Carbon emission quantification analysis of excavation engineering under road transport conditions

土方工程 温室气体 环境科学 发掘 碳纤维 燃料效率 北京 能源消耗 工程类 环境工程 土木工程 生命周期评估 运输工程 中国 计算机科学 生产(经济) 汽车工程 岩土工程 政治学 生物 生态学 法学 经济 宏观经济学 算法 电气工程 复合数
作者
Bai Chongxi,Zhiheng Zhang
出处
期刊:PLOS ONE [Public Library of Science]
卷期号:19 (12): e0315765-e0315765 被引量:1
标识
DOI:10.1371/journal.pone.0315765
摘要

Current research on building carbon emissions primarily focuses on various carbon emission assessment models and the use of life cycle analysis to evaluate overall building carbon emissions, with limited attention given to excavation engineering. Based on the life cycle method and process analysis, this study analyzes carbon emissions in excavation engineering by optimizing the evaluation model for fuel consumption standards of freight vehicles during the transportation phase in China. To account for the difference between actual and rated fuel consumption of transport vehicles, factors such as road conditions, traffic congestion, and temperature are introduced to adjust the carbon emission calculation model for the transportation phase. This approach reasonably incorporates the impact of fuel consumption during vehicle idling on carbon emission calculations. Using the 02B excavation of the Beijing Sub-Center Station transportation hub as a case study to validate the proposed method, the analysis reveals that the primary source of carbon emissions in excavation engineering is earthwork transportation, accounting for 40.50% of total emissions. Among these, earthwork transportation contributes 95.28% of emissions within the transportation phase. Due to adjustments in the carbon emission calculation model for the transportation phase, carbon emissions increased by 1,226.79 tons, accounting for 9.2% of the total. The revised model provides a theoretical basis for accurately assessing carbon emissions in excavation engineering.

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