Research on the collaborative mechanism and multi-scenario path of pollution reduction and carbon reduction in megacities
Yuxuan Han
School of Management, University of Shanghai for Science and Technology
DOI: https://doi.org/10.59429/pest.v7i1.9472
Keywords: Pollution reduction and carbon reduction; Megacities; Synergy mechanism; Industrial synergy; STIRPAT model
Abstract
With the aggravation of global climate change and environmental pollution, pollution reduction and carbon reduction has become an urgent global task. Megacities, as the main source of energy consumption and pollution emissions, face complex challenges in emission reduction. Based on the scenario-driven theory, this paper deeply analyzes the mechanism of pollution reduction and carbon reduction in megacities, and explores the industrial synergies and their optimization path. The STIRPAT model and collaborative control coordinate system were used to simulate the emission reduction effect in different scenarios, quantify the impact of various emission reduction measures on carbon emissions, and evaluate the effect of various collaborative control measures. The research results show that there are significant synergistic effects between the three scenarios of energy structure adjustment, transportation emission reduction and building energy conservation improvement. Reasonable policies and technical measures can effectively reduce carbon emissions and pollutant emissions, providing a scientific basis and practical path for pollution reduction and carbon reduction in megacities
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