EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL
El-Sheikh, I. (2016). EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL. EKB Journal Management System, 33(1), 283-296. doi: 10.21608/mjae.2016.98187
I. H. El-Sheikh. "EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL". EKB Journal Management System, 33, 1, 2016, 283-296. doi: 10.21608/mjae.2016.98187
El-Sheikh, I. (2016). 'EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL', EKB Journal Management System, 33(1), pp. 283-296. doi: 10.21608/mjae.2016.98187
El-Sheikh, I. EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL. EKB Journal Management System, 2016; 33(1): 283-296. doi: 10.21608/mjae.2016.98187

EFFECT OF BLACK GRANITE BASIN ON THE PERFORMANCE OF A SINGLE SLOPE SOLAR STILL

Misr Journal of Agricultural Engineering
Article 18, Volume 33, Issue 1, January 2016, Page 283-296  XML PDF (457.46 K)
Document Type: Original Article
DOI: 10.21608/mjae.2016.98187
View on SCiNiTO View on SCiNiTO
Author
I. H. El-Sheikh
Associate Prof. of Agric. Eng. Dep., Fac. of Agric., Suez Canal Univ., 41522 Ismailia, Egypt.
Abstract
The aim of this research work is to study the effect of granite basin in solar still and thus enhance the productivity of fresh water. Two single sloped solar still was designed, installed and tested at the Agricultural Engineering Department, Faculty of Agriculture, Suez Canal University, Ismailia Governorate, Egypt (latitude angle of 30.62ºN, Longitude angle of 32.27ºE, and mean altitude above the sea level of 5 m). Two different solar still basins were functioned during this research. One basin is constructed of rectangular black granite and the other is made up of galvanized iron sheet. The two solar stills are covered with clear glass sheet (3 mm thick) with an inclination angle of 31º. Comparison of the productivity of the granite and the conventional solar still, the productivity of the distilled water was enhanced for black granite basin solar still as compared with galvanized iron basin solar still. The productivity of the granite basin solar still was 2430 ml m-2 day-1, whilst the productivity of the galvanized iron basin still is 1928 ml m-2 day-1. Consequently, granite basin increased the productivity of fresh water by 20.6 % as compared with the galvanized iron sheet basin.  
Keywords
single slope solar still; Granite basin; galvanized iron basin
References
Abdallah, S.; Abu-Khader, M. and Badran, O. (2009): Effect of various absorbing materials on the thermal performance of solar stills, Desalination 242, 128-137

Abu-Hijleh, B. and Rababa, H. (2003): Experimental study of a solar still with sponge cubes in basin, Energy Conversion and Management, 44(9): 1411–1418.

Akash, B. A.; Mohsen, M.S.; Osta, O. and Elayan, Y. (1998): Experimental evaluation of a single-basin solar still using different absorbing materials, Renewable Energy, 14, 307-310.

Arjunan1, T.V.; Aybar, H.S.; Nedunchezhian, N. and Sakthivel, M. (2009): Effect of Blue Metal Stones on the Performance of a Conventional Solar Still, Journal of Convergence in Engineering, Technology and Science, 1, 17-22

Arunkumar, T.; Denkenberger, D.; Ahsan, A. and Jayaprakash, R. (2013): The augmentation of distillate yield by using concentrator coupled solar still with phase change material. Desalination, 314, 189-192

Duffie, J. A. and Beckman, W. A. (2006): "Solar Engineering of Thermal Processes" New York, N.Y., John Wiley and Sons.

El-Sebaii, A. A.; Aboul-Enein, S. and El-Bialy, E. (2000): Single basin solar still with baffle suspended absorber .Energy Conversion and Management, 41(7): 661-75.

El-Sebaii, A. A.; Al-Ghamdi, A. A.; Al-Hazmi, F. S. and Faidah, A. S. (2009): Thermal performance of a single basin solar still with PCM as a storage medium. Applied Energy, 86, 1187-1195

Mujahid, A. M.; and Alamoud, A. R. M. (1988) "An easily designed and constructed photovoltaic pyrheliometer" Solar &Wind Technology, 5 2, 127-130  

Nafey A. S.; Abdelkader, M.; Abdelmotalip, A. and Mabrouk, A. (2001): Solar still Productivity enhancement. Energy Conversin and Management, 42, 1401-1408,

Naim, M. and AbdelKawi, M. A. (2002): Non-conventional solar stills. Part 1. Non-conventional solar stills with charcoal particles as absorber medium. Desalination, 153, 55-64.

Nijmeh. S.; Odeh, S. and Akash, B. (2005): Experimental and theoretical study of a single-basin solar still in Jordan, Int. comm. Heat Mass Transfer, 32, 565-572.

Tiris, C.; Tiris, M. and Türe, I. E. (1996): Improvement of basin type solar still performance: Use of various absorber materials and solar collector integration, Renewable Energy, 9, 758-761.

Tiwari G. N (2003): Solar energy: fundamentals, design, modeling and application, New York/New Delhi: CRC Press/Narosa Publishing House.

Statistics
Article View: 118
PDF Download: 184