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Studi Eksperimental Penyulingan Air Laut Tenaga Surya Sistem Pasif dan aktif dengan Kemiringan Ganda
Water is an important part of everyday human life, we usually use water for direct consumption or we use it in household work and other purposes. As one of the largest archipelagic countries in the world which has a coastline of 95,181 km, Indonesia has abundant sources of sea water so that sea water can be utilized in areas that have difficulty accessing clean water directly, especially people living in coastal areas. One of the technologies that can be utilized so that this abundant seawater can be consumed is by conducting a solar distillation process. This study aims to compare the results of clean water productivity and efficiency from a passive distillation system with an active system using an atomizer nozzle. The results showed that in this experimental test there was an increase in the efficiency of the active system with the atomizer compared to only using the passive system, with efficiency values of 47.1% and 38.48%, respectively. ; Air merupakan bagian penting dalam kehidupan manusia sehari-hari, air biasa kita gunakan untuk dikonsumsi secara langsung atau kita gunakan dalam pekerjaan rumah tangga dan keperluan lainnya. Sebagai salah satu Negara kepulauan terbesar di dunia yang memiliki garis pantai sepanjang 95.181 Km, Indonesia memiliki sumber air laut yang melimpah sehingga air laut tersebut dapat dimanfaatkan di daerah yang kesulitan akses air bersih secara langsung khususnya masyarakat yang tinggal di daerah pesisir pantai. Salah satu teknologi yang dapat dimanfaatkan agar air laut yang melimpah ini dapat dikonsumsi adalah dengan melakukan proses penyulingan tenaga surya. Penelitian ini bertujuan untuk membandingkan hasil produktivitas air bersih dan efisiensi dari penyulingan sistem pasif dengan sistem aktif dengan menggunakan nozzle pengabut. Hasil penelitian menunjukkan bahwa pada uji eksperimental ini bahwa terjadi peningkatan efisiensi dari sistem aktif dengan pengabut dibandingkan hanya memakai sistem pasif, dengan nilai efisiensi masing-masing 47,1% dan 38,48%. ; 110 Halaman ; Skripsi ...
- University of North Sumatra Indonesia
- University of North Sumatra Indonesia
Atomizer Nozzle, Energi surya, Solar energy, Nozzle pengabut, Water distillation, Destilasi air, Penyulingan sistem pasif dan aktif, Distillation passive and active systems
Atomizer Nozzle, Energi surya, Solar energy, Nozzle pengabut, Water distillation, Destilasi air, Penyulingan sistem pasif dan aktif, Distillation passive and active systems
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