二氧化碳吸附吸附剂的制备与表征

IF 0.1 Q3 HISTORY Istorija 20. veka Pub Date : 2020-11-16 DOI:10.17758/eares10.eap1120282

S. O. Akpasi, Y. Isa

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引用次数: 0

摘要

-为了减少温室气体的排放，应该更好地控制由于人类活动而释放的二氧化碳。在这项研究中，开发了一种廉价的材料作为co2捕获的吸附剂。在实验室真空炉中用氯化锌(zncl2)在500℃下化学活化1小时制备活性炭，以甘蔗渣为原料，就地获得高岭石。这些吸附剂在温度范围(30°C, 50°C和70°C)下用于CO 2的储存，同时在恒温条件下改变流量(30mL/min ~ 70mL/min)和柱床高度(3cm ~ 5cm)。本研究还探讨了样品的表面积和孔隙度、官能团和扫描电镜图像等特征。这进一步证实了高岭石和活性炭在低温、低运行CO 2流量和高柱床高度条件下对CO 2的吸附是有利的。

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Preparation and Characterization of Adsorbents for Carbon Dioxide Adsorption

— To reduce emissions of greenhouse gasses, there should be better control of the release of CO 2 due to human activities. In this study, an inexpensive material was developed as adsorbents for CO 2 capture. For the preparation of activated carbon by chemical activation in a laboratory vacuum furnace with zinc chloride (ZnCl 2 ) at 500 °C for 1 hour, sugarcane bagasse was being used as a starting material whereas kaolinite was locally obtained. These adsorbents were applied for the storage of CO 2 within a range of temperatures (30 °C, 50 °C and 70°C) while the flow rate (30mL/min to 70mL/min) and column bed height (3cm – 5cm) were varied at constant temperature. This research also explored sample features such as the surface area and porosity, functional groups, and scanning electron microscopic images. This further substantiate the conclusion that CO 2 adsorption with kaolinite and activated carbon is favoured at low temperatures, low operating CO 2 flowrates and high column bed height.

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