MODULAR SOLAR WATER HEATER WITH Page 79 of 92 AFFORDABLE PRICE AND EFFICIENCY
Richard REFERENCES
Agency for the Assessment and Application of Technology, 2016. Outlook Energi Indonesia 2016: Pengembangan Energi untuk Mendukung Industri Hijau. Jakarta:
Center for Technology of Energy Resources and Chemical Industry.
Al-Hinti, I. et al., 2010. Energy Conversion and Management. Experimental
investigation on the use of water-phase change material storage in conventional solar water heating systems, 51(8), pp.1735-40.
Arduino, 2017. Arduino. [Online] Available at:
https://www.arduino.cc/en/Guide/Introduction [Accessed 15 June 2017].
Bahrami, M., n.d. Simon Fraser UNiversity. [Online] [Accessed 4 December 2016].
Bergene, T. & Lovvik, M., 1995. Pergamon. MODEL CALCULATIONS ON A FLAT- PLATE SOLAR HEAT COLLECTOR WITH INTEGRATED SOLAR CELLS , 55(6), pp.453-562.
Conceicao, P.D., 2017. Sciencing. [Online] Available at: http://sciencing.com/steel- vs-galvanized-steel-strength-6681560.html [Accessed 09 June 2017].
DIY hacking, 2017. DIY hacking. [Online] Available at:
https://diyhacking.com/arduino-flow-rate-sensor/ [Accessed 16 June 2017].
Gamby, D. & Hoellinger, G., 1987. Int. J. Pres. Ves. & Piping. Thermal Stresses in Helical Tubes, 29(3), pp.195-215.
GARG*, H.P., DATTA, G. & AVANTI, P., 1998. Design NOMOGRAM FOR LONG-TERM PERFORMANCE PREDICTION OF INTEGRATED COLLECTOR STORAGE (ICS) SOLAR WATER HEATER. INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 22, pp.1235-48.
GARG, H.P. & AGARWAL, R.K., 1995. Some aspects of a PV/T collector/forced circulation flat plate solar water heater with solar cells. Energy Conversion and Management, 36(2), pp.87-99.
Helal, O., Chaouachi, B., Gabsi, S. & Bouden, C., 2010. Energetic Performances Study of an Integrated Collector Storage Solar Water Heater. Unit of Research:
Environment Catalyzes and Process Analysis, 3(1), pp.152-58.
Hossain, M.S. et al., 2011. Renewable and Sustainable Energy Reviews. Review on solar water heater collector and thermal energy performance of circulating pipe, 15(8), pp.3801-12.
JR., P.L.M. & THOMAS, G., 1970. Structure and Properties of Thermal-
Mechanically Treated 304 Stainless Steel. Metallurgical Transactions, 1(6), pp.1587–
94.
Kalogirou, S., 2009. Thermal Performance, economic and environmental lifecycle analysis of thermosiphon solar water heaters. Solar Energy, 83(1), pp.29-48.
PT MEDIA MANUFAKTUR INDONESIA, 2014. mmINDUSTRI.co.id. [Online]
Available at: http://www.mmindustri.co.id/olah-potensi-112-000-gwp-dengan- fotovoltaik/ [Accessed 23 November 2016].
Rumbayan, M., Abudureyimu, A. & Nagasaka, K., 2012. Mapping of solar energy potential in Indonesia using artificial neural network. Renewable and Sustainable Energy Reviews, 16, pp.1437– 1449.
Sawa, T., Higurashi, N. & Akagawa, H., 2008. Journal of Pressure Vessel Technology. A Stress Analysis of Pipe Flange Connections, 113(4), pp.497-503.
MODULAR SOLAR WATER HEATER WITH Page 80 of 92 AFFORDABLE PRICE AND EFFICIENCY
Richard SHARIAH, A. & SHALABI, B., 1997. Optimal design for a thermosyphon solar water heater. Renewable Eneryy, 11, pp.351-61.
Tonasam, 2015. shoutmetutorials. [Online] Available at:
http://shoutmetutorials.com/solidworks-basics/ [Accessed 23 November 2016].
Toyotaka, F., Ryuichi, H. & Nagata, M., 2004. United States Patent Application Publication. Thermal Insulating Material for Housing Use and Method of Using the Same.
Tripanagnostopoulos, Y. & Souliotis, M., 2004. Renewable Energy. Integrated collector storage solar systems with asymmetric CPC reflectors, 29(2), pp.223- 248.
Tripanagnostopoulos, Y. & Souliotis, M., n.d. Renewable Energy. Integrated Collector Storage Solar Systems with asymmetric CPC reflectors.
