首页> 外文期刊>Desalination: The International Journal on the Science and Technology of Desalting and Water Purification >Numerical analysis of the vertical multiple-effect diffusion solar still coupled with a flat plate reflector:optimum reflector angle and optimum orientation of the still at various seasons and locations
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Numerical analysis of the vertical multiple-effect diffusion solar still coupled with a flat plate reflector:optimum reflector angle and optimum orientation of the still at various seasons and locations

机译:垂直多效扩散太阳能蒸馏器与平板反射器耦合的数值分析:不同季节和位置的蒸馏器最佳反射器角度和最佳取向

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摘要

The optimum angle of a flat plate reflector and the optimum orientation of a vertical multiple-effect diffusion solar still coupled with a flat plate reflector throughout the year are numerically determined with the assumption that the still is located at the equator and at 10°,20°,30° and 40° northern latitude.The optimum orientation of the still which maximizes the distillate productivity of the proposed still was calculated assuming that the orientation of the still is changed once during daytime at southing of the sun.The proposed still has very simple structure and consists of common materials such as thin stainless steel plates,glass plate,cotton cloth,a flat plate reflector and so on,which can be purchased in the developing countries,so the proposed still may be constructed and operated by local technicians in the developing counties.The proposed still consists of a glass cover and a number of vertical parallel partitions with narrow air gaps between partitions,and all partitions except for the outer one are in contact with saline-soaked wicks.Direct and diffuse solar radiation as well as the reflected radiation from the flat plate reflector are absorbed on the first partition,and the evaporation and condensation process is repeated on all partitions to increase the productivity of distillate.The proposed still is assumed to be rotated manually just twice a day (at near noon and before sunrise) to change its orientation and absorb more solar energy on the first partition.We found that the angle of the flat plate reflector should be basically fixed at 10° from horizontal and changed to be 0° during the winter season (around December) at higher latitudes,and the orientation of the still should be adjusted according to month at any latitude.The daily productivity of the proposed still was predicted to be more than 30 kg/m2day at any latitude throughout the year except for the winter season (from November to January) at 40 °N latitude.
机译:通过数值确定平板反射器的最佳角度和全年仍与平板反射器耦合的垂直多效扩散太阳能的最佳方向,其前提是该蒸馏器位于赤道处并位于10°,20。假定在白天南下的白天,蒸馏器的方向发生了一次变化,从而计算出了使拟议蒸馏器的馏分产率最大化的蒸馏器的最佳方位,即北纬°,30°和40°。结构简单,由薄不锈钢板,玻璃板,棉布,平板反射器等常用材料组成,可在发展中国家购买,因此建议的技术方案仍可由当地技术人员在欧洲建造和操作。提议的方案仍然由玻璃盖和一些垂直的平行隔板组成,隔板之间的气隙狭窄,所有隔板除外部外,它们与浸有盐的灯芯接触。直接和漫射的太阳辐射以及来自平板反射器的反射辐射被吸收到第一个隔板上,并且所有隔板上都重复进行蒸发和冷凝过程假设拟议的蒸馏塔每天仅两次手动旋转(中午和日出之前)以改变其方向并在第一个隔板上吸收更多的太阳能。我们发现平板的角度反射镜应基本固定在与水平方向成10°的位置,并在冬季(在12月左右)在较高的纬度上更改为0°,并且在任何纬度下,应根据月份调整静止物的方向。据预测,除纬度为40°N的冬季(11月至1月)外,全年任何纬度的天数仍将超过30 kg / m2。

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