Correlation Analysis and Monitoring Method of Carbon Emissions in the Steel Industry Based on Big Data

温室气体 全球变暖 碳纤维 环境科学 环境工程 环境经济学 自然资源经济学 气候变化 计算机科学 经济 算法 生态学 生物 复合数
作者
Yang Wang,Yi Gao,Zhiyu Zou,Yue Chen,Xudong Wang,Shuai Luo,Ning Liu,Jin Zhou,Dawei Yan
出处
期刊:Strategic planning for energy and the environment [Taylor & Francis]
被引量:2
标识
DOI:10.13052/spee1048-5236.4312
摘要

Excessive carbon emissions will lead to catastrophic consequences such as global warming and rising oceans and will also have a serious negative impact on the human food supply and living environment. The steel industry is characterized by high pollution, and about 18% of China’s carbon emissions come from the steel industry. The ‘double carbon’ strategy has brought important tasks and severe challenges to China’s steel industry. With a view to evaluating the achievements of carbon emission control, carbon emission monitoring systems at home and abroad have been continuously established and improved. For the steel industry, accurate and efficient carbon monitoring technology has a guiding role in guiding energy conservation and carbon reduction. Traditional carbon emission accounting methods have some problems, such as long cycles and poor data quality, which restrict the improvement of the lean level of carbon emission monitoring management. Firstly, this paper investigates and analyzes the productive process and carbon emission process of the steel industry and constructs an entropy weight-grey correlation -TOPSIS analysis method for the correlation between carbon emissions and influencing factors. Based on the above content, a carbon emission monitoring method based on multiple influencing factors is put forward, and the high monitoring accuracy of the model is proved by taking the Tianjin steel industry as an example. The results show that information mining of relevant data can strikingly increase the accuracy of carbon emission monitoring in the steel industry.

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