微波裂解技术在废旧轮胎资源化上的应用
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摘要
随着国民经济的迅猛发展,汽车保有量持续升高,废旧轮胎造成的环境污染问题也日益凸显。目前常见的废旧轮胎处置技术有轮胎翻新、原形利用、焚烧、生产再生胶再生胶粉、热裂解等。微波裂解技术处理废旧轮胎是一种较为新兴的处置方法,可实现其无害化与资源化。本文对废旧轮胎处置的常见技术进行了梳理和比对,简单介绍了微波裂解技术的原理、优缺点、近几年相关的研究成果和工业化应用的实例,提出了建议和展望,以期对我国固体废物资源化利用提供思路。
With the rapid development of the national economy,the environmental pollution caused by waste tires is becoming increasingly prominent over the growing number of automobile ownership.Traditional treatment and resource utilization of waste tires technologies generally applied nowadays include tire retread,prototype utilization,incineration,production of recycled rubber powder,thermal pyrolysis etc..Microwave reverse polymerization technology is a relatively advanced treatment method which can achieve harmlessness and re-utilization of waste tires.This paper summarized and reviewed the common technologies of waste tire disposal,and compared them to each other.The principle,advantages and disadvantages of microwave reverse polymerization technology,the research results in recent years and examples of industrial application are also briefly described trying to provide some thoughts for the utilization of solid waste resources in China.
With the rapid development of the national economy,the environmental pollution caused by waste tires is becoming increasingly prominent over the growing number of automobile ownership.Traditional treatment and resource utilization of waste tires technologies generally applied nowadays include tire retread,prototype utilization,incineration,production of recycled rubber powder,thermal pyrolysis etc..Microwave reverse polymerization technology is a relatively advanced treatment method which can achieve harmlessness and re-utilization of waste tires.This paper summarized and reviewed the common technologies of waste tire disposal,and compared them to each other.The principle,advantages and disadvantages of microwave reverse polymerization technology,the research results in recent years and examples of industrial application are also briefly described trying to provide some thoughts for the utilization of solid waste resources in China.
引文
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[5] 李钊.我国废旧轮胎资源化的现状、问题与对策[J].低碳世界,2018 (06):27-28.
[6] 岳现杰,许冠英.废旧轮胎回收利用现状及污染防治对策研究[J].工业安全与环保,2010,36(01):37-39,59.
[7] 许江林,孙承亮,于佳雪,等.废旧轮胎资源化的能量与物质流分析[J].上海节能,2018 (11):850-855.
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[9] 王君.生物质微波裂解制备液体燃料的基础研究[D].淮南:安徽理工大学,2007.
[10] 马双忱,姚娟娟,金鑫,等.微波化学中微波的热与非热效应研究进展 [J].化学通报,2011,74(01):41-46.
[11] Motasemi F,Afzal M T.A review on the microwave-assisted pyrolysis technique [J].Renewable and Sustainable Energy Reviews,2013:317-330.
[12] Undri A,Rosi L,Frediani M,et al.Upgraded fuel from microwave assisted pyrolysis of waste tire[J].Fuel,2014 (01):600-608.
[13] Undri A,Sacchi B,Cantisani E,et al.Carbon from microwave assisted pyrolysis of waste tires [J].Journal of Analytical and Applied Pyrolysis,2013,104:396-404.
[14] 杨亚青.废轮胎微波热解过程及产物分布特性试验研究[D].济南:山东大学,2017.
[15] 高腾飞,肖天存,闫巍,等.固体废弃物微波技术处理及其资源化[J].工业催化,2016,24(07):1-10.
[16] 郭楠.整胎连续化微波裂解装置的设计与实验研究[D].青岛:青岛科技大学,2018.
[17] 李志华,李勇.叶轮式废旧橡胶裂解炉的仿真与实验分析[J].橡塑技术与装备,2019,45(01):49-52.
[2] 朱茂电,王加龙,赵吕明.废旧轮胎回收利用技术及其应用前景[J].再生资源与循环经济,2008 (08):32-35.
[3] 王强,焦生杰.工程车辆翻新轮胎承载变形特性[J].中国公路学报,2018,31(05):191-198.
[4] 徐微.论废旧轮胎的资源利用及北京废旧轮胎综合利用产业化发展建议[J].中国资源综合利用,2018,36(12):64-66.
[5] 李钊.我国废旧轮胎资源化的现状、问题与对策[J].低碳世界,2018 (06):27-28.
[6] 岳现杰,许冠英.废旧轮胎回收利用现状及污染防治对策研究[J].工业安全与环保,2010,36(01):37-39,59.
[7] 许江林,孙承亮,于佳雪,等.废旧轮胎资源化的能量与物质流分析[J].上海节能,2018 (11):850-855.
[8] 杨启才,臧广辉.垃圾微波裂解及资源化利用技术[J].中国环保产业,2010 (10):46-49.
[9] 王君.生物质微波裂解制备液体燃料的基础研究[D].淮南:安徽理工大学,2007.
[10] 马双忱,姚娟娟,金鑫,等.微波化学中微波的热与非热效应研究进展 [J].化学通报,2011,74(01):41-46.
[11] Motasemi F,Afzal M T.A review on the microwave-assisted pyrolysis technique [J].Renewable and Sustainable Energy Reviews,2013:317-330.
[12] Undri A,Rosi L,Frediani M,et al.Upgraded fuel from microwave assisted pyrolysis of waste tire[J].Fuel,2014 (01):600-608.
[13] Undri A,Sacchi B,Cantisani E,et al.Carbon from microwave assisted pyrolysis of waste tires [J].Journal of Analytical and Applied Pyrolysis,2013,104:396-404.
[14] 杨亚青.废轮胎微波热解过程及产物分布特性试验研究[D].济南:山东大学,2017.
[15] 高腾飞,肖天存,闫巍,等.固体废弃物微波技术处理及其资源化[J].工业催化,2016,24(07):1-10.
[16] 郭楠.整胎连续化微波裂解装置的设计与实验研究[D].青岛:青岛科技大学,2018.
[17] 李志华,李勇.叶轮式废旧橡胶裂解炉的仿真与实验分析[J].橡塑技术与装备,2019,45(01):49-52.
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