Heat Exchange in Adiabatic Calorimeters

E. D. West
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引用次数: 22

Abstract

Heat flow in adiabatic calorimeters of various shapes and materials is described in terms of linear partial differential equations. From these equations it is deduced that in the intermittent heating method the heat exchange between the calorimeter and the adiabatic shield due to transients at the beginning and end of the heating period can be made to cancel. The remaining heat exchange is the same for intermittent or continuous heating methods and can be treated as the sum of effects due to gradients set up by heat flow (1) from the shield to the environment and (2) from the shield and calorimeter heaters to raise the temperatures of the shield and calorimeter, respectively. The first effect can be accounted for by measurements during fore and after periods in intermittent calorimetry and by varying the heating rate in continuous calorimetry. Under certain conditions the second effect can be accounted for by measurements with the empty calorimeter. Variation in heating rate fails as a test for the magnitude of the second effect.
绝热量热计中的热交换
用线性偏微分方程描述了各种形状和材料的绝热量热计的热流。由这些方程推导出,在间歇加热法中,热计与绝热罩之间由于加热周期开始和结束时的瞬变而产生的换热可以消除。对于间歇或连续加热方法,剩余的热交换是相同的,并且可以视为热流(1)从屏蔽板到环境,(2)从屏蔽板和量热计加热器分别提高屏蔽板和量热计的温度所产生的梯度效应的总和。第一种效应可以通过间歇量热法前后的测量和连续量热法中加热速率的变化来解释。在一定条件下,第二效应可以用空量热计测量来解释。升温速率的变化不能作为检验第二种效应大小的标准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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