Comportement thermique d'un générateur à sorption solide

Revue Générale de Thermique Pub Date : 1998-10-01 DOI:10.1016/S0035-3159(98)80008-1

Yézouma Coulibaly , P. Bambang Teguh , Mouad Diny , Rahal Boussehain , Michel Feidt

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引用次数: 2

Abstract

The thermal behaviour of a solid sorption generator of active carbon/alcohol machine, is studied during heating and cooling phases with a preheated air flow. A bicylindrical walls generator that contains 0.9 kg of a granular adsorbent in the presence of residual gas is tested during a cycle of an average duration of 3 hours; the grains of active carbon are rod-shaped of 0.003 m diameter and 0.008 m average length. The thermal contact conductance of adsorbent to the wall has an important influence on the rate of heat transfer between the generator and the external source of heat. In the absence of alcohol, heat transfer occuring without mass transfer in active carbon is essentially due to the conduction. A numerical bidimensional model allows one to justify experimentally the observed evolution and proposes thermal contact conductance between active carbon pellets and the generator wall. A parametric study of the thermal contact conductance gives 6.5 W·m⁻²·K⁻¹ as the best value. A simulation of heating and cooling phases with average conductance values between 5 and 30 W·m⁻²·K⁻¹ gives model estimated heating and cooling phases duration.

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固体吸附发生器的热行为

研究了活性炭/酒精机固体吸附发生器在加热和冷却阶段的热行为。在平均持续时间为3小时的循环中，对含有残余气体的0.9千克颗粒吸附剂的双圆柱形壁发生器进行测试;活性炭颗粒呈棒状，直径为0.003 m，平均长度为0.008 m。吸附剂与壁面的接触热导对发生器与外界热源之间的换热速率有重要影响。在不含醇的情况下，活性炭中没有传质而发生的热传递主要是由于传导。数值二维模型允许人们证明实验观察到的演变，并提出了活性炭颗粒和发电机壁之间的热接触电导。对接触热导率进行参数化研究，得到最佳值为6.5 W·m−2·K−1。对平均电导值在5到30 W·m−2·K−1之间的加热和冷却阶段的模拟给出了模型估计的加热和冷却阶段持续时间。

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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Revue Générale de Thermique

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