而大多的能量都通过反应器壁的热耗散,或者通过装置开孔的太阳光再发散损失掉了。
Most of the energy is lost through heat loss through the reactor's wall or through the re-radiation of sunlight back through the device's aperture.
在丁烯氧化脱氢反应过程的开发放大中,发现实验室反应器和工业规模反应器通过反应器壁的热反馈存在不同的影响。
In the developing the oxidative dehydrogenation of butene process, it is found that the effect of heat feedback through reactor wall is different between laboratory and commercial scale reactors.
文章简要介绍了作为哈龙替代品的SQ灭火剂的特点,用实验方法研究了反应器形状、反应器壁厚及导流管壁厚对SQ灭火剂燃速的影响规律,并分析了产生这种影响的原因。
Effects of wall thickness of duct and reactor as well as reactor's shape on combustion rate of SQ fire extinguishing agent are studied by experiments.
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