Author(s)

A. S. Zedan^{1, 2}, S. A. M. Nasr Eldin^{1, 3}

¹Mechanical Engineering Department, Collage of Engineering, King Khalid University, Abha, Saudi Arabia.
²Mechanical Engineering Department, Collage of Engineering at Shoubra, Benha University, Cairo, Egypt.
³Mechanical Engineering Department, Collage of Engineering, Benha University, Benha, Egypt.

Solar energy is very useful in the process of desalination especially for areas that suffer from a lack of clean water resources. In recent years, many people have been using solar still. Therefore the raising of the productivity and efficiency of solar still represents the most important problems that need further research. The present work aims to study the effect of preheating the water entering to still and the effect of reducing pressure inside the still on the productivity of the solar still. Therefore in present work two identical single basin typical double slope solar stills of the inner basin dimensions for each still 2 m × 1 m × 0.08 m, have been designed and fabricated with mild steel plate. One of them is conventional solar still and the other is modified with flat plate collector and vacuum pump to study the effect of preheating and vacuum on the performance of solar still. The experimental measurements are made to enhance the solar still productivity by firstly preheating the water entering the still using flat plate collector and secondly by integrating the still basin with vacuum pump. The results show that preheating the water entering the still increases the water productivity by amount about 27.7% - 29.3%. The results also show that decreasing pressure inside the still using vacuum pump improves the solar still water productivety by amount about 21.8% - 23.9%.

Desalination, Basin Solar Double Slope Still, Vacuum, Water Productivity

Zedan, A. and Nasr Eldin, S. (2015) An Experimental Investigation of the Factors Which Affect on the Performance of a Single Basin Typical Double Slope Solar Still for Water Desalination. Energy and Power Engineering, 7, 270-277. doi: 10.4236/epe.2015.76026.