期刊
ENERGIES
卷 15, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/en15041391
关键词
hybrid nanofluids; efficiency; solar collectors; thermal properties
资金
- Ministry of Higher Education of Malaysia [FRGS/1/2019/TK03/UMP/02/15]
- Universiti Malaysia Pahang [RDU213308, RDU1903134]
This paper studies the application of hybrid nanofluids in solar energy systems and finds that they can enhance heat transfer efficiency and replace traditional heat transfer fluids. The research also introduces preparation methods, stability factors, thermal improvement methods, and current applications of hybrid nanofluids, as well as mathematical regression analysis. Hybrid nanofluids have excellent thermophysical properties and have the potential to improve the efficiency of solar collectors.
Because of its potential to directly transform solar energy into heat and energy, without harmful environmental effects such as greenhouse gas emissions. Hybrid nanofluid is an efficient way to improve the thermal efficiency of solar systems using a possible heat transfer fluid with superior thermo-physical properties. The object of this paper is the study the latest developments in hybrid applications in the fields of solar energy systems in different solar collectors. Hybrid nanofluids are potential fluids with better thermo-physical properties and heat transfer efficiency than conventional heat transfer fluids (oil, water, ethylene glycol) with single nanoparticle nanofluids. The research found that a single nanofluid can be replaced by a hybrid nanofluid because it enhances heat transfer. This work presented the recent developments in hybrid nanofluid preparation methods, stability factors, thermal improvement methods, current applications, and some mathematical regression analysis which is directly related to the efficiency enhancement of solar collector. This literature revealed that hybrid nanofluids have a great opportunity to enhance the efficiency of solar collector due to their noble thermophysical properties in replace of conventional heat transfer working fluids. Finally, some important problems are addressed, which must be solved for future study.
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