HEAT TRANSFER RATE OF SINTERED ZEOLITE WICK HEAT PIPE
Abstract
This paper discusses about heat transfer rate in heat pipe with sintered zeolite wick. The type of zeolite is natural zeolite and activated zeolite. Zeolite used in powder form divided into two grain size i.e. 100 µm and 200 µm. Wick were made by sintering process. Calculation of the heat transfer rate for sintered zeolite heat pipe shows sintered zeolite activates heat pipe has the highest heat transfer rate.
Downloads
References
[2] K. De Kerpel, S. De Schampheleire, H. Steuperaert, P. De Jaeger, and M. De Paepe, "Experimental study of the effect of felt wick porosity on capillary-driven heat pipes," Applied Thermal Engineering, vol. 96, pp. 690-698, 2016.
[3] H.-M. Lee, M.-C. Tsai, H.-L. Chen, and H.-Y. Li, "Stainless steel heat pipe fabrication, performance testing and modeling," Energy Procedia, vol. 105, pp. 4745-4750, 2017.
[4] J. Xu, L. Zhang, H. Xu, J. Zhong, and J. Xuan, "Experimental investigation and visual observation of loop heat pipes with two-layer composite wicks," International Journal of Heat and Mass Transfer, vol. 72, pp. 378-387, 2014.
[5] V. Orbukh, N. Lebedeva, S. Ozturk, and B. Salamov, "Electrical properties of the zeolite composites prepared by using zeolite and copper powders," Superlattices and Microstructures, vol. 54, pp. 16-25, 2013.
[6] O. Gencel, M. Sutcu, E. Erdogmus, V. Koc, V. V. Cay, and M. S. Gok, "Properties of bricks with waste ferrochromium slag and zeolite," Journal of cleaner production, vol. 59, pp. 111-119, 2013.
[7] S. K. Wahono, A. Kristiani, S. Tursiloadi, and H. Abimanyu, "Characterization and utilization of gunungkidul natural zeolite for bioethanol dehydration," Energy Procedia, vol. 47, pp. 263-267, 2014.
[8] E. Koohsaryan and M. Anbia, "Nanosized and hierarchical zeolites: A short review," Chinese Journal of Catalysis, vol. 37, pp. 447-467, 2016.
[9] L. P. I. Midiani, W. N. Septiadi, I. N. S. Winaya, M. Sucipta, and N. Putra, "Characterization of capillary pumping amount in novel sintered zeolites and hybrid zeolite-Cu for heat pipe applications," International Journal of Heat and Mass Transfer, vol. 145, p. 118759, 2019.