Comparative Performance Analysis of Novel Single-slope Conventional Solar Still and Solar Still with Fe2O3 Water Nanofluids Through Experimental Investigation
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Abstract
The main objective of the present study is to examine the efficacy of iron oxide (Fe 2 O 3 ) nanoparticles when employed in single basin solar still to convert saltwater into freshwater. This study aims to compare the operational efficacy of a solar still in the presence and absence of nanoparticles. The purpose is to evaluate the extent of their influence on the efficiency of the system. The findings of this research are expected to contribute to the development of sustainable methods for purifying saltwater into freshwater. Two groups were used in this research: Group 1, which used a standard solar still without nanoparticles, and group 2, which used a modified solar still with Fe 2 O 3 nanoparticles. The study included a large number of specimens, with an average distribution of 20 samples in each group, and the specimen magnitude was determined using SPSS (Statistical Package for the Social Sciences) software. The most successful technique for minimizing the return on investment for the solar still with Fe 2 O 3 nanoparticles was determined as having a payback period of up to 2.85 years, which was smaller than that of the still with typical water and other nanofluids. An independent sample t-test was conducted on the acquired results using the statistical software SPSS v26. The statistical significance was established through the obtained (two-tailed) test p-value of 0.000 (p < 0.05). Adding Fe 2 O 3 nanoparticles to the base fluid considerably influences the performance of single-basin solar still. It improves system efficiency, and the findings of this study may be applied to develop sustainable techniques for purifying saltwater into freshwater. The results found that adding Fe 2 O 3 nanoparticles to the base fluid significantly enhanced the solar still’s daily yield, evaporation, and condensation rates. Adding 0.3% Fe 2 O 3 nanoparticles to the base fluid increased productivity by up to 23.7%.
本研究的主要目的是检验纳米氧化铁(Fe 2 O 3)颗粒在单池太阳能蒸发器中将盐水转化为淡水时的功效。本研究旨在比较太阳能蒸馏器在有纳米颗粒和没有纳米颗粒的情况下的运行效率。目的是评估纳米颗粒对系统效率的影响程度。预计本研究的结果将有助于开发将咸水净化为淡水的可持续方法。本研究使用了两个小组:第 1 组使用不含纳米颗粒的标准太阳能蒸馏器,第 2 组使用含纳米 Fe 2 O 3 的改进型太阳能蒸馏器。研究包括大量试样,每组平均分配 20 个试样,试样量级使用 SPSS(社会科学统计软件包)软件确定。经测定,使用 Fe 2 O 3 纳米粒子的太阳能蒸馏器投资回报期最长为 2.85 年,比使用典型水和其他纳米流体的蒸馏器的投资回报期短,是投资回报期最短的成功技术。使用 SPSS v26 统计软件对所得结果进行了独立样本 t 检验。得出的(双尾)检验 p 值为 0.000(p < 0.05),从而确定了统计意义。在基液中添加纳米 Fe 2 O 3 可显著影响单池太阳能蒸馏器的性能。本研究的结果可用于开发将咸水净化为淡水的可持续技术。研究结果发现,在基液中添加 Fe 2 O 3 纳米粒子可显著提高太阳能蒸馏器的日产量、蒸发率和冷凝率。在基液中添加 0.3% 的 Fe 2 O 3 纳米粒子可使产量提高 23.7%。
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