黑液热解制备生物炭用于开发一氧化碳吸附剂的价值评估

The Valorisation of Biochar Produced from Black Liquor Pyrolysis for the Development of CO Adsorbents.

作者信息

Zaharioiu Anca Maria, Niculescu Violeta-Carolina, Sandru Claudia, Spiridon Stefan Ionut, Soare Amalia, Oancea Simona, Marin Florian

机构信息

National Research and Development Institute for Cryogenic and Isotopic Technologies-ICSI Ramnicu Valcea, 4th Uzinei Street, 240050 Ramnicu Valcea, Romania.

Faculty of Agricultural Sciences, Food Industry and Environmental Protection, "Lucian Blaga" University of Sibiu, 7-9 I. Ratiu Str., 550012 Sibiu, Romania.

出版信息

Molecules. 2024 Nov 27;29(23):5613. doi: 10.3390/molecules29235613.

DOI:10.3390/molecules29235613

PMID:39683772

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11644000/

Abstract

The paper manufacturing process produces liquid and gaseous alternative fuels, as well as solid wastes. These can be subsequently treated through chemical processing, oxidation, and thermal activation, resulting in adsorbent materials with CO adsorption capacities. The valorisation of black liquor waste resulting from paper manufacturing was achieved through a catalytic pyrolysis process using two catalysts previously prepared in house (Cu-Zn-MCM-41 and Ni-SBA-16). The HCl-treated adsorbent material, resulting from Ni-SBA-16-catalysed pyrolysis, was selected for use in CO adsorption tests as it had the highest specific surface area (224.06 m/g) and pore volume (0.28 cm/g). The adsorption experimental setup was linked to a gas chromatograph in order to evaluate CO adsorption efficiency using a binary gas mixture consisting of 81% CO and 19% N. With a CO adsorption capacity of 1.61 mmol/g, a separation efficiency of 99.78%, and a CO recovery yield of 90.02%, it can be concluded that the developed adsorbent material resulting from Ni-SBA16-catalysed pyrolysis and HCl treatment represents a viable solution for black liquor pyrolytic solid waste removal and reduction in greenhouse gases.

摘要

造纸过程会产生液态和气态替代燃料以及固体废物。这些物质随后可通过化学处理、氧化和热活化进行处理，从而得到具有CO吸附能力的吸附材料。利用之前在内部制备的两种催化剂（Cu-Zn-MCM-41和Ni-SBA-16），通过催化热解过程实现了造纸产生的黑液废料的增值利用。由Ni-SBA-16催化热解产生的经HCl处理的吸附材料被选用于CO吸附测试，因为它具有最高的比表面积（224.06 m/g）和孔体积（0.28 cm/g）。吸附实验装置与气相色谱仪相连，以便使用由81% CO和19% N组成的二元气体混合物评估CO吸附效率。该吸附材料的CO吸附容量为1.61 mmol/g，分离效率为99.78%，CO回收率为90.02%，可以得出结论，由Ni-SBA16催化热解和HCl处理产生的开发吸附材料是黑液热解固体废物去除和减少温室气体的可行解决方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f73b/11644000/9f7de5fb2a2c/molecules-29-05613-g001.jpg

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黑液热解制备生物炭用于开发一氧化碳吸附剂的价值评估

The Valorisation of Biochar Produced from Black Liquor Pyrolysis for the Development of CO Adsorbents.

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