Evaluation of the Thermal Efficiency of a High-Temperature Heat-Insulation Structure Based on Honeycomb Plastic

A. V. Ryzhenkov; E. E. Lapin; N. A. Loginova; D. R. Sitdikov; S. V. Grigorev

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Evaluation of the Thermal Efficiency of a High-Temperature Heat-Insulation Structure Based on Honeycomb Plastic

机译：基于蜂窝塑料的高温隔热结构的热效率评估

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摘要

Highly efficient heat-insulation materials are needed in order to reduce the heat losses in operation of heat-power equipment at temperatures up to 700℃. A review of the available solutions showed that the development of a high-temperature heat-insulation structure of a new type is needed. The basic features of application of honeycomb plastics in heat insulation of heat-power equipment are discussed, the known techniques for evaluating the heat conductance of such materials are reviewed, and the results of calculation-parametric studies on determining the optimum honeycomb design for heat-insulation structures are reported.

机译：为了减少热电设备在700℃以下的温度下的热损失，需要使用高效的隔热材料。对可用解决方案的回顾表明，需要开发一种新型的高温绝热结构。讨论了蜂窝塑料在热电设备隔热中的应用的基本特征，综述了评估此类材料导热性的已知技术，并确定了确定最佳蜂窝设计的热力计算参数研究结果。报告了隔热结构。

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来源
《Thermal engineering》 |2016年第6期|445-448|共4页
作者
A. V. Ryzhenkov; E. E. Lapin; N. A. Loginova; D. R. Sitdikov; S. V. Grigorev;
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作者单位

Moscow Power Engineering Institute (MPEI, National Research University), ul. Krasnokazarmennaya 14, Moscow, 111250 Russia;

Moscow Power Engineering Institute (MPEI, National Research University), ul. Krasnokazarmennaya 14, Moscow, 111250 Russia;

Moscow Power Engineering Institute (MPEI, National Research University), ul. Krasnokazarmennaya 14, Moscow, 111250 Russia;

Moscow Power Engineering Institute (MPEI, National Research University), ul. Krasnokazarmennaya 14, Moscow, 111250 Russia;

Moscow Power Engineering Institute (MPEI, National Research University), ul. Krasnokazarmennaya 14, Moscow, 111250 Russia;

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正文语种 eng
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关键词
heat insulation; heat-insulation structure; industrial equipment; energy efficiency improvement; heat protection;

机译：绝热;隔热结构;工业设备;提高能源效率;热保护;

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Evaluation of the Thermal Efficiency of a High-Temperature Heat-Insulation Structure Based on Honeycomb Plastic

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