化工进展 ›› 2023, Vol. 42 ›› Issue (2): 1020-1027.DOI: 10.16085/j.issn.1000-6613.2022-0677

• 资源与环境化工 • 上一篇    下一篇

废塑料高附加值利用技术研究进展

范思强1(), 彭绍忠1, 彭冲2(), 胡永康1   

  1. 1.中国石油化工股份有限公司大连石油化工研究院,辽宁 大连 116401
    2.上海交通大学感知科学与工程学院,上海 200240
  • 收稿日期:2022-04-18 修回日期:2022-05-30 出版日期:2023-02-25 发布日期:2023-03-13
  • 通讯作者: 彭冲
  • 作者简介:范思强(1991—),男,硕士研究生,研究方向为加氢工艺技术。E-mail:fansiqiang.fshy@sinopec.com
  • 基金资助:
    国家自然科学基金(22122807);上海市自然科学基金(21ZR1425700)

Research progress in high value-added utilization technology of waste plastics

FAN Siqiang1(), PENG Shaozhong1, PENG Chong2(), HU Yongkang1   

  1. 1.Sinopec Dalian Research Institute of Petroleum and Petrochemicals,Dalian 116401,Liaoning,China
    2.School of Sensing Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • Received:2022-04-18 Revised:2022-05-30 Online:2023-02-25 Published:2023-03-13
  • Contact: PENG Chong

摘要:

废塑料的低降解性会对环境造成持续污染,新冠疫情的扩散更加剧了塑料的使用与累积,因此废塑料资源的高效处理成为了亟待解决的技术问题。本文分析了当前主流的几种废塑料处理技术路线,认为资源化高附加值利用技术是最具有市场竞争力与绿色环保性的废塑料处理路线。综述了近年来国内外对于废塑料资源化高附加值利用技术的研究进展,讨论了传统热裂解技术的发展与变型,通过该路线废塑料转化为燃料产品的最高收率可达97%~98%(质量分数)。重点介绍了催化转化、化学处理、生物酶化、电催化、催化碳化以及电池能源化等新型技术手段,指出通过化学、催化、生物等多种技术手段实现将废塑料转化为喷气燃料、高附加值化学品与特殊用途的功能材料是该领域未来主流的研究方向与发展趋势,其中转化为高附加值单体的收率可达97%(质量分数)以上,从而实现将塑料垃圾从“清零”的初级处理阶段升级至“变废为用”、“变废为宝”,助力中国完成“双碳”目标。

关键词: 废塑料, 高附加值利用, 燃料, 化学品, 功能材料

Abstract:

The low degradability of waste plastics will continue to pollute the environment, and the spread of the COVID-19 has exacerbated the use and accumulation of plastics, and thus the efficient treatment of waste plastic resources has become an urgent technical problem to be solved. By analyzing several mainstream waste plastics treatment technologies, it was clear that resourceful and high value-added utilization technology was the most competitive and environmentally friendly waste plastics treatment route in the market. The research progress of high value-added utilization technology of waste plastics at home and abroad in recent years were reviewed. The development and variation of conventional thermal cracking technology were discussed. Through this route, the highest yield of waste plastics into fuel products can reach 97%—98%. It was pointed out that the conversion of waste plastics into jet fuel, high value-added chemicals and functional materials for special applications through chemical, catalytic and biological technologies was the mainstream research direction and development trend in this field. Among them, the yield of conversion to high value-added monomer could reach more than 97%, so as to realize the upgrading of plastic waste from the primary treatment stage of "waste clearance" to "turning waste into use" and "turning waste into treasure", and help China achieve the goal of "double carbon"。

Key words: waste plastic, high value-added utilization, fuels, chemicals, functional materials

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