Studying heat transfer enhancement for water boiling on a surface with micro- and nanorelief
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- 作者:Yu. A. Kuzma-Kichta (1)
A. V. Lavrikov (1)
M. V. Shustov (1)
P. S. Chursin (1)
A. V. Chistyakova (1)
Yu. A. Zvonarev (2)
V. M. Zhukov (3)
L. T. Vasil’eva (1) - 关键词:boiling heat transfer enhancement ; surfaces with artificial micro ; and nanorelief ; contact angle ; critical heat flux ; heat transfer
- 刊名:Thermal Engineering
- 出版年:2014
- 出版时间:March 2014
- 年:2014
- 卷:61
- 期:3
- 页码:210-213
- 全文大小:649 KB
- 作者单位:Yu. A. Kuzma-Kichta (1)
A. V. Lavrikov (1)
M. V. Shustov (1)
P. S. Chursin (1)
A. V. Chistyakova (1)
Yu. A. Zvonarev (2)
V. M. Zhukov (3)
L. T. Vasil’eva (1)
1. Moscow Power Engineering Institute National Research University, Krasnokazarmennaya ul. 14, Moscow, 111250, Russia
2. Kurchatov Institute Research Center, pl. Akademika Kurchatova 1, Moscow, 123182, Russia
3. United Institute of High Temperatures, Russian Academy of Sciences, Izhorskaya ul. 13, str. 2, Moscow, 125412, Russia - ISSN:1555-6301
文摘
We present the results from a study of heat transfer enhancement for bulk water boiling at atmospheric pressure on a surface with micro- and nanorelief, including a relief formed from silicon carbide and aluminum oxide nanoparticles. Horizontally oriented steel tube 1.2 mm in diameter and copper plate 15 × 3 mm in size were selected as test sections. The process was recorded by means of a video camera, and the values of heat transfer, critical heat fluxes, and contact angles were measured. The use of surface with micro- and nanorelief makes it possible to obtain a significantly higher critical heat flux and boiling heat transfer coefficient owing to a change of surface wettability. The results of investigations can find use in compact heat exchangers, refrigerating plants, heat pipes, in the mirrors of high-capacity lasers, in the targets and resonators of charged particle accelerators and for external cooling of reactor vessels under emergency conditions.