A Prototype of Salt Gradient Solar Pond as Alternative Energy Source for Coastal Communities in Bengkulu

International Journal of Electrical, Energy and Power System Engineering Pub Date : 2019-06-18 DOI:10.31258/IJEEPSE.2.2.25-27

A. K. Mainil

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Abstract

One of the developing technologies of renewable energy is the Salt Gradient Solar Pond (SGSP). SGSP utilize solar energy by storing its thermal energy in a pond of saline solution. Bengkulu Province has a high intensity of sunlight and a long coastline with an abundance of salt water. Therefore, it is a very suitable location for further development of SGSP technology. The design of SGSP prototype had been carried out by using a 1 m3 cylinder as the saline solution pond. The density and temperature of the solution were measured at 11 points from the bottom to the top of the cylinder. The results show that the keeper of the pond, the more density of the solution, in which the highest solution density was at the bottom of the pond, i.e., 1.206 gr/cm3. The average temperature of the solution was 44.2°C. The maximum temperature, which was 48.7 °C, was observed around the storage zone, about 0.3 m from the pond‘s bottom. The results of the measurements of salinity gradient and temperatures show that this prototype of SGSP is appropriate to be used for storing heat around the storage zone.

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盐梯度太阳能池作为蚌埠市沿海社区替代能源的原型

盐梯度太阳能池(SGSP)是可再生能源开发技术之一。SGSP通过将热能储存在盐水溶液池中来利用太阳能。明古鲁省阳光充足，海岸线长，海水丰富。因此，它是SGSP技术进一步发展的一个非常合适的位置。采用1 m3圆柱体作为盐溶液池，进行了SGSP样机的设计。从圆筒底部到顶部的11个点测量溶液的密度和温度。结果表明，养鱼池中溶液密度越大，其中池底溶液密度最高，为1.206 gr/cm3。溶液的平均温度为44.2℃。贮藏区周围距离池底约0.3 m处最高温度为48.7℃。盐度梯度和温度的测量结果表明，该SGSP原型适合用于储热区周围的储热。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Electrical, Energy and Power System Engineering

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