Government resource allocation practices toward carbon neutrality in China: A hybrid system approach
College
Gokongwei College of Engineering
Department/Unit
Industrial Engineering
Document Type
Article
Source Title
Resources, Conservation & Recycling
Volume
200
Publication Date
2024
Abstract
Government resource allocation practices for achieving carbon neutrality need to be guided by dynamic system theory to identify potential dynamics in China. In particular, dynamic system theory addresses the complex interrelationships and identifies the changes in dynamics to support the decision-making process in pursuing carbon neutrality among international trade, transportation, industrial demand, and dynamic control. However, carbon neutrality involves various activities to better understand the complex activity interrelationships. The data are collected from four major databases, including 30 Chinese provinces/cities, covering a six-year period, with the accumulated frequency in the Baidu Index. This study proposes a hybrid system approach to dynamic resource analysis. The results showed that carbon intensity control dynamics impose a greater influence on the other dynamics toward carbon neutrality. Many provinces can achieve carbon neutrality by regulating the electronics and telecommunications equipment industry.
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Recommended Citation
Wu, K., Qiu, H., Huang, C., Chiu, A. S., & Tseng, M. (2024). Government resource allocation practices toward carbon neutrality in China: A hybrid system approach. Resources, Conservation & Recycling, 200 Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/14380
Disciplines
Environmental Engineering
Keywords
Carbon dioxide mitigation—China—Decision making
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