基于文献计量分析的建筑施工阶段碳减排策略研究
(1.中铁十五局集团有限公司,上海 200070;2.中铁十五局集团城市建设工程有限公司,河南 洛阳 471000;3.中国矿业大学(北京),北京 100083)
- 文献要素
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摘要:通过CiteSpace软件,对2000年以来的相关文献进行系统分析。首先通过对不同阶段发文数量、关键词聚类与趋势等进行分析,整理得出国内外学者关于建筑施工阶段碳减排研究的热点;再通过研究热点、高频词变化与趋向,梳理理论界对该领域节能重点领域、关键技术与管理措施的关注,据此进一步分析并提出建筑施工阶段碳减排策略,包括运输过程碳减排策略和施工安装过程碳减排策略,以助力我国建筑节能减排工作的开展。关键词:建筑节能;建筑施工阶段;碳排放;CiteSpace;碳减排策略Abstract:Conduct a systematic analysis of relevant literature since 2000 using CiteSpace software. Firstly,by analyzing the number of publications,keyword clustering,and trends at different stages,the hot topics of research on carbon reduction in the construction phase by scholars both domestically and internationally were identified;By studying hot topics,high-frequency word changes and trends,this paper sorted out the academic community's concerns about key energy-saving areas,key technologies,and management measures in this field. Based on this,further carbon reduction strategies for the construction phase are proposed,including carbon reduction strategies for the transportation and construction and installation processes,in order to assist in the development of building energy conservation and emission reduction work in China.Keywords:building energy efficiency;building construction phase;carbon emissions;CiteSpace;carbon reduction strategy参考文献[1] Akbarnezhad A.,Xiao J. Estimation and Minimization of Embodied Carbon of Buildings:A Review[J]. Buildings,2017(4).[2] Kong,A.,Kang,H.,He,S,etal. Study on the Carbon Emissions in the Whole Construction Process of Prefabricated Floor Slab[J]. Applied Sciences,2020(10).[3] Victoria,M.F.,Perera,S. Managing Embodied Carbon in Buildings:A Pareto Approach[J]. Built Environment Project and Asset Management,2018(8).[4] Fang,Y.,Ng,S.T.,Ma,Z,etal. Quota-Based Carbon Tracing Model for Construction Processes in China[J]. Journal of Cleaner Production,2018(200).[5] Sandanayake,M.,Zhang,G.,Setunge,S.,etal. Estimation and Comparison of Environmental Emissions and Impacts at Foundation and Structure Construction Stages of a Building—A Case Study[J]. Journal of Cleaner Production,2017(151).[6] Maués,L.M.,Beltr?o,N.,Silva,I. GHG Emissions Assessment of Civil Construction Waste Disposal and Transportation Process in the Eastern Amazon[J]. Sustainability,2021(13).[7] Sizirici,B.,Fseha,Y.,Cho,C.S.,etal. A Review of Carbon Footprint Reduction in Construction Industry,from Design to Operation[J]. Materials,2021(14).[8] Ding,Z.,Liu,S.,Luo,L.,etal. A Building Information Modeling-Based Carbon Emission Measurement System for Prefabricated Residential Buildings during the Materialization Phase[J]. Journal of Cleaner Production,2020(264).[9] Carmichael,D.G.,Mustaffa,N.K.,Shen,X. A Utility Measure of Attitudes to Lower-Emissions Production in Construction[J]. Journal of Cleaner Production,2018(202).[10] Shau,H.J.,Liu,T.Y.,Chen,P.H.,etal. Sustainability Practices for the Suhua Highway Improvement Project in Taiwan[J]. International Journal of Civil Engineering,2019(17).[11] Szamocki,N.,Kim,M.K.,Ahn C.,R.,etal. Reducing Greenhouse Gas Emission of Construction Equipment on Construction Sites:A Field Study Approach[J]. American Society of Civil Engineers,2019(145).[12] Liu,J. Financial Promotion for Low Carbon Project Implementation Using Public-Private Partnerships(PPPs)during Highway Construction[J]. American Society of Civil Engineers,2017.[13] Liu,J.,Li,Y.,Wang,Z. The Potential for Carbon Reduction in Construction Waste Sorting:A Dynamic Simulation[J]. Energy,2023(275).建筑经济,2024(9):85-92