主要用于玻璃窑蓄热室格子体。
Mainly used for regenerator of glass furnace as checker brick.
介绍了高效蓄热室技术的特点及技术关键。
Technological features and skills about the efficient regenerative chamber are described.
另一个是蓄热室,它有很大的表面积供吸热和散热。
The other is check chamber which provide a large surface area for both absorbing and giving up heat.
计算机计算结果表明,格子砖材质的更换会改变蓄热室的换热特性。
The computor resulted that the replacement of checker brick material will change the heat transfer performance.
设计的蓄热室底板既要有耐高温能力,又要有必要的承载力和耐久性。
The base of regenerator must resist high temperature, hold necessary bearing capacity and durability.
蓄热室是蓄热式高温空气燃烧系统实现余热回收和获得高温空气的关键部件。
Regenerators, which recover waste heat and provide high temperature air, are key components of the regenerative high temperature air combustion system.
采用一维优化方法,结合蓄热室传热模拟,对实例进行了计算,并进行了分析。
The optimum means of one dimension and heat transfer analog of regenerators are adopted to calculate the example and make a useful analysis and exploration of it.
通过特性分析提出了典型蓄热室的选取原则,并利用级数验证了选取的有效性。
Progression is used to the properties of flue temperatures, and rules of selecting typical regenerators are proposed.
并通过实验检测验证了新型旋流式热风炉蓄热室能更好的满足数学模型的假设条件。
Through the experimental data test the assumptions are more feasible and the computer simulation is more accurate for the ball packed...
本文介绍了用粘土砖、高铝砖、硅砖和方镁石砖作蓄热室上层格子体进行对比试验的情况。
A comparative test of standard clay bricks, high alumina bricks, silica bricks and periclase bricks which were used as checkers in upper parts of regenerators has been conducted.
本文介绍了利用未经精制的焦炉煤气生产中碱玻璃球的情况,并用实践证明了煤气蓄热室走空气的操作方法的可行性和益处。
This paper describes how to produce C-glass marbles using unrefined coke-oven gas and gives proofs of the feasibility and advantage of passing air through the to gas regenerator in practice.
产品主要用于冶金行业平炉炉顶、电炉炉顶、精炼炉及各种有色金属冶炼炉,此外还用在水泥回转窑烧成带和玻璃窑的蓄热室等部位。
Their main usage are for metallurgical industry for example, ferrous smelting furnace; Besides, they are also used in the sintering zone of cement rotary kiln and regenerator of glass furnace, etc.
提出了一种新型的可控小型蒸汽产生系统。利用低谷电能加热蓄热室的蓄热体,需要时利用蓄热体的热能加热水来产生蒸汽。为了提高换热效率采用直接接触换热。
A new controllable diminutive steam raising system is developed which USES heat storage to absorb the off-peak electric energy and to heat water into vapor when needed.
提出了一种新型的可控小型蒸汽产生系统。利用低谷电能加热蓄热室的蓄热体,需要时利用蓄热体的热能加热水来产生蒸汽。为了提高换热效率采用直接接触换热。
A new controllable diminutive steam raising system is developed which USES heat storage to absorb the off-peak electric energy and to heat water into vapor when needed.
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