2026-04-17T14:18:27Zhttps://recercat.cat/oai/requestoai:recercat.cat:10459.1/477562024-12-05T21:35:07Zcom_2072_3622col_2072_479130
RECERCAT
author
Mazman, Muhsin
author
Cabeza, Luisa F.
author
Mehling, Harald
author
Paksoy, Halime Ö.
author
Evliya, Hunay
2024-12-05T21:35:07Z
2024-12-05T21:35:07Z
2015-01-28T09:39:04Z2025-01-012008
http://hdl.handle.net/10459.1/47756
Phase change materials (PCM) used in latent heat storage systems usually have very low thermal conductivities. This is
a major drawback in maintaining the required heat exchange rate between PCM and heat transfer fluid. This paper
investigates the enhancement of the heat transfer between PCM and heat transfer fluid, using high thermal conductivity
as additives like stainless steel pieces, copper pieces and graphite–PCM composite material. In the experiments,
palmitic–lauric acid (80:20) (PL) and stearic–myristic acid (80:20) (SM) were used as PCMs. Test results show that heat
transfer enhancement of copper pieces was better at 0.05 Ls 1 flow rate compared to 0.025 L s 1. Using copper as an
additive increased the heat transfer rate 1.7 times for melting and 3.8 times for freezing when flow rate was 0.050 L s 1.
Decreasing the flow rate from 0.050 to 0.025 Ls 1, increased the melting times 1.3 times and freezing times 1.8 times,
decreasing heat transfer rates accordingly. The best result of heat transfer enhancement was observed for the PCM–
graphite composite. However, changing the flow rate did not affect the heat transfer rate when graphite was used as
additive.
(c) John Wiley & Sons, 2007 info:eu-repo/semantics/restrictedAccess
fatty acid
heat transfer
PCM
Heat transfer enhancement of fatty acids when used as PCMs in thermal energy storage
article publishedVersion