Study on Electricity Carbon Factor Analysis and Carbon Reduction Strategies for Industrial Parks
ID:41
Submission ID:45 View Protection:ATTENDEE
Updated Time:2025-10-11 22:30:01 Hits:41
Poster Presentation
Start Time:2025-11-09 09:03 (Asia/Shanghai)
Duration:1min
Session:[P] Poster presentation » [P3] 3.Power system and automation
No files
Abstract
In response to the refined carbon management requirements under the international green trade concept, this study addresses the limitations of the traditional average
emission factor method in terms of temporal and spatial accuracy, and proposes carbon reduction strategies tailored for industrial parks. Taking a typical industrial park as the empirical case, the study first constructs a node-level dynamic electricity-carbon factor model. By integrating carbon emission flow theory with power grid topology and hourly power flow data, the model enables the tracking of carbon emissions at load nodes. Empirical analysis reveals significant spatial variation and clear temporal patterns in the carbon intensity of industrial parks. Based on this, three categories of carbon reduction pathways are designed. For coal-power-dependent enterprises,
deploy intelligent load-shedding systems and rooftop photovoltaics. For wind-power-sensitive enterprises, guide the implementation of load-wind power coordinated dispatch and energy storage for peak shifting. For enterprises near PV generation, promote the establishment of production scheduling aligned with the "midday low-carbon window" and supporting energy storage. Simultaneously, an innovative cross-enterprise shared energy storage mechanism is proposed. This mechanism utilizes spatiotemporal shifting technology to integrate midday PV resources with nighttime wind power resources. The research outcomes epitomize the paradigm shift in industrial
park carbon management from extensive control to precision governance, providing a replicable pathway for systemic carbon reduction.
Keywords
Electricity Carbon Emission Factor,Carbon Emission Flow Theory,Carbon Reduction Strategy,Industrial Parks
Speaker
Comment submit