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SPECIAL AND COMPREHENSIVE REVIEW
Exploration of the scientific development of AI-assisted pyrolysis of
waste plastics(Part B)
Zhang Yougen
(Shanghai First Plastic Machinery Factory, Shanghai 201201, China)
Abstract: The pyrolysis of waste plastics, as a kind of environmentally friendly and efficient waste
treatment method, has received widespread attention. This paper expounds the development strategy
of the basic theoretical system for AI waste plastics pyrolysis; explores the main functional analysis and key
technology implementation strategies of the AI waste plastics pyrolysis model; explores the design of the AI
waste plastics pyrolysis system; expounds and analyzes the application cases of AI waste plastics pyrolysis;
discusses the future development trends and challenges of AI waste plastics pyrolysis technology, pointing
out that how to achieve the optimal environmentally friendly waste plastics pyrolysis has become a key issue
that needs to be urgently addressed. This paper provides a reference for intelligent solutions for waste plastics
pyrolysis.
Key words: AI; waste plastics; pyrolysis; scientific development
Classification number: TQ320.9 Article number: 1009-797X(2026)03-0001-08
Document code: B DOI:10.13520/j.cnki.rpte.2026.03.001
(Continued from the previous issue)
3 Design exploration of AI waste plastic manageable and maintainable components. These designs must
pyrolysis system closely align with the application of intelligent technologies,
The design of an AI-based intelligent system for waste achieving intelligent, efficient, and refined management of
plastic pyrolysis is a crucial step towards achieving the the waste plastic pyrolysis process through rational structural
sustainable development goal of waste plastic pyrolysis. layout and functional allocation.
Introducing and applying AI theories and technologies to the 3.1.1 Exploration of system architecture
practical design of this intelligent system not only tests their design
applicability to the specific needs of waste plastic pyrolysis but The architectural design of an AI-based waste plastic
also provides an opportunity to further explore the innovative pyrolysis system is an interdisciplinary and multi-stage process
and exploratory goals for sustainable development of the AI- that requires the comprehensive application of advanced
based intelligent system for waste plastic pyrolysis through data processing technologies, AI algorithms, and systems
practical design. engineering principles. Through rigorous demand analysis,
3.1 Exploration of the architecture and reasonable technology selection, scientific architectural design,
module design of AI waste plastic pyrolysis
Biography: Zhang Yougen (1947-), male, is a professor-level senior
system engineer who has been enjoying a lifelong special government allowance
System architecture and module design are pivotal from the State Council. He is primarily engaged in research related to
steps in software development and systems engineering, plastic materials and processes, and has published numerous papers in
encompassing the decomposition of complex systems into national journals.
Vol.52,2026 ·1·
