热损失补偿量热计:理论、设计和性能

Steve R Domen, Paul J Lamperti
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引用次数: 0

摘要

本文详细介绍了一种新型三体热量计,用于测量电离辐射产生的吸收剂量。在辐照过程中,所有三个体的温度都会升高,中央核心吸收的热量是通过标准方法测量的。在电校准过程中,只有中心内核被加热,但通过测量散失到周围夹套中的大部分热量并自动将其与内核保留的热量相加,可以补偿增加的热量损失。第三个主体是一个巨大的热浮动屏蔽,它的存在减少了辐照时的热损失,从而提高了灵敏度和稳定性。报告对热量计的行为进行了数学描述,并对控制和操作技术进行了讨论。其中特别说明了如何将这种三体量热计校准为具有大量热损失的单体量热计或准绝热模式下的双体量热计。这种量热计的设计减少了热梯度的影响,同时提供了测试这些影响的方法。测试结果表明,对于这一特定模型,在电学测量过程中由热梯度引起的系统误差不超过 0.1%。由于系统内的温度梯度不同,在比较电运行和辐照时的误差可能会更大一些。还有人指出,这种量热计的总体设计并不局限于测量吸收剂量,也可用于一般的量热测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Heat-Loss-Compensated Calorimeter: Theory, Design, and Performance.

A new type of 3-body calorimeter for measuring absorbed dose produced by ionizing radiation is described in detail. All three bodies rise in temperature during irradiation, and the heat absorbed by the central core is measured by standard means. Only the central core is heated during electrical calibration, but the increased heat losses are compensated by measuring most of the heat lost to the surrounding jacket and automatically adding it to the heat retained by the core. The third body is a massive, thermally-floating shield, whose presence reduces the heat losses during irradiation, with a consequent increase in sensitivity and stability. A mathematical description of the calorimeter behavior is presented, along with a discussion of control and operation technique. In particular, it is shown how this 3-body calorimeter can be calibrated as a 1-body calorimeter, with large heat losses, or as a 2-body calorimeter, in the quasi-adiabatic mode. This calorimeter design decreases the effects of thermal gradients and at the same time provides the means to test for these effects. The results of these tests show that for this particular model, systematic errors caused by thermal gradients, during electrical measurements, are no larger than 0.1 percent. Errors in comparing an electrical run with an irradiation may be somewhat larger because of different temperature gradients within the system. It is also pointed out that the general design of this calorimeter is not restricted to measuring absorbed dose but can be applied to calorimetry in general.

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