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煤化工酚基精馏釜残资源化利用过程初步分析 被引量:2

Process analysis of resource utilization of phenol-based distillation residue from coal chemical industry
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摘要 针对酚基精馏釜残组成复杂、毒性大且资源利用率不高的问题,根据其组分特征,本文初步提出减压深拔-热化学转化的多效资源化利用方案,并对该方案中不同产品的制备工艺进行了初步实验验证。结果表明,通过减压深拔得到的轻组分主要以苯二酚类化合物为主,且酚类物质占比70.38%(质量分数)。将深拔轻组分作为苯酚添加物与甲醛进行缩合反应,制备的镁碳砖耐火材料专用树脂,性能指标可满足企业标准,并基本达到行业水平。利用此釜残基树脂制备的镁碳砖,其性能与商用树脂Nv制备的镁碳砖性能无明显差异。深拔剩余的重组分通过化学改性,增加交联程度后可以基本达到颗粒活性炭黏结剂的指标要求。同时从成本效益上对釜残资源化利用方案进行了对比评价。本研究为酚基精馏釜残的处理提供了资源化利用可选途径。 In order to solve the problems of complex composition, high toxicity and low resource utilization rate of phenolic distillation residue, a multi effect resource utilization scheme of vacuum deep drawing and thermochemical conversion was proposed according to the component characteristics of phenolic residue. And the preparation process of different products in this scheme was verified by experiments. The results showed that the main light components of phenolic residue were hydroquinones,and the proportion of phenols from the phenolic residue was 70.38%. The special resin for magnesia carbon brick refractories was prepared by condensation reaction of formaldehyde and phenol with its additive which from the deep drawing light components of phenolic residue. The performance index of the stillage residual resin can meet the enterprise standard and basically reach the industry level. The properties of MgO-C brick prepared by the residual resin of the autoclave were not significantly different from those prepared by commercial resin Nv. After chemical modification and increasing the degree of crosslinking, the residual heavy components of phenolic residue could basically meet the requirements of granular activated carbon adhesive. At the same time, from the cost-benefit point of view, a comparative evaluation was made on the utilization schemes of phenolic distillation residue. This study provides an alternative way of resource utilization for the treatment of phenolic distillation residue.
作者 蔡思超 周静 杜金泽 李方舟 李源森 何林 李鑫钢 王成扬 CAI Sichao;ZHOU Jing;DU Jinze;LI Fangzhou;LI Yuansen;HE Lin;LI Xingang;WANG Chengyang(College of Chemical Engineering,Tianjin University,Tianjin 300072,China;National Engineering Research Center of Distillation Technology,Tianjin 300072,China;Zhejiang Institute of Tianjin University,Ningbo 315000,Zhejiang,China)
出处 《化工进展》 EI CAS CSCD 北大核心 2022年第6期3360-3371,共12页 Chemical Industry and Engineering Progress
基金 国家重点研发计划(2018YFC1902100)。
关键词 精馏釜残 废物处理 资源化利用 减压深拔 酚醛树脂 镁碳砖 活性炭 distillation residue waste treatment resource utilization vacuum distillation phenolic resin magnesia carbon brick activated carbon
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