基于工段模块化的真丝丝巾产品碳足迹核算与评价  被引量：1

作　　者：张佳艺 许文强 李昕 王来力[4] 吴雄英[1,5] 丁雪梅 ZHANG Jiayi;XU Wenqiang;LI Xin;WANG Laili;WU Xiongying;DING Xuemei(College of Fashion and Design,Donghua University,Shanghai 200051,China;Key Laboratory of Clothing Design and Technology,Ministry of Education,Donghua University,Shanghai 200051,China;Hangzhou WensliSilk Culture Co.,Ltd.,Hangzhou 310002,China;School of Fashion Design&Engineering,Zhejiang Sci-Tech University,Hangzhou 310018,China;Shanghai Customs,Shanghai 200135,China)

机构地区：[1]东华大学服装与艺术设计学院,上海200051 [2]东华大学现代服装设计与技术教育部重点实验室,上海200051 [3]杭州万事利丝绸文化股份有限公司,杭州310002 [4]浙江理工大学服装学院,杭州310018 [5]上海海关,上海200135

出　　处：《现代纺织技术》2024年第9期91-98,共8页Advanced Textile Technology

基　　金：上海市设计学IV类高峰学科资助项目-服装科技创新研究团队(DD18005);上海市科委技术委员会项目(21640770300)。

摘　　要：为帮助丝绸企业快速、清晰地了解产品的减排空间,并推动全产业链绿色低碳发展,基于工段模块化碳足迹核算方法,对两款丝巾产品(斜纹绸和素绉缎)在两种缫丝工艺下的工业碳足迹进行核算与评价,并分析产品款式和加工工艺对碳足迹结果的影响。结果表明:真丝斜纹绸丝巾产品碳足迹为12.02 kgCO_(2)e/条(缫丝工艺1)和11.58 kgCO_(2)e/条(缫丝工艺2),真丝素绉缎丝巾产品碳足迹为5.43 kgCO_(2)e/条(缫丝工艺1)和5.28 kgCO_(2)e/条(缫丝工艺2)。采用缫丝工艺2的产品碳足迹结果为采用缫丝工艺1的96.31%~97.27%,其差异源于原料消耗量以及供应商能源结构的不同。两款丝巾产品的印花工段碳足迹贡献最大,约为产品碳足迹的43.76%~54.87%;真丝素绉缎丝巾产品包装工段碳足迹贡献超过缫丝工段,仅次于印花工段,原因是素绉缎丝巾尺寸规格更小,同重量下比真丝斜纹绸丝巾消耗更多包装材料。基于工段模块化的真丝丝巾产品碳足迹核算方法可用于快速核算类似产品的碳足迹,分析款式和工艺差异对产品碳足迹的影响,为产品设计阶段降碳和供应链减排提供参考。Most of the current studies focus on the carbon footprint of raw materials or semi-finished products,and do not specifically study consumer-oriented products.Therefore,enterprises lack a basis for comparison in terms of product design and supply chain integration.To help silk enterprises quickly and clearly understand the potential for emission reduction in production,and to promote the green and low-carbon development of the whole industrial chain,this paper,based on the method of modular carbon footprint accounting of workshop sections,calculates and assesses the industrial carbon footprint of two types of mulberry silk scarves(twill fabric 88×88 cm and crepe satin fabric 51×51 cm)under two silk reeling processes(from silk reeling enterprises 1 and 2),and analyzes the impact of product style and processing technology on the product carbon footprint results.The results show that the carbon footprint of silk twill scarf products under the first silk reeling process is 12.02 kgCO_(2)e/piece,while that under the second silk reeling process is 11.58 kgCO_(2)e/piece.The carbon footprint of silk crepe satin scarf product under the first silk reeling process is 5.43 kgCO_(2)e/piece,while that under the second silk reeling process is 5.28 kgCO_(2)e/piece.The carbon footprint of the product using the second silk reeling process is 96.31%-97.27%of that using the first silk reeling process,and the difference is due to raw material consumption and suppliers'energy structure.The carbon footprint contribution of the printing section of the two silk scarf products is the largest,accounting for approximately 43.76%-54.87%of the products'carbon footprint.The carbon footprint contribution of the packaging section of the crepe satin silk scarf product exceeds that of the silk reeling section,second only to the printing section.The reason is that the crepe satin silk scarf is smaller,and it consumes more packaging materials than the twill silk scarf under the same weight.Steam is the largest source of carbon footprint for the two

关 键 词：纺织服装产品 丝巾产品 模块化碳足迹核算方法 碳足迹核算与评价 

分 类 号：TS941[轻工技术与工程—服装设计与工程]