Research on Green and Low-carbon of Electrical BWFRP Pipe

2022 Asian Conference on Frontiers of Power and Energy (ACFPE) Pub Date : 2022-10-01 DOI:10.1109/ACFPE56003.2022.9952274

Jianzhong Wang, Xu Pan, Jiabei Ge, Jialin Yu, Qiman Huang, Jiejie Xie

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Abstract

With the overall acceleration of green and low-carbon transformation of social economy and the continuous emergence of traditional electric power pipe problems, the electrical BWFRP pipe came into being, which not only has many advantages such as light weight and good impact resistance, but also has great advantages and potential in reducing carbon emissions for mankind. This paper introduces the materials and performance index of electrical BWFRP pipe firstly, and then measures the environmental protection degree of electrical BWFRP pipe through carbon footprint analysis, calculates the green low-carbon level of electrical BWFRP pipe from the five stages of production, construction, use, demolition and recycling by using the life cycle assessment method. After comparing with traditional CVPC and MPP pipes in electric power, the results show that the CO2 greenhouse gas emission of electrical BWFRP pipe is smaller in the whole life cycle, the energy conservation and emission reduction efficiency is higher, which is conducive to the realization of carbon neutrality and carbon peak in China.

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电气BWFRP管道绿色低碳研究

随着社会经济绿色低碳转型的全面加快和传统电力管道问题的不断出现，电气BWFRP管应运而生，不仅具有重量轻、抗冲击性能好等诸多优点，而且在为人类减少碳排放方面具有很大的优势和潜力。本文首先介绍了电BWFRP管的材料和性能指标，然后通过碳足迹分析对电BWFRP管的环保程度进行了测量，采用生命周期评价方法从生产、施工、使用、拆除和回收五个阶段计算电BWFRP管的绿色低碳水平。通过与传统的CVPC和MPP管道在电力中的对比，结果表明，BWFRP管道在全生命周期内CO2温室气体排放量更小，节能减排效率更高，有利于实现中国的碳中和和碳峰值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 Asian Conference on Frontiers of Power and Energy (ACFPE)

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