Numerical Study of a New Solar Vacuum Tube Integrating with Phase Change Material

Shi, Juan; Xue, Hongjun; Chen, Zhenqian; Sun, Li

doi:10.3390/su11246960

Cited by 3 publications

(1 citation statement)

References 24 publications

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“…Zakaria et al (2022) [12] studied the influence of various factors, such as air contact with the surface area of the internal absorber. Shi et al (2019) [13] performed an analysis of fin structure parameters (fin thickness and fin spacing) in an evacuated tube with phase change material. Wang et al (2020) [14] used a thermal storage layer (PCTSL) and annular fins to improve the thermal performance of solar collectors.…”

Section: Introductionmentioning

confidence: 99%

Statistical analysis of the vacuum solar collector using the analysis of ‎variance method

Majeed,

Khalaf,

Nassir

2023

QJES

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Space and weight constraints, as well as the time lag between energy generation and consumption, ‎are major obstacles to expanding solar water heating systems into existing structures with limited ‎space. It is possible to collect heat with this small, evacuated tube collector (ETC). It was found ‎that the air inside the glass tube has poor thermal conductivity. An experimental and numerical ‎study was performed on an evacuated tube solar collector, incorporating a heat tube with ‎cylindrical fins to increase the contact surface between the air and the fin surface. Statistical ‎analysis software is used to verify the results in practice. The temperature data was investigated ‎using SPSS under the same flow conditions. These figures are from experiments examining the ‎effect of variable volumetric flow rate, boost type, and variance analysis on temperature ‎distribution. When analyzing the results of the trials, a significant threshold of 95% was used. ‎Therefore, we compare the calculated significance to a value of 0.05 to evaluate the efficacy and ‎capabilities of the components. The reliability and validity of the model depend on the presence of ‎two components. If the resulting value is less than the significance level (0.05), then the model can ‎be considered robust and efficient (flow rate and optimization type). If the estimated value is ‎greater than that, the variables do not affect system performance. Flow rate and type of ‎enhancement are the two factors considered in the analysis of variance.

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Section: Introductionmentioning

confidence: 99%

Statistical analysis of the vacuum solar collector using the analysis of ‎variance method

Majeed,

Khalaf,

Nassir

2023

QJES

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Performance enhancement of evacuated U-tube solar collector integrated with phase change material

Said,

Mellouli,

Alqahtani

et al. 2024

Case Studies in Thermal Engineering

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Numerical Study of a New Solar Vacuum Tube Integrating with Phase Change Material

Cited by 3 publications

References 24 publications

Statistical analysis of the vacuum solar collector using the analysis of ‎variance method

Statistical analysis of the vacuum solar collector using the analysis of ‎variance method

Performance enhancement of evacuated U-tube solar collector integrated with phase change material

Experimental study on preparation and thermal storage properties of expanded graphite/paraffin wax as a shape-stabilized phase change material

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