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W2612590649 endingPage "27" @default.
W2612590649 startingPage "19" @default.
W2612590649 abstract "Abstract This work presents an experiment on thermal properties of organic cetyl alcohol phase change materials (PCMs) incorporated with high density polyethylene (HDPE). Mass proportions of PCMs ranged from 70 wt% to 90 wt%. Cetyl alcohol (CtA) was chosen as the solid–liquid PCM and HDPE worked as the supporting material. While CtA performed as thermal energy storage medium, at the same time the leakage of the PCM was resolved by HDPE. The novel shape-stabilized composite phase change materials (CPCMs) were fabricated via impregnation of CtA into HDPE. In addition, the thermal conductivity of CPCMs was enhanced by carbon fiber (CF). The microstructure, crystalline phase and chemical structure were determined by scanning electronic microscope (SEM), X-ray diffractometer (XRD) and Fourier transformation infrared spectroscope (FT–IR). The results demonstrated that CtA was well impregnated into the HDPE. Differential scanning calorimeter (DSC) was utilized to analyze thermal properties of the composite phase change materials (CPCMs), the outcome indicated that the CPCMs nearly melted at around 50 °C with a latent heat of 149.02–212.42 kJ kg−1. Thermal gravimetric analyzer (TGA) confirmed that the CPCMs have an improved thermal reliability and the addition of CF contributed to a significant decrease in the leakage of CtA. The thermal conductivity meter (TCM) determined that the thermal conductivity of CPCM with 5 wt% CF was 0.33 W/(m K) and 0.47 W/(m K) in liquid and solid state respectively, which was 1.25 and 1.22 times higher than that of original CPCM without CF. The experimental results indicate that the prepared CPCMs have prospects in thermal energy storage field." @default.
W2612590649 created "2017-05-19" @default.
W2612590649 creator A5006398445 @default.
W2612590649 creator A5025557756 @default.
W2612590649 creator A5046372345 @default.
W2612590649 creator A5077538567 @default.
W2612590649 date "2017-08-01" @default.
W2612590649 modified "2023-10-18" @default.
W2612590649 title "Microstructure and thermal properties of cetyl alcohol/high density polyethylene composite phase change materials with carbon fiber as shape-stabilized thermal storage materials" @default.
W2612590649 cites W1766636816 @default.
W2612590649 cites W1965698026 @default.
W2612590649 cites W1966076904 @default.
W2612590649 cites W1966238553 @default.
W2612590649 cites W1968565222 @default.
W2612590649 cites W1974515205 @default.
W2612590649 cites W1975756720 @default.
W2612590649 cites W1976263324 @default.
W2612590649 cites W1977849175 @default.
W2612590649 cites W1984239234 @default.
W2612590649 cites W1987683318 @default.
W2612590649 cites W1988997868 @default.
W2612590649 cites W1990361504 @default.
W2612590649 cites W2000003443 @default.
W2612590649 cites W2000582153 @default.
W2612590649 cites W2002684795 @default.
W2612590649 cites W2003803108 @default.
W2612590649 cites W2003868865 @default.
W2612590649 cites W2013468772 @default.
W2612590649 cites W2015529149 @default.
W2612590649 cites W2019912725 @default.
W2612590649 cites W2020284653 @default.
W2612590649 cites W2021856505 @default.
W2612590649 cites W2024434685 @default.
W2612590649 cites W2028532452 @default.
W2612590649 cites W2031189376 @default.
W2612590649 cites W2031291075 @default.
W2612590649 cites W2039134695 @default.
W2612590649 cites W2039849356 @default.
W2612590649 cites W2042834266 @default.
W2612590649 cites W2046416299 @default.
W2612590649 cites W2047742794 @default.
W2612590649 cites W2053448154 @default.
W2612590649 cites W2053646174 @default.
W2612590649 cites W2057581594 @default.
W2612590649 cites W2058293432 @default.
W2612590649 cites W2060493521 @default.
W2612590649 cites W2060806565 @default.
W2612590649 cites W2062017110 @default.
W2612590649 cites W2066817122 @default.
W2612590649 cites W2069689101 @default.
W2612590649 cites W2072853181 @default.
W2612590649 cites W2074683351 @default.
W2612590649 cites W2077106409 @default.
W2612590649 cites W2079573627 @default.
W2612590649 cites W2084335981 @default.
W2612590649 cites W2087502942 @default.
W2612590649 cites W2088194954 @default.
W2612590649 cites W2088570576 @default.
W2612590649 cites W2089896898 @default.
W2612590649 cites W2092165209 @default.
W2612590649 cites W2098737116 @default.
W2612590649 cites W2122690837 @default.
W2612590649 cites W2126427473 @default.
W2612590649 cites W2144282004 @default.
W2612590649 cites W2159485939 @default.
W2612590649 cites W2178995934 @default.
W2612590649 cites W2189951249 @default.
W2612590649 cites W2289864921 @default.
W2612590649 cites W2328121551 @default.
W2612590649 cites W2338292970 @default.
W2612590649 cites W2340998931 @default.
W2612590649 cites W2372599436 @default.
W2612590649 cites W2414961981 @default.
W2612590649 cites W2468119729 @default.
W2612590649 cites W2507262385 @default.
W2612590649 cites W2591993744 @default.
W2612590649 cites W584602193 @default.
W2612590649 cites W972230839 @default.
W2612590649 doi "https://doi.org/10.1016/j.apenergy.2017.05.074" @default.
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