Determination of Energy Characteristic and Microporous Volume by Immersion Calorimetry in Carbon Monoliths

J. Moreno-Piraján, L. Giraldo, D. P. Vargas
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引用次数: 4

Abstract

Activated carbon monoliths disc and honeycomb type were prepared by chemical activation of coconut shell with zinc chloride at different concentrations, without using a binder. The structures were characterized by N2 adsorption at 77 K and immersion calorimetry into benzene. The experimental results showed that the activation with zinc chloride produces a wide microporous development, with micropore volume between 0,38 and 0,79 cm3g-1, apparent BET surface area between 725 and 1523 m2g-1 and immersion enthalpy between 73,5 and 164,2 Jg-1. We compared the experimental enthalpy with calculated enthalpy by equation Stoeckli-Kraehenbuehl finding a data dispersion from which can infer that the structures are not purely microporous; this fact is ratified with similar behavior that the evidence t the product EoWo.
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浸没量热法测定碳块体的能量特性和微孔体积
在不使用粘合剂的情况下,用不同浓度的氯化锌对椰壳进行化学活化,制备了片状活性炭和蜂窝状活性炭。用77 K的N2吸附和苯浸热法对其结构进行了表征。实验结果表明,氯化锌活化产生的微孔发育范围较宽,微孔体积在0.38 ~ 0.79 cm3g-1之间,表观BET表面积在725 ~ 1523 m2g-1之间,浸出焓在73.5 ~ 162.4 Jg-1之间。我们将实验焓与Stoeckli-Kraehenbuehl方程计算的焓进行了比较,发现数据色散可以推断结构不是纯粹的微孔;这一事实与产品EoWo的证据行为相似。
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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来源期刊
E-journal of Chemistry
E-journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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