退役风机叶片回收利用技术方法分析Analysis on Recycling and Utilization Method of Retired Wind Turbine Blades
许仁辞
XU Renci
摘要(Abstract):
随着风电装机容量的不断增加,退役后风机叶片的绿色、经济回收利用技术成为全球风电产业亟待攻克的难题。为此系统阐述了国内外退役风机叶片规模以及风机叶片所用复合材料的发展趋势,分析了物理法、物理化学法、化学回收法等现有风机叶片回收利用方法和进展情况。建议制定退役风机叶片回收相关标准及政策,同时需要多行业协同推进、行业上下协调发展,并注重技术研发,以实现退役风机叶片的绿色回收利用。
With the increasing capacity of wind power, the green and economic recycling utilization method of retired wind turbine blades has become a difficult problem to be solved in the global wind power industry. This paper systematically describes the scale of retired turbine blades and the development trend of composite materials used for wind turbine blades,analyzes the existing methods and progress of recycling wind turbine blades such as physical method, physical chemical method, chemical recycling method, et al. It is suggested to formulate relevant standards and policies for the recycling of retired turbine blades, and at the same time, it is necessary to promote the coordinated development of multiple industries,and pay attention to technical research and development, so as to achieve green recycling of retired wind turbine blades.
关键词(KeyWords):
退役风机;叶片;复合材料;回收利用
retired wind turbine;blades;compound material;recycling and utilization
基金项目(Foundation):
作者(Author):
许仁辞
XU Renci
参考文献(References):
- [1]中商产业研究院.中国风电行业市场前景及投资研究报告(上)[J].电器工业,2022(1):66-76.China Commercial Industry Research Institute. China Wind Power Industry Market Outlook and Investment Research Report(Part 1)[J]. China Electrical Equipment Industry, 2022(1):66-76.
- [2]唐荆,陈啸,杨科,等.风电叶片全寿命周期性能研究[J].风能,2017(1):58-61.TANG Jing, CHEN Xiao, YANG Ke, et al. Study on the life cycle performance of wind turbine blades[J].Wind Energy, 2017(1):58-61.
- [3]常燕,王兆增,崔元胜,等.风电叶片复合材料的研究进展及其应用[J].工程塑料应用,2014,42(4):135-139.CHANG Yan, WANG Zhaozeng, CUI Yuansheng, et al.Research progress and application of wind turbine blades composites[J]. Engineering Plastics Application,2014, 42(4):135-139.
- [4]刘胜强,贺升,周益辉,等.风电叶片废弃物回收技术综述[J].中国资源综合利用,2021,11(39):109-111.LIU Shengqiang, HE Sheng, ZHOU Yihui, et al. Overview of wind turbine blade waste recycling technology[J] China Resources Comprehensive Utilization, 2021, 11(39):109-111.
- [5]于雪梅,朱晓华,刘卫生,等.废弃风电叶片切割装置设计及破碎料的应用[J].工程塑料应用,2018,46(6):60-64.YU Xuemei, ZHU Xiaohua, LIU Weisheng, et al.Design of waste wind turbine blade cutting device and application of crushed materials[J]. Engineering Plastics Application, 2018, 46(6):60-64.
- [6]全球风能理事会.全球风电报告2021[R].布鲁塞尔:全球风能理事会,2021.
- [7]中商产业研究院.中国风电行业市场前景及投资研究报告(下)[J].电器工业,2022(2):69-74.China Commercial Industry Research Institute. China Wind Power Industry Market Outlook and Investment Research Report(II)[J]. China Electrical Equipment Industry, 2022(2):69-74.
- [8]纪志国.我国风电产业现状与发展趋势探究[J].中国设备工程,2020(18):217-218.JI Zhiguo. Research on the Current Situation and Development Trend of China's Wind Power Industry[J]. China Plant Engineering, 2020(18):217-218.
- [9]安保山,王慧军,孙利.未来退役风电叶片的回收和利用[J].工程塑料应用,2011,39(6):98-101.AN Baoshan, WANG Huijun, SUN Li. Recovery and utilization of future retired wind turbine blades[J].Engineering Plastics Application, 2011, 39(6):98-101.
- [10]万佳,钟智丽,张肖,等.纤维增强树脂基复合材料在风机叶片的应用研究[J].纺织科技进展,2018(1):6-8.WAN Jia, ZHONG Zhili, ZHANG Xiao, et al.Research on the application of fiber reinforced resin matrix composites in fan blades[J]. Progress in Textile Science&Technology, 2018(1):6-8.
- [11]刘庆,聂忆华,龙雷翔,等.废风机叶片材料回收再利用现状及前景分析[J].广东建材,2022(4):22-24.LIU Qing, NIE Yihua, LONG Leixiang, et al. Current situation and prospect analysis of waste fan blade material recycling[J]. Guangdong Building Materials, 2022(4):22-24.
- [12] Ding A, Li S, Wang J, et al. A new analytical solution for spring-in of curved composite parts[J]. Composites Science and Technology, 2017(142):30-40.
- [13]于海宁,高长星,王艳华.碳纤维增强树脂基复合材料的应用及展望[J].合肥纤维工业,2020(1):55-59.YU Haining, GAO Changxing, WANG Yanhua. Application and prospect of carbon fiber reinforced resin matrix composites[J]. Hefei Fiber Industry, 2020(1):55-59.
- [14]徐佳,孙超明.树脂基复合材料废弃物的回收利用技术[J].玻璃钢/复合材料,2009(4):100-103.XU Jia, SUN Chaoming. Recycling technology of resin matrix composite waste[J]. FRP/composite, 2009(4):100-103.
- [15]胡辰玮,李彬,吴玉锋,等.废有机-无机复合材料热解回收技术现状与展望[J].材料导报,2021(21):91-98.HU Chenwei, LI Bin, WU Yufeng, et al. Status quo and prospect of waste organic inorganic composite pyrolysis recovery technology[J]. Materials Reports,2021(21):91-98.
- [16] Jiang G, Wong KH, Pickering SJ, et a1. Alignment of Recycled Carbon FibreandIts Applicationasa Reinforcement[C]//38th SAMPE Fall Technical Conference:Global Advances in Materials and Process Engineering.Dallas:2006.
- [17]任彦.碳纤维复合材料的回收与利用[J].新材料产业,2014(8):19-22.REN Yan. Recycling and utilization of carbon fiber composites[J]. New Material Industry, 2014(8):19-22.
- [18] Pifiero Hernanz R, Dodds C, Hyde J, et a1. Chemical Recycling of Carbon Fibre Reinforced Composites in Nearcritical and Supercritical Water[J]. Composites,Part A:Applied Science and Manufacturing. 2008, 39(3):454-461.
- [19]许冬梅,张兴,林荆涛.废旧热固性复合材料绿色回收利用关键技术研究[J].环境保护,2019(20):54-56.XU Dongmei, ZHANG Xing, LIN Jingtao. Research on key technologies for green recycling of waste thermosetting composites[J]. Environmental Protection,2019(20):54-56.
- [20]赵靓.做好叶片回收利用,打通风电绿色循环路径[J].风能,2022(3):22-24.