Numerical study on coupled heat and mass transfers in an absorber with external fluid heating

Heat Recovery Systems and CHP Pub Date : 1995-01-01 Epub Date: 2003-03-05 DOI:10.1016/0890-4332(95)90034-9

L.M. Sun, N. Ben Amar, F. Meunier

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引用次数: 78

Abstract

This paper presents a numerical study of coupled heat and mass transfers in an adsorber with external fluid heating. A one-dimensional model incorporating both heat transfer and Ergun flow of the adsorbate inside the adsorber is developed. Numerical investigations are made for two adsorbent-adsorbate pairs: zeolite 13X-water and 13X-ammonia, whose operating pressures are considerably different. It is shown that, for the 13X-water pair which has a low operating pressure and therefore a low gas density, the dynamics of the adsorber can be significantly limited by the mass transfer inside the adsorbent bed, when its dimension is large. The poor mass transfer can lead to very large pressure variations and small adsorbed or desorbed quantities, making the heat pump process ineffective. Conversely, the zeolite-ammonia pair operates at much higher pressures (several bars) and the corresponding pressure variations in the bed are, in general, negligible. In this case, the limitation by mass transfer can be neglected and the uniform-pressure assumption is acceptable.

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外流体加热吸收体内耦合传热传质的数值研究

本文对外加流体加热吸附器内的传热传质耦合进行了数值研究。建立了考虑吸附器内吸附剂传热和二流的一维模型。对沸石13x -水和13x -氨这两种不同操作压力的吸附剂-吸附物对进行了数值研究。结果表明，对于低操作压力、低气体密度的13x -水对，当吸附床尺寸较大时，吸附床内的传质会显著限制吸附器的动力学。不良的传质会导致很大的压力变化和很小的吸附或解吸量，使热泵过程无效。相反，沸石-氨对在更高的压力下运行(几个巴)，床层中相应的压力变化通常可以忽略不计。在这种情况下，可以忽略传质的限制，可以接受均压假设。

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Heat Recovery Systems and CHP

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