Open Access
Issue |
E3S Web Conf.
Volume 297, 2021
The 4th International Conference of Computer Science and Renewable Energies (ICCSRE'2021)
|
|
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Article Number | 01021 | |
Number of page(s) | 5 | |
DOI | https://doi.org/10.1051/e3sconf/202129701021 | |
Published online | 22 September 2021 |
- Zhao, J., Ji, Y., Yuan, Y., Zhang, Z., Lu, J. EnergySaving Analysis of Solar Heating System with PCM Storage Tank. Energies. 2018;11(1):237. [Google Scholar]
- Beemkumar N., Karthikeyan A., Keshava Reddy K.S., Rajesh K., Anderson A. Analysis of Thermal Energy Storage Tank by ANSYS and Comparison with Experimental Results to Improve its Thermal Efficiency. IOP Conf Ser Mater Sci Eng. 2017;197(1). [Google Scholar]
- Lohse E., Schmitz G. Experimental analysis of regularly structured composite latent heat storages for temporary cooling of electronic components. Heat Mass Transf und Stoffuebertragung. 2013;49(11):1565–1175. [Google Scholar]
- Mohammed M.A.P., Tarleton E., Charalambides MN, Williams JG. Mechanical characterization and micromechanical modeling of bread dough. J Rheol (N Y N Y). 2013;57(1):249–272. [Google Scholar]
- Chan C.W., Tan F.L. Solidification inside a sphere - An experimental study. Int Commun Heat Mass Transf. 2006;33(3):335–341. [Google Scholar]
- Tian Y., Zhao C.-Y. Heat transfer analysis for phase change materials (PCMs). 2009;1–8. [Google Scholar]
- Petrone G. CL and CG. Numerical simulation of pcm melting process. 2012;(July):469–474. [Google Scholar]
- Verma S., Dewan A. Solidification modeling: Evolution, benchmarks, trends in handling turbulence, and future directions. Metall Mater Trans B Process Metall Mater Process Sci. 2014;45(4):1456–1471. [Google Scholar]
- Augspurger M., Udaykumar H.S. A Cartesian grid solver for simulation of a phase-change material (PCM) solar thermal storage device. Numer Heat Transf Part B Fundam. 2016;69(3):179–196. [Google Scholar]
- Gharebaghi M., Sezai I. Enhancement of heat transfer in latent heat storage modules with internal fins. Numer Heat Transf Part A Appl. 2008;53(7):749–765. [Google Scholar]
- Saw C.L., Al-Kayiem H.H., Owolabi A.L. Experimental investigation on the effect of PCM and Nano-enhanced PCM of integrated solar collector performance. WIT Trans Ecol Environ. 2013;179 VOLUME(December):899–909. [Google Scholar]
- Benbrika M., Benbelhout M., Teggar M. Amélioration de l ’ efficacité thermique d ’ un chauffe -eau solaire par l ’ utilisation de matériaux à changement de phase ( MCP ). Int J Sci Res Eng Technol. 2015;Vol.4 pp.1(December). [Google Scholar]
- Koller M., Walter H., Hameter M. Transient numerical simulation of the melting and solidification behavior of NaNo3using awire matrix for enhancing the heat transfer. Energies. 2016;9(3). [Google Scholar]
- Asyraf W.M., Vasu A., Hagos F.Y., Noor M.M., Mamat R. Transient modelling of heat loading of phase change material for energy storage. 2017;01078. [Google Scholar]
- Yadav A., Soni S. Simulation of Melting Process of a Phase Change Material (PCM) using ANSYS (Fluent). Int Res J Eng Technol. 2017;2395–2356. [Google Scholar]
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