期刊
CHEMICAL PAPERS
卷 71, 期 12, 页码 2395-2401出版社
SPRINGER INTERNATIONAL PUBLISHING AG
DOI: 10.1007/s11696-017-0234-4
关键词
Nanoadditives; Nanofluid costs; Leidenfrost temperature; Droplet model
资金
- [05.0.07.00/2.01.01.01.0025 MNSP.IKSI.15.003]
In this paper, a review of the impact of most common nanoparticles on the Leidenfrost temperature T (Leid) in heat transfer applications is delivered. Moreover, a simple economic analysis of the nanoparticles use is proposed. When coolant is distilled water, T (Leid) can range 150-220 A degrees C; occasionally, it can even amount to over 400 A degrees C. When the base liquid is modified by additives, considerable changes in the character of heat transfer are observed. Out of five nanofluids under consideration in this study, the best thermal effect (up to 50%) is obtained when Al2O3 nanofluid having particle sizes similar to 39 nm and volume concentration of 0.1% is used. Conversely, the fluid containing TiO2 particles, 20-70 nm in size, seems to be the worst of the analysed fluid, giving only 7% heat transfer enhancement in comparison with water. However, when TiO2 nanoparticles are far smaller, very good thermal effects are obtained (23-25%). In a majority of the cases analysed, the temperature that marks the onset of film boiling is inversely proportional to concentrations of nanoparticles, which is relevant from the economic standpoint.
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