Estimation of the Isotherms of Phenol on Activated Carbons and Polymeric Adsorbents under  Supercritical Condition

Abstract

Abstract: A method named as "volume-expanding and pressure-reducing adsorption" is proposed. It can
be usedto measure the isotherms under supercritical condition. The adsorption isotherms of
phenol on activated carbonsand polymeric adsorbents are estimated and compared respectively
for the systems of "phenol-activated carbon-supercritical fluid CO2" and "phenol-polymeric
adsorbent-supercritical fluid CO2". The results show that theamount of phenol adsorbed on
the activated carbons and the polymeric adsorbents under the supercritical conditionis much
less than that under the general condition, which can be utilized to develop a technology
regenerating theactivated carbon with supercritical fluid. Moreover, the effects of ethyl
alcohol, used as the third component, on theisotherms of phenol on the activated carbons
and polymeric adsorbents under the supercritical condition are alsoinvestigated.

Key words: volume-expanding and pressure-reducing adsorption, adsorption isotherm, activated carbon, polymeric adsorbent, supercritical fluid

摘要： A method named as "volume-expanding and pressure-reducing adsorption" is proposed. It can
be usedto measure the isotherms under supercritical condition. The adsorption isotherms of
phenol on activated carbonsand polymeric adsorbents are estimated and compared respectively
for the systems of "phenol-activated carbon-supercritical fluid CO2" and "phenol-polymeric
adsorbent-supercritical fluid CO2". The results show that theamount of phenol adsorbed on
the activated carbons and the polymeric adsorbents under the supercritical conditionis much
less than that under the general condition, which can be utilized to develop a technology
regenerating theactivated carbon with supercritical fluid. Moreover, the effects of ethyl
alcohol, used as the third component, on theisotherms of phenol on the activated carbons
and polymeric adsorbents under the supercritical condition are alsoinvestigated.

关键词: volume-expanding and pressure-reducing adsorption;adsorption isotherm;activated carbon; polymeric adsorbent;supercritical fluid

XI Hongxia, XIE Lanying, LI Xiangbin, LI Zhong. Estimation of the Isotherms of Phenol on Activated Carbons and Polymeric Adsorbents under
Supercritical Condition[J]. .

奚红霞, 谢兰英, 李祥斌, 李忠. 超临界条件下苯酚在活性炭和聚合物吸附剂上吸附等温线的测定[J]. CIESC Journal.

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Estimation of the Isotherms of Phenol on Activated Carbons and Polymeric Adsorbents under
Supercritical Condition

超临界条件下苯酚在活性炭和聚合物吸附剂上吸附等温线的测定

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