Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage
Microencapsulation of hexadecane core, an organic phase change material using inorganic calcium carbonate shell was carried out through self-assembly technique. The microcapsules prepared with mixed surfactants sodium dodecyl sulfate/non-polar polyvinylpyrrolidone (1:1 mass ratio) and core/shell of...
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sg-ntu-dr.10356-1636302022-12-13T02:11:55Z Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage Dixit, Prakhar Parvate, Sumit Reddy, Vennapusa Jagadeeswara Singh, Jitendra Maiti, Tushar Kanti Dasari, Aravind Chattopadhyay, Sujay School of Materials Science and Engineering Engineering::Materials Phase Change Material Hexadecane Microencapsulation of hexadecane core, an organic phase change material using inorganic calcium carbonate shell was carried out through self-assembly technique. The microcapsules prepared with mixed surfactants sodium dodecyl sulfate/non-polar polyvinylpyrrolidone (1:1 mass ratio) and core/shell of 1:1 mass ratio were found to produce spherical morphology observed from Field emission scanning electron microscope images. Fourier transform infrared analysis established no interaction between core and shell, while Energy dispersive X-ray spectrometer ensured presence of calcium carbonate. Latent heat of phase transformations, melting/crystallization temperatures, and encapsulation efficiency parameters were obtained from Differential scanning calorimetry, while Thermogravimetry analysis indicated the temperature range of its applicability. Latent heat of melting and corresponding encapsulation efficiencies estimated with varying core/shell mass ratios were between 59.48 J·g−1–95.92 J·g−1 and 26.85 %–43.12 %, respectively. Sample with equal amount of core/shell (1:1) was found to best microcapsules based on morphology and latent heat value. Encapsulation efficiency obtained from thermogravimetry analysis was consistent with those noted from differential scanning calorimetry. 100 thermal cycles (0 to 30 °C) indicated appreciable stability with temperature fluctuations, which may be useful as a cheap energy storage material in textile applications. Financial support to execute the experimental work is gratefully acknowledged to MHRD (Ministry of Human Resource Development) Plan grant (2019–20) and IIT Roorkee (No. OH-35-71-142), IIT Roorkee, India. 2022-12-13T02:11:55Z 2022-12-13T02:11:55Z 2022 Journal Article Dixit, P., Parvate, S., Reddy, V. J., Singh, J., Maiti, T. K., Dasari, A. & Chattopadhyay, S. (2022). Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage. Journal of Energy Storage, 55, 105491-. https://dx.doi.org/10.1016/j.est.2022.105491 2352-152X https://hdl.handle.net/10356/163630 10.1016/j.est.2022.105491 2-s2.0-85136193432 55 105491 en Journal of Energy Storage © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Materials Phase Change Material Hexadecane Dixit, Prakhar Parvate, Sumit Reddy, Vennapusa Jagadeeswara Singh, Jitendra Maiti, Tushar Kanti Dasari, Aravind Chattopadhyay, Sujay Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
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Microencapsulation of hexadecane core, an organic phase change material using inorganic calcium carbonate shell was carried out through self-assembly technique. The microcapsules prepared with mixed surfactants sodium dodecyl sulfate/non-polar polyvinylpyrrolidone (1:1 mass ratio) and core/shell of 1:1 mass ratio were found to produce spherical morphology observed from Field emission scanning electron microscope images. Fourier transform infrared analysis established no interaction between core and shell, while Energy dispersive X-ray spectrometer ensured presence of calcium carbonate. Latent heat of phase transformations, melting/crystallization temperatures, and encapsulation efficiency parameters were obtained from Differential scanning calorimetry, while Thermogravimetry analysis indicated the temperature range of its applicability. Latent heat of melting and corresponding encapsulation efficiencies estimated with varying core/shell mass ratios were between 59.48 J·g−1–95.92 J·g−1 and 26.85 %–43.12 %, respectively. Sample with equal amount of core/shell (1:1) was found to best microcapsules based on morphology and latent heat value. Encapsulation efficiency obtained from thermogravimetry analysis was consistent with those noted from differential scanning calorimetry. 100 thermal cycles (0 to 30 °C) indicated appreciable stability with temperature fluctuations, which may be useful as a cheap energy storage material in textile applications. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Dixit, Prakhar Parvate, Sumit Reddy, Vennapusa Jagadeeswara Singh, Jitendra Maiti, Tushar Kanti Dasari, Aravind Chattopadhyay, Sujay |
| format |
Article |
| author |
Dixit, Prakhar Parvate, Sumit Reddy, Vennapusa Jagadeeswara Singh, Jitendra Maiti, Tushar Kanti Dasari, Aravind Chattopadhyay, Sujay |
| author_sort |
Dixit, Prakhar |
| title |
Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| title_short |
Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| title_full |
Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| title_fullStr |
Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| title_full_unstemmed |
Effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| title_sort |
effect of surfactants on encapsulation of hexadecane phase change material in calcium carbonate shell for thermal energy storage |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163630 |
| _version_ |
1753801082262257664 |