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All Journal Jurnal Teknoin Media Teknika International Journal of Applied Sciences and Smart Technologies Abdimas Altruis: Jurnal Pengabdian Kepada Masyarakat Prosiding Seminar Nasional Rekayasa Teknologi Industri dan Informasi ReTII Widya Teknik
Wibowo Kusbandono
Universitas Sanata Dharma
Aerospace Engineering Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Physics Social Sciences Transportation Other

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Journal : Media Teknika

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Pemodelan dan Analisis Termaldestilasi Air Energi Surya dengan Kaca Penutup Berpenampung Air Purwadianto, Doddy; Kusbandono, Wibowo; Sambada, FA. Rusdi
Media Teknika Vol 12, No 2 (2017)
Publisher : Sanata Dharma University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (848.685 KB) | DOI: 10.24071/mt.v12i2.1084

Abstract

A common way to increase the efficiency of distillation of solar energy is by cooling the cover glass. The method of cooling glass that is widely studied is the spray method. Spray method still has a weakness that is not the  entire surface of the glass can be wetted cooling water. The water reservoir method allows wettage of the entire surface of the cover glass so that the cooling process can be better. This study aims to increase the efficiency of the distillation of solar  energy water by cooling the cover glass using a water reservoirs method. Parameters varied during this experimental stage are: the cooling water mass rate. Parameters measured were: (1) absorber temperature, (2) cover glass temperature, (3) cooling water temperature, (4) input water temperature, (5) ambient air temperature, (6) distilled water, 7) solar energy coming and (8) data recording time. The conclusions of this study were: the largest distillate water yield obtained was 3.26 liter / (hari.m2) with an average efficiency of 41.0%. Distilled water yield and best efficiency are obtained at cooling water rate of 7.1 liter / hour. The temperature difference between the absorber and the largest glass is 11.4°CKeywords: cooling, water distillation, solar energy, water reservoirs
Pemodelan dan Analisis Termaldestilasi Air Energi Surya dengan Kaca Penutup Berpenampung Air Doddy Purwadianto; Wibowo Kusbandono; FA. Rusdi Sambada
Media Teknika Vol 12, No 2 (2017)
Publisher : Sanata Dharma University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24071/mt.v12i2.1084

Abstract

A common way to increase the efficiency of distillation of solar energy is by cooling the cover glass. The method of cooling glass that is widely studied is the spray method. Spray method still has a weakness that is not the entire surface of the glass can be wetted cooling water. The water reservoir method allows wettage of the entire surface of the cover glass so that the cooling process can be better. This study aims to increase the efficiency of the distillation of solar energy water by cooling the cover glass using a water reservoirs method. Parameters varied during this experimental stage are: the cooling water mass rate. Parameters measured were: (1) absorber temperature, (2) cover glass temperature, (3) cooling water temperature, (4) input water temperature, (5) ambient air temperature, (6) distilled water, 7) solar energy coming and (8) data recording time. The conclusions of this study were: the largest distillate water yield obtained was 3.26 liter / (hari.m2) with an average efficiency of 41.0%. Distilled water yield and best efficiency are obtained at cooling water rate of 7.1 liter / hour. The temperature difference between the absorber and the largest glass is 11.4CKeywords: cooling, water distillation, solar energy, water reservoirs
Co-Authors Achilleus Hermawan Astyanto Aji Nugraha, Felix Krisna Alapan, Rines Budi Setyahandana Budi Sugiharto Doddy Purwadianto Elang Parikesit Gilang Argya Dyaksa Hermawan, Oktavianus Nekson Heryoga Winarbawa Iswanjono Iswanjono Jaladri, Stefano Lukiyanto, Y. B. Lukiyanto, Y.B Lukiyanto, Yohanes Baptista Mustain, Fahra Diky P K Purwadi Petrus Kanisius Purwadi PK Purwadi PK Purwadi Pratama, Nico Ndaru Purwadi, PK Purwadi, PK Putra, Mahendra Pratama Putri, Claudia Agata Rines Rines Rines, Rines Rines, Rines Roshanti, Fatma Rusdi Sambada Seen, Michael Stefan Mardikus Yosef Agung Cahyanta