1) honeycomb regenerator
蜂窝蓄热体
1.
Mathematical analysis on the temperature performance of a honeycomb regenerator;
蜂窝蓄热体温度特性数学解析
2.
The design method of regenerator temperature change and switching period is studied on the basis of the exact solution of heat transfer between gas and solid phases in a honeycomb regenerator.
基于蜂窝蓄热体气-固传热精确解,研究蓄热体温度变化和切换周期设计方法。
3.
The relationships of correlative factors and experimental methods influencing the heat transfer characteristics of honeycomb regene-rators with two hole constructions were analyzed according to the experimental results of honeycomb regenerator under different experimentaldevices.
根据国内不同实验装置上两种格孔蜂窝蓄热体换热特性的实验研究结果,分析了相关因素与实验方法对蓄热体换热特性实验结果的影响关系,指出了实验研究对蓄热室设计与实际运行效果的重要作用。
2) ceramic honeycomb regenerator
陶瓷蜂窝蓄热体
1.
The historic development and research status of heat transfer process of ceramic honeycomb regenerator in HTAC and thermal stress-strain are summarized based on the research of heat transfer.
综述了国内外对高温空气燃烧系统中陶瓷蜂窝蓄热体传热过程的研究及在此基础上进行的热应力应变研究的发展进程和现状,在此基础上对陶瓷蜂窝蓄热体内传热与应力应变场的研究发展趋势作了展望。
2.
This paper analyzed the heat exchange between ceramic honeycomb regenerator and gas, and established a heat transfer process mathematical model for ceramic honeycomb regenerator.
分析了高风温燃烧系统中陶瓷蜂窝蓄热体和气体间的热量交换,建立了陶瓷蜂窝蓄热体传热过程数学模型。
3) honeycomb ceramic regenerator
蜂窝陶瓷蓄热体
1.
Study of performance of honeycomb ceramic regenerator in high temperature air generator;
高温空气发生器中蜂窝陶瓷蓄热体性能研究
2.
The operating principle and causes of damage of a honeycomb ceramic regenerator during high-temperature air combustion are described.
介绍了高温空气燃烧过程中蜂窝陶瓷蓄热体的工作原理和损毁原因 ,采用代数雷诺应力模型和修正的速度 -压力耦合算法SIMPLEC ,耦合蓄热体内流体的流动和换热过程 ,运用有限元分析方法 ,对蜂窝陶瓷蓄热体格孔壁面上的应力变化规律进行数值研究 ,并根据计算结果对操作参数进行了改进。
4) beehive regenerative body
蜂窝式蓄热体
5) honeycomb potter heat storage bed
蜂窝陶瓷蓄热体换热器
1.
Thermal performance experimentation for honeycomb potter heat storage bed;
蜂窝陶瓷蓄热体换热器热性能的实验分析
2.
The dynamic thermal performance of honeycomb potter heat storage bed used in High Temperature Air Combustion are experimentally tested.
结果表明:蜂窝型陶瓷蓄热体换热器的压力损失随着空气流速以及蓄热体长度的不同而变化,但总体上说,其压力损失并不大;四通换向阀的换向周期和蜂窝陶瓷蓄热体换热器的体积等是影响其温度效率和热回收率等热性能的重要因素。
3.
The dynamic thermal performance of honeycomb potter heat storage bed used in High Temperature Air Combustion is experimentally tested.
对高温空气燃烧技术中的关键设备———蜂窝陶瓷蓄热体换热器的热动态特性进行了实验测试。
补充资料:蓄热式换热
分子式:
CAS号:
性质:工业中的换热方式之一。利用固体填充物贮蓄热量以达到换热目的。当气体通过时,根据气体的温度高于或低于填充物的温度,可将热量传给填充物或从填充物吸取热量。常用于冶金工业,也用于化学工业等。例如炼钢平炉和煤气炉常用来预热空气等。
CAS号:
性质:工业中的换热方式之一。利用固体填充物贮蓄热量以达到换热目的。当气体通过时,根据气体的温度高于或低于填充物的温度,可将热量传给填充物或从填充物吸取热量。常用于冶金工业,也用于化学工业等。例如炼钢平炉和煤气炉常用来预热空气等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条