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探讨了酸性溶液单独以及与臭氧协同作用对磷酸铁锂正极材料分离效果的影响。引入特定浓度的臭氧能有效诱发过氧化氢(H_2O2)的产生,赋予其极强的氧化能力,进而能够与聚偏氟乙烯(PVDF)结构中的氟基团发生键合反应,形成含氢氟酸(HF)的化合物,使PVDF失去原有的黏结性,更有利于活性材料的高效分离。与传统的回收手段相比,这种新型的臭氧化方法不仅操作简便、安全性高,还具有显著的环保优势和成本效益。
Abstract:The effect of acid solution alone and synergistic with ozone on the separation of lithium iron phosphate cathode material was discussed. The introduction of a specific concentration of ozone can effectively induce the generation of hydrogen peroxide(H_2O2), giving it a strong oxidation ability, and then it can bond with the fluorine groups in the structure of polyvinylidene fluoride(PVDF)to form a compound containing hydrofluoric acid(HF), so that PVDF loses its original bonding property, and is more conducive to the efficient separation of active materials.Compared with traditional recycling methods,this new ozonization method is not only simple and safe,but also has significant environmental advantages and cost effectiveness.
[1]SHEN W,HAN W J,WALLINGTON T J,et al.China electricity generation greenhouse gas emission intensity in 2030:implications for electric vehicles[J].Environmental Science and Technology,2019,53(10):6063-6072.
[2]杨芳,吴正斌,徐亚威,等.废旧动力磷酸铁锂电池资源化回收技术研究进展[J].有色金属(冶炼部分),2017(12):53-56.YANG F,WU Z B,XU Y W,et al.Research progress on resource recovery technology for spent lithium iron phosphate power batteries[J].Nonferrous Metals(Extractive Metallurgy),2017(12):53-56.
[3]吴一帆,胡书春,刘卓琳,等.退役动力磷酸铁锂电池的回收工艺研究进展[J].材料科学,2023,13(7):703-711.WU Y F,HU S C,LIU Z L,et al.Research progress on the recycling process of retired lithium iron phosphate power batteries[J].Materials Science,2023,13(7):703-711.
[4]钟雪虎.废旧磷酸铁锂电池资源回收与正极材料修复再生基础研究[D].长沙:中南大学,2023.ZHONG X H.Fundamental research on resource recovery and regeneration of cathode materials from spent lithium iron phosphate batteries[D].Changsha:Central South University,2023.
[5]DALINI E A,KARIMI G R,ZANDVAKILI S,et al.A review on environmental,economic and hydrometallurgical processes of recycling spent lithium-ion batteries[J].Mineral Processing and Extractive Metallurgy Review,2020,197:1-22.
[6]CHEN X P,GUO C X,MA H,et al.Organic reductants based leaching:a sustainable process for the recovery of valuable metals from spent lithium ion batteries[J].Waste Management,2018,75:459-468.
[7]CAO Z Q,ZHENG X H,CAO H B,et al.Efficient reuse of anode scrap from lithium-ion batteries as cathode for pollutant degradation in electro-Fenton process:role of different recovery processes[J].Chemical Engineering Journal,2018,337:256-264.
[8]张千玉,李博,康诗飞,等.有机溶剂浸泡法回收再利用锂电池钛酸锂负极材料[J].新能源进展,2014,2(5):403-406.ZHANG Q Y,LI B,KANG S F,et al.Recovery and reuse of lithium titanate anode materials from lithium batteries by organic solvent soaking method[J].Progress in New Energy,2014,2(5):403-406.
[9]李强,陈若葵,唐红辉,等,淬火法分离正极粉末和铝集流体的研究[J].矿冶工程,2019,39(1):128-131.LI Q,CHEN R K,TANG H H,et al.Research on the separation of cathode powder and aluminum current collector by quenching method[J].Mining and Metallurgical Engineering,2019,39(1):128-131.
[10]NIE H H,XU L,SONG D W,et al.Li Co O2:recycling from spent batteries and regeneration with solid state synthesis[J].Green Chemistry,2015,17(2):1276-1280.
[11]卫寿平,孙杰,周添,等.废旧锂离子电池中金属材料回收技术研究进展[J].储能科学与技术,2017,6(6):1196-1207.WEI S P,SUN J,ZHOU T,et al.Research progress on metal material recovery technology from spent lithium-ion batteries[J].Energy Storage Science and Technology,2017,6(6):1196-1207.
[12]WANG J X,ZHANG Q,SHENG J Z,et al.Direct and green repairing of degraded Li Co O2 for reuse in lithium-ion batteries[J/OL].National Science Review,2022,9:nwac097.https://doi.org/10.1093/nsr/nwac097.
[13]ROY J J,RAROTRA S,KRIKSTOLAITYTE V,et al.Green recycling methods to treat lithium-ion batteries e-waste:a circularapproach to sustainability[J].Advanced Materials,2022,34(25):2103346.DOI:10.1002/adma.202103346.
[14]YAO Y L,ZHU M Y,ZHAO Z,et al.Hydrometallurgical processes for recycling spent lithium-ion batteries:a critical review[J].ACSSustainable Chemistry&Engineering,2018,6(11):13611-13627.
[15]MAYYAS A,STEWARD D,MANN M.The case for recycling:overview and challenges in the material supply chain for automotive li-ion batteries[J].Sustainable Materials and Technologies,2019,19:e00087.DOI:10.1016/j.susmat.2018.e00087.
[16]宋秀玲,戴书琪,徐永胜,等.废旧锂电池放电的实验研究[J].应用化工,2015(4):594-597.SONG X L,DAI S Q,XU Y S,et al.Experimental study on discharging of spent lithium batteries[J].Applied Chemical Industry,2015(4):594-597.
[17]OJANEN S,LUNDSTR?M M,SANTASALO-AARNIO A,et al.Challenging the concept of electrochemical discharge using salt solutions for lithium-ion batteries recycling[J].Waste Management,2018,76:242-249.
[18]YAO L P,ZENG Q,QI T,et al.An environmentally friendly discharge technology to pretreat spent lithiumion batteries[J].Journal of Cleaner Production,2019,245(3):118820.DOI:10.1016/j.jclepro.2019.118820.
[19]HE L P,SUN S Y,MU Y Y,et al.Recovery of lithium,nickel,cobalt,and manganese from spent lithium-ion batteries using l-tartaric acid as a leachant[J].ACS Sustainable Chemistry&Engineering,2017,5(1):714-721.
[20]KUMAR J,SHEN X,LI B,et al.Selective recovery of Li and Fe PO4 from spent Li Fe PO4 cathode scraps by organic acids and the properties of the regenerated Li Fe PO4[J].Waste Management,2020,113:32-40.
[21]CHEN X P,LI S Z,WANG Y,et al.Recycling of Li Fe PO4 cathode materials from spent lithium-ion batteries through ultrasound-assisted Fenton reaction and lithium compensation[J].Waste Management,2021,136:67-75.
[22]FLORES R,BLASS G,DOMINGUEZ V.Soil remediation by an advanced oxidative method assisted with ultrasonic energy[J].Journal of Hazardous Materials,2007,140(1/2):399-402.
[23]CHEN X P,LI S Z,WU X,et al.In-situ recycling of coating materials and Al foils from spent lithium ion batteries by ultrasonic-assisted acid scrubbing[J].Journal of Cleaner Production,2020,258:120943.DOI:10.1016/j.jclepro.2020.120943.
基本信息:
DOI:10.20237/j.issn.1007-7545.2025.01.016
中图分类号:TQ028;TM912;TQ131.11
引用信息:
[1]李帅波,陈英豪,刘星雨,等.基于臭氧化法的磷酸铁锂正极材料与集流体高效分离技术研究[J].有色金属(冶炼部分),2025(01):119-125+171.DOI:10.20237/j.issn.1007-7545.2025.01.016.
基金信息:
2022年安徽省科技重大专项(2022e03020004); 2022年安徽省教育厅自然重点项目(2022AH051788)
2024-07-05
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