煤气化炉渣基多孔材料的综合利用研究进展

doi:10.19286/j.cnki.cci.2025.01.030

摘要
图/表
参考文献(24)
相关文章 (15)

全文: PDF (0 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要

以煤气化为核心的多联产系统仍然是解决我国能源领域可持续发展的重要途径之一，因此产生的气化炉渣排放量也逐年递增，气化炉渣作为固体废弃物之一，若不及时有效处理，必将严重破坏生态环境，因此气化炉渣的综合利用成为研究的热点之一。而气化炉渣比表面积大、孔隙发达是制备多孔吸附材料的理想原料。介绍了煤气化炉渣的来源、性质与应用，多孔材料的制备方法，论述了煤气化炉渣基多孔吸附材料在CO2的捕集、水中酚类的吸附、染料废水的净化和生物质焦油处理方面的应用，从而为化工企业废弃物的有效处理提供思路。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	尚颖颖
	吕娜

关键词 ：煤气化炉渣, 多孔材料, 活化, 吸附, 综合利用

Abstract：

A coal gasification-based multi-product system remains one of the important solutions to sustainable energy development in China, and as a result, the amount of slag generated from gasification has been increasing year by year. Slag, as one of the solid waste, will seriously damage the ecological environment if not properly and effectively treated. Therefore, the comprehensive utilization of slag has become a hot research topic.However, the large specific surface area and porous structure of the gasified slag make it an ideal raw material for preparing porous adsorbent materials. The sources, properties, and applications of coal gasification slag, the preparation methods of porous materials were introduced, and the applications of porous materials based on coal gasification slag in capturing CO2, removing phenols from water, treating dye-contaminat-
ed wastewater, and treating biomass tar were discussed. It was provided that a new perspective for the effective treatment of industrial waste in chemical enterprises.

Key words： coal gasification furnace slag porous material activated adsorption utilization

基金资助:

甘肃省2023年高校教师创新基金项目（2023B-531）

作者简介: 尚颖颖（ 1990— ），女，甘肃庆阳人，讲师。

引用本文:

尚颖颖，吕娜. 煤气化炉渣基多孔材料的综合利用研究进展[J]. 煤炭与化工, 2025, 48(1): 143-147. Shang Yingying, Lv Na. Research progress of porous adsorption material from coal gasification furnace slag. CCI, 2025, 48(1): 143-147.

链接本文:

http://www.mtyhg.com.cn/CN/10.19286/j.cnki.cci.2025.01.030 或 http://www.mtyhg.com.cn/CN/Y2025/V48/I1/143

[ 1 ]       杨    帅，石立军. 煤气化细渣组分分析及综合利用探讨[ J ]. 煤化工，2013（ 4 ）：29 - 31.
[ 2 ]       刘    琪. 利用煤气化炉渣制备中空陶粒的研究[ D ]. 西安：西安建筑科技大学，2020.
[ 3 ]       宁永安，段一航，高宁博，等. 煤气化渣组分回收与利用技术研究进展[ J ]. 洁净煤技术，2020，26（ S1 ）：14 - 19.
[ 4 ]       Wagn er N J, Matjie R H, S laghuis J H et a l .Charact erization of Unbu rn ed Carbon Presen t in C oarse Gasification Ash[ J ]. Fuel, 2008( 87 ): 683 - 691.
[ 5 ]       Acost a A, Ainet o M, Iglesi as I et al.Physico-ch emical Charact erization of Sl ag Wast e Coming from GICC Thermal Pow er Plant[ J ]. Mat erials Letters, 2001( 50 ): 246 - 250.
[ 6 ]       Lin K L, Chang W C, Lin D F, et al. Pozzolanic characteristics of pulverized incinerator incinerator bottom A-S-H slag[ J ]. Con- struction and Building Material, 2008, 22( 3 ): 324 - 329.
[ 7 ]       孟庆鹏，岳蕴辉，杨    念，等. 新疆准东德士古气化炉炉渣特性研究[ J ]. 煤炭科学技术，2020，48（ 1 ）：226 - 231.
[ 8 ]       宋瑞领，李    静，付亮亮，等. 多喷嘴对置式水煤浆气化炉炉渣特性研究[ J ]. 洁净煤技术，2018，24（ 5 ）：43 - 49.
[ 9 ]       吾买尔江·卡瓦，林雄超，杨远平，等. 新疆高碱煤四喷嘴气化炉结渣特性研究[ J ]. 洁净煤技术，2019，25（ 3 ）：62 - 67.
[ 10 ]     吴    阳，赵世永，李    博. 宁东煤气流床气化残渣特性研究 [ J ]. 煤炭工程，2017，49（ 3 ）：115 - 118．
[ 11 ]     Y.-H. Wu, K. Xue, Q.-L. Ma, et al. Removal of hazardous crystal violet dye by low-cost P-type zeolite/carbon composite obtained from in situ conversion of coal gasification fine slag, Microporous Mesoporous Mater, 2021 ( 312 ): 23 - 31.
[ 12 ]     P.J. P′erez-Díaz, A. Medina-Ramírez, I.R.G. Esquivel, et al. Effect of X zeolite-carbon composite ratio as support of Pt nanoparticles for MOR and ORR, Ionics, 2021, 27 ( 4 ): 1 813 - 1 828.
[ 13 ]     F. Gan, B. Wang, Z. Jin, et al. From typical silicon-rich biomass to porous carbon-zeolite composite: A sustainable approach for efficient adsorption of CO2, Sci Total Environ, 2021 ( 768 ): 144 - 529.
[ 14 ]     L. Bandura, R. Panek, J. Madej, et al. Synthesis of zeolite-carbon composites using high-carbon fly ash and their adsorption abilities towards petroleum substances[ J ]. Fuel, 2021( 283 ): 56 - 64.
[ 15 ]     H. Li, F. Zheng, J. Wang, et al. Facile preparation of zeolite-activ-
ated carbon composite from coal gangue with enhanced adsorption performance[ J ]. Chem. Eng, 2020( 390 ): 897 - 906.
[ 16 ]     M. Wang, R. Xie, Y. Chen, et al. A novel mesoporous zeoliteactiv-
ated carbon composite as an effective adsorbent for removal of ammonianitrogen and methylene blue from aqueous solution[ J ]. Bioresour Technol, 2018( 268 ): 726 - 732.
[ 17 ]     S.M. Al-Jubouri, D.A. de Haro-Del Rio, A. Alfutimie, et al. Und-
erstanding the seeding mechanism of hierarchically porous zeolite/
carbon composites[ J ]. Microporous Mesoporous Mater, 2018( 268 ): 109 - 116.
[ 18 ]     W.A. Khanday, F. Marrakchi, M. Asif, et al. Mesoporous zeolite-
activated carbon composite from oil palm ash as an effective adsorbent for methylene blue[ J ]. Taiwan Inst. Chem. Eng, 2017 ( 70 ): 32 - 41.
[ 19 ]     Zekai Miao, Jianjun Wu, Yanjie Niu, et al.Development of a novel type hierarchical porous composite from coal gasification fine slag for CO2 capture. Chemical Engineering Journal 2022( 435 ): 134 - 909.
[ 20 ]     Wenjing Tang, Huijuan Huang, Yajun Gao, et al. Preparation of a novel porous adsorption material from coal slag and its adsorption properties of phenol from aqueous solution[ J ]. Materials and Design, 2015( 88 ): 1 191 - 1 200.
[ 21 ]     Gu, Y.-y., Qiao, X.-c. A carbon silica composite prepared from water slurry coalgasification slag. Microporous Mesoporous Mater[ J ]. Micromeso, 2018( 6 ): 25 - 27.
[ 22 ]     Li, C.-c., Qiao, X.-c., Yu, J.-g. Large surface area MCM-41 prepared from acid leaching residue of coal gasification slag[ J ]. Mater. Lett, 2016( 167 ): 246 - 249.
[ 23 ]     Shuo Liu, Xingtong Chen, Weidong Ai, et al.A new method to prepare mesoporous silica from coal gasification fine slag and its application in methylene blue adsorption.Journal of Cleaner Production, 2019 ( 212 ): 1 062 - 1 071.
[ 24 ]     Deng, X., Fan, Y., Zhang, Q.,. Study on adsorption performance of Ce-loaded coal gasification slag to Congo red[ J ]. Technol. Sci, 2019, 2 ( 5 ): 18 - 28.