| dc.description.abstract | This study comprehensively evaluates dual diameter Closed Loop Pulsating Heat Pipes (CLPHPs)
with ethanol, methanol, and ethylene glycol at 50% and 60% filling ratios, focusing on their
thermal performance at 0- and 90-degrees orientation. Addressing a significant gap in empirical
data, our findings substantiate the theoretical advantages of dual-diameter designs, particularly in
horizontal orientations. The 0-degree angle and a 60% ethanol filling ratio emerged as the optimal
configuration, achieving the lowest thermal resistance, and demonstrating the potential for
enhanced heat transfer efficiency in CLPHPs. These results suggest that the dual-diameter
approach, tailored with appropriate working fluids and filling ratios, can significantly improve
thermal management systems, with implications for electronics cooling and aerospace
applications. Future research should further optimize these parameters to harness CLPHPs'
capabilities fully across diverse operating conditions. | en_US |
