柠檬酸水混合物的过冷流动沸腾

IF 0.8 Q4 THERMODYNAMICS
Mohammad Amin Abdolhossein Zadeh, S. Nakhjavani
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引用次数: 1

摘要

本文对柠檬酸水溶液的换热系数进行了实验研究。实验设施提供条件,评估热流密度(0 ~ 190 kW/m)、质量密度(353 ~ 1059 kg/ms)和柠檬酸在水中浓度(10% ~ 50%体积)等各种操作条件对混合物的影响,以测量混合物的过冷流动沸腾换热系数。研究结果表明,传热机制主要有强制对流传热和核沸腾传热两种。确定了核沸腾的起始点,该起始点将强制对流换热区与核沸腾区分开。在有核沸腾状态下,由于气泡的存在及其相互作用,传热系数较高。在有核沸腾换热领域,热流密度对换热系数的影响更为明显,这也是由于气泡尺寸增大和气泡形成速度加快所致。并将所得结果与陈氏模型的理论计算结果和文献报道的一些实验数据进行了比较。结果与Chen模型的一致性在22%以内,与实验数据的一致性在15%以内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Subcooled flow boiling of a citric acid aqueous mixture
In the present research, an experimental investigation was conducted to assess the heat transfer coefficient of aqueous citric acid mixtures. The experimental facility provides conditions to assess the influence of various operating conditions such as the heat flux (0–190 kW/m), mass flux (353–1059 kg/ms) and the concentration of citric acid in water (10%– 50% by volume) with a view to measure the subcooled flow boiling heat transfer coefficient of the mixture. The results showed that two main heat transfer mechanisms can be identified including the forced convective and nucleate boiling heat transfer. The onset point of nucleate boiling was also identified, which separates the forced convective heat transfer domain from the nucleate boiling region. The heat transfer coefficient was found to be higher in the nucleate boiling regime due to the presence of bubbles and their interaction. Also, the influence of heat flux on the heat transfer coefficient was more pronounced in the nucleate boiling heat transfer domain, which was also attributed to the increase in bubble size and rate of bubble formation. The obtained results were also compared with those theoretically obtained using the Chen type model and with some experimental data reported in the literature. Results were within a fair agreement of 22% against the Chen model and within 15% against the experimental data.
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来源期刊
Archives of Thermodynamics
Archives of Thermodynamics THERMODYNAMICS-
CiteScore
1.80
自引率
22.20%
发文量
0
期刊介绍: The aim of the Archives of Thermodynamics is to disseminate knowledge between scientists and engineers interested in thermodynamics and heat transfer and to provide a forum for original research conducted in Central and Eastern Europe, as well as all over the world. The journal encompass all aspect of the field, ranging from classical thermodynamics, through conduction heat transfer to thermodynamic aspects of multiphase flow. Both theoretical and applied contributions are welcome. Only original papers written in English are consider for publication.
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