alone maupun diterapkan sebagai BAPV atau penerapan PV diatas atap banguanan. Pada penelitian ini dimksudkan perkembangan BIPV atau pemanfaatan PV sebagai pengganti bagian dari bangunan, dalam hal ini pemasangan PV sebagai atap. Hal yang harus diperhatikan dalam pemasangan BIPV adalah fungsi yang digantikan dari bangunan tidak berkurang, pemanfaatan sebagai atap memiliki fungsi sebagai pelindung dari terik matahari dan juga dari guyuran hujan, maka BIPV harus tahan terhadap rembesan air dan di dukung sifat PV yang menyerap panas hingga 6o C. Frame yang digunakan harus memiliki fungsi yang baik dari material yang tepat, maka penelitian ini akan menggali informasi tentang material dan metode pemasangan yang efisien untuk menghemat keperluan dalam pemasangan BIPV, sehingga metode pemanfaatan PV sebagai BIPV lebih terjangkau dan banyak diminati, juga dapat menghemat biaya pembangunan yang juga mengmbuat bangunan tersebut menjadi Green Building dan memiliki Clean Energi yang sangat ramah terhadap lingkungan. ABSTRACT Utilization of Photovoltaic (PV) is currently still less than the maximum in terms of utilization, a lot of the use of PV as a stand-alone generator or applied as a BAPV or PV application according to building roofs. In this research it is intended to develop BIPV or the use of PV as part of a building, in this case the installation of PV as a roof. Things that must be considered in the installation of BIPV are functions that must be replaced from buildings that are not reduced, the installation of a roof that functions from sun protection and also from rain, then BIPV must be resistant to seepage air and supported by the nature of PV which increases heat to 6o C Frame used must have a good function of the right material, then this research will gather information about materials and installation methods that are efficient to save the need for BIPV installation, so that the method of utilizing PV as a BIPV is more affordable and much in demand, also can be used Development costs also make the building a Green Building and has Clean Energy that is very friendly to the environment. Utilization of Photovoltaic (PV) is currently still less than the maximum in terms of utilization, a lot of the use of PV as a stand-alone generator or applied as a BAPV or PV application according to building roofs. In this research it is intended to develop BIPV or the use of PV as part of a building, in this case the installation of PV as a roof. Things that must be considered in the installation of BIPV are functions that must be replaced from buildings that are not reduced, the installation of a roof that functions from sun protection and also from rain, then BIPV must be resistant to seepage air and supported by the nature of PV which increases heat to 6o C Frame used must have a good function of the right material, then this research will gather information about materials and installation methods that are efficient to save the need for BIPV installation, so that the method of utilizing PV as a BIPV is more affordable and much in demand, also can be used Development costs also make the building a Green Building and has Clean Energy that is very friendly to the environment.