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。
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.
阐述了陶瓷蜂窝蓄热体的结构特点、技术性能,介绍了采用这种蓄热体的燃烧系统的应用效果。
This paper describes structure characteristics and technical property of the ceramic honeycomb regenerator and introduces the practical effect of combustion system using the ceramic honeycomb.
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。
This paper analyzed the heat exchange between ceramic honeycomb regenerator and gas, and established a heat transfer process mathematical model for ceramic honeycomb regenerator.
指出陶瓷蜂窝状蓄热体的使用寿命及损坏更换有待进一步提高和解决。
It is pointed out the ceramics alveolate regenerator life improvement is improved and its damage problem should be resolved.
结果表明,空气的换向时间、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的重要因素。
The results show that: the switch time of air and the bulk of storage bed play important roles as regards its thermal performance characteristics.
结果表明,空气的换向时间、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的重要因素。
The results show that: the switch time of air and the bulk of storage bed play important roles as regards its thermal performance characteristics.
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