善良管理人為基礎之即時碳數據收集:以鋁金屬加工工廠為例
投稿Advances in Management and Applied Economics (EconLit)
Real-Time Carbon Data Collection Based on the Duty of Care: A Case Study of an Aluminum Processing Plant
Abstract
With international brands enforcing strict Extended Producer Responsibility (EPR) requirements, aluminum processing manufacturers must fulfill their Duty of Care to meet end-customer expectations, particularly in urgently reducing carbon emissions during production. Accurate real-time carbon data collection enables aluminum processing plants to immediately enhance carbon efficiency and fulfill their Duty of Care obligations demanded by end users.
This study explores a real-time carbon data collection system designed to precisely assess the carbon footprint of each production batch. Through the case study of an aluminum processing plant, we demonstrate how real-time data technologies can be applied to improve carbon efficiency, reduce emission errors, and continuously optimize production processes. The results show that real-time data collection significantly enhances carbon management in aluminum processing and supports better control of carbon emissions across different stages of the product life cycle.
Conclusion
This study explored the application of real-time carbon data collection systems in the aluminum processing industry and demonstrated how this technology can enhance carbon efficiency across the product life cycle. Compared to traditional annual data collection methods, real-time data collection enables more precise capture of carbon emission variations during each production batch and allows for dynamic adjustments based on real-time information.
The results indicate that the implementation of a real-time data system not only improved carbon efficiency but also enhanced production cost efficiency and management transparency. With the ongoing advancement of technology, real-time carbon data collection systems are poised to become essential environmental management tools in the aluminum industry as well as other energy-intensive sectors.
Compared to primary aluminum, recycled aluminum significantly reduces energy consumption and carbon emissions during production, making it a crucial element in green supply chains. However, to ensure the credibility of recycled aluminum sources and the transparency and low-carbon nature of the recycling process, the establishment of a comprehensive and traceable product carbon footprint record is vital. This traceability further provides an important foundation for corporate leaders to fulfill their Duty of Care in environmental management.
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