TURBULEN Jurnal Teknik Mesin

Water supply is a basic need for life. Water management that requires a large amount of cost and energy is needed alternative solutions to produce a cheap process. Research on the distillation process was carried out to find solutions to these problems. The research was carried out by a experiment method to produce a distillation process for water purification.The experiment use an effective fresnel lens of 0.785 m2 and the receiver volume was 200 mL The results of the study explained that using a fresnel lens concentrator was able to generate steam. The steam can be condensed to produce fresh water. Data from calculation obtained average direct solar radiation is 531.98 Watts/m2 and the power received by the receiver is 346.61 Watt. The average normal solar radiation in tests is 515,7 W/m. The average temperature of the focus point on the cone receiver is 520,4OC.The wet steam generation process is obtained when the water temperature in the receiver shows 95OC. Experiments of distillation for 200mL sea water needed 10 minutes to reach 4 bar of pressure. Steam is flowed into the condenser so that distilled water is obtained 150 ml.

Keywords:  fresnel lens, solar destilation, drinking water

Coffrin, S., E. Frasch, M. Santorella and M. Yanagisawa, 2008, Solar Powered Water Distillation Device. "Capstone Design Course", "Technical Design Report". Dept. of Mech., Ind. & Man. Eng., College of Eng. Northeastern University, Boston, USA., Pp. 1 –39., January, 2008

Incropera F. P., dan DeWitt D. P.,1996, Fundamentals of Heat and Mass Transfer, 4th ed., Wiley, New York.

Iswadi dan Aisyah, 2013, Sistem Pengolahan Air Laut Menjadi Air Minum Menggunakan Tenaga Matahari, Jurnal Al Kimia, Vol1, No 2, 2013

Jain, R. K., Hari Singh , Amar Varshney, Sagar Bajpai, Deepak Sharma, 2015, Study of Water Distillation by Solar Energy in India IJMEIT, Vol. 3 Issue 2 February Page No: 1004-1009ISSN-2348-196x

Jing, L., Liu, H., Lu, Z., Zhao, H., Design of compound Fresnel-R lenses for new high-efficient concentrator, Proc. of SPIE, Vol. 7785

Leutz, R. dan A. Suzuki, 2001, Non Imaging Fesnel Lens: Design and Performance of Solar Concentrator, Springer, New York, USA, ISBN 3-54041841-s

Lubis, Z; Afandy, N.A., 2014, Kebutuhan Air Besih Kecamatan Glagah Kabupaten Lamongan, Jurnal Teknika vol 6 No 2 September 2014

McCluney WR, Solar Distillation of Water, Energy Note Florida Solar Energy Centre, Florida, 1984

Said L, Muh. Dan Iswadi, 2016, Rancang Bangun Alat Pemurni Air Laut Menjadi Air Minum Menggunakan Sistem Piramida Air (Green House Effect) Bagi Masyarakat Pulau dan Pesisir di Kota Makassar, Jurnal Sains dan Pendidikan Fisika. Jilid 12, No 3, Desember 2016, Hal. 300 – 310

Sharma, A., C. R. Chen, V. V. S. Murty, and A. Shukla, 2009, Solar Cooker With Latent Heat Storage Systems: a Review, Renewable and Sustainable Energy Reviews, Vol. 9,

Stonebraker, A., J. Newmeyer, M. Branner, 2010, Parabolic Solar Water Distillation Senior Design Project Interim report, Department of Mechanical Engineering, SDSU College of Engineering

Vousvouras, C.A. dan Urs Heierli., 2014, Safe Water at the Base of the Pyramid How to involve private initiatives in safe water solutions, www.300in6.org.2010. Update 20 Maret 2014