Research Centre of Physics, Dhanalakshmi College of Engineering, Chennai, 601 301, India.
Department of Mathematics, Rajalakshmi Engineering College, Thandalam, Tamil Nadu, 602105, India.
Environ Sci Pollut Res Int. 2021 Sep;28(36):50649-50667. doi: 10.1007/s11356-021-14194-w. Epub 2021 May 9.
The double glass cover analysis of a solar box cooker has been implemented in an internal heat transfer using MoS-FeO-CrO nanomaterials. A nanocomposite material's essential role is its higher surface/volume ratio which agrees in small area size of a high ductility without strength loss and an enhanced optical property. The nanocomposite materials have an average particle size of 0.2 - 0.5 μm. Compared to the overall thermal energy efficiency of the solar cookers used, the samples with and without this study's modification are 56.21-31.77% and 33.90-24.90%. The design used nanomaterials' performance with and without coating materials achieved by the bar plate temperature of about 163.74 °C and 113.34 °C below solar radiation of 1037W/m. The simulation model is conducted on the fuzzy intelligent logic and Cramer's rules. It agreed with the experimental results by 91%.
已经在内部传热中对太阳能盒式炊具进行了双层玻璃盖分析,使用了 MoS-FeO-CrO 纳米材料。纳米复合材料的重要作用是其更高的表面积/体积比,这在不损失强度的情况下同意小面积尺寸的高延展性和增强的光学性能。纳米复合材料的平均粒径为 0.2-0.5μm。与所使用的太阳能炊具的整体热能效率相比,有和没有这项研究改进的样本分别为 56.21-31.77%和 33.90-24.90%。使用纳米材料性能的设计,有和没有涂层材料,通过大约 163.74°C 的棒板温度和低于 1037W/m 的太阳能辐射的 113.34°C 来实现。该模拟模型是基于模糊智能逻辑和克莱默法则进行的,其与实验结果的吻合度达到了 91%。
