Year-Round Experimental Analysis of the Productivity of Vapour-Based Multistage Solar Still: A Developmental Study

Mfanafuthi Mthandeni Mkhize, V. Msomi
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引用次数: 3

Abstract

The standalone vapour-based multistage solar still with stacked stages (MSS-SS) belongs to a pool of widely studied small-scale water desalination devices through solar thermal energy. This work contributes to the body of knowledge by presenting a system with new configurations. There is a need to develop small-scale systems to be reliable devices for freshwater provision, as brackish water is available for processing. The experimental study was conducted in a field under actual weather conditions, with the data logged and analysed to study the systems’ behaviour under varying meteorological conditions. A maximum distillate yield of 7790 ml, corresponded to a maximum daily average solar radiation at high range. There was a 21.8% decrease to 6090 ml at moderate daily average range and a further decline of 80.5% to 1190 ml in the low daily average range, representing a significant drop in the distillate yield caused by the insufficient heat collection at low range. The high, moderate, and low ranges corresponded to summer, spring and autumn, and winter, respectively. The lower values of the moderate range were the most optimum operationally. The impulsive modes were ideal for high rates of the heat inputs, while the continuous were for low rates. The assumption of a continuous mode and a further increase in the rate of thermal energy input caused thermal damage necessitating the augmentation of the thermal energy storage (TES) device due to a larger collector-to-basin area (CBA) ratio. The distillate yield trends from the stages were dynamic and were the inverse of the stage temperature, which was dictated by the mode and rate of the thermal energy input. These trends were such that stage 5 > 3 > 2 > 1 > 4 at moderate to high ranges and changed a low range. The summer season enhanced the cumulative saline water (SW) preheating and heat recovery to 66.8°C. The economic analysis found that at its most productive level, the cost of producing water per litre (CPL) from the vapour-based MSS-SS was R 4.05. The small-scale water purification systems are helpful, especially in remote areas.
基于蒸汽的多级太阳能蒸馏器生产效率的全年实验分析:一项发展研究
独立蒸汽基多级堆叠式太阳能蒸馏器(MSS-SS)属于一种被广泛研究的小型太阳能热能海水淡化装置。这项工作通过呈现一个具有新配置的系统,为知识体系做出了贡献。有必要发展小型系统,使其成为供应淡水的可靠装置,因为有咸淡水可供加工。实验研究是在实际天气条件下进行的,并记录和分析数据,以研究系统在不同气象条件下的行为。最高馏分得率为7790 ml,对应于高范围内的最大日平均太阳辐射。在中等日平均范围内下降21.8%至6090 ml,在低日平均范围内进一步下降80.5%至1190 ml,表明低范围内热收集不足导致馏分油产量显著下降。高、中、低分别对应夏季、春秋季和冬季。中等范围内较低的值是操作上最优的。脉冲模式是理想的高速率的热输入,而连续是低速率。连续模式的假设和热能输入速率的进一步增加导致热损伤,由于集热器-盆面积(CBA)比的增大,需要增加热能储存(TES)装置。馏出物产率的变化趋势是动态的,与馏出温度成反比,这是由热能输入的方式和速率决定的。这些趋势是这样的,第5阶段> ~ 3阶段> ~ 2阶段>阶段b> ~ 4阶段在中高范围内,并在低范围内发生变化。夏季使累积盐水预热和热回收达到66.8°C。经济分析发现,在其最具生产力的水平上,从蒸汽基MSS-SS生产每升水(CPL)的成本为4.05卢比。小型水净化系统是有帮助的,特别是在偏远地区。
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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