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In present study simple salt gradient solar pond thermal storage device is optimized using thermo-siphon heat exchanger by applying MOGA optimization technique. In this study one basic design is experimentally investigated which is rectangular in shape. A solar pond consists of three basic zones in it which was named as LCZ, NCZ and UCZ. Two of them LCZ and NCZ are made by brine solution and upper most UCZ is made with fresh water. In present study CFD modeling tool is also used to solve some other combinations which are not investigated in experimental work and to get additional result of some more characteristics and properties of salt gradient solar pond.
Using Taguchi method total experiments are required are L16 which are simulated in ANSYS FEM solver (Version-14.5). Proper FEM simulation techniques are applied for these simulation cases and the modeling steps are also developed for this research study. After proper simulation of these cases two responses are selected to optimize this base design for further study. The two response selected from this study is von-misses stress and body weight. In present study various type of analysis is performed both cases like signal to noise ratio analysis, analysis of variance analysis, model equation generation, optimization of this model equation for stress and body weight of hip joint. Visual analysis is also present in this research study. All these major outcomes are present in this research study. Rank identification of factors are also present in this study. The signal to noise ratio analysis for stress shows that the best factor is ball diameter whereas worst factor is neck length of hip joint.
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