PETER S C . Reduction of CO 2 to chemicals and fuels: A solution to global warming and energy crisis [J ] . ACS Energy Letters , 2018 , 3 ( 7 ): 1557 - 61 .

杨斌彬 , 何丽燕 , 梁家榞 , 等 . 非二氧化碳温室气体管控政策与减排技术研究综述 [J ] . 广东化工 , 2023 , 50 ( 3 ): 116 - 119 .

YANG B B , HE L Y , LIANG J Y , et al . Non-CO 2 greenhouse gas control policies and emission reduction technologies: A review [J ] . Guangdong Chemical Industry , 2023 , 50 ( 3 ): 116 - 119 .

张艳利 , 黄晓晴 , 王仪 , 等 . 中国消耗臭氧层物质和含氟温室气体研究进展 [J ] . 矿物岩石地球化学通报 , 2024 , 43 ( 5 ): 921 - 945 .

ZHANG Y L , HUANG X Q , WANG Y , et al . A review of ozone-depleting substances and fluorinated greenhouse gases in China [J ] . Bulletin of Mineralogy, Petrology and Geochemistry , 2024 , 43 ( 5 ): 921 - 945 .

SOVACOOL B K , GRIFFITHS S , KIM J S , et al . Climate change and industrial F-gases: A critical and systematic review of developments, sociotechnical systems and policy options for reducing synthetic greenhouse gas emissions [J ] . Renewable and Sustainable Energy Reviews , 2021 , 141 ( 3 ): 110759 .

LI J R , KUPPLER R J , ZHOU H C . Selective gas adsorption and separation in metal-organic frameworks [J ] . Chemical Society Reviews , 2009 , 38 , 1477 - 1504 .

刘春燕 , 刘凯 . 深冷分离技术在气体分离中的应用研究 [J ] . 石化技术 , 2024 , 31 ( 7 ): 213 - 215 .

LIU C Y , LIU K . Research on the application of deep-cooling separation technology in gas separation [J ] . Petrochemical Industry Technology , 2024 , 31 ( 7 ): 213 - 215 .

CHUAH C Y , LEE Y , BAE T H . Potential of adsorbents and membranes for SF 6 capture and recovery: A review [J ] . Chemical Engineering Journal , 2021 , 404 : 126577 .

CHEN S R , SHEN Y H , GUAN Z B , et al . Adsorption properties of SF 6 on zeolite NaY, 13X, activated carbon, and silica gel [J ] . Journal of Chemical & Engineering Data , 2020 , 65 ( 8 ): 4044 - 4051 .

LI S , ZHU S P , ZHOU Q , et al . Adsorption mechanism of decomposition gas of SF 6 circuit breaker on MOF-505 analogue [J ] . Vacuum , 2021 , 183 ( 1 ): 109816 .

SKARMOUTSOS I , KOUKARAS E N , GALIOTIS C , et al . Porous carbon nanotube networks and pillared graphene materials exhibiting high SF 6 adsorption uptake and separation selectivity of SF 6 /N 2 fluid mixtures: A comparative molecular simulation study [J ] . Microporous and Mesoporous Materials , 2020 , 307 : 110464 .

WANG S M , LAN H L , GUAN G W , et al . Amino-functionalized microporous MOFs for capturing greenhouse gases CF 4 and NF 3 with record selectivity [J ] . ACS Applied Materials & Interfaces , 2022 , 14 ( 35 ): 40072 - 40081 .

MU Y B , CHEN H H , XIANG H , et al . Defects-healing of SAPO-34 membrane by post-synthesis modification using organosilica for selective CO 2 separation [J ] . Journal of Membrane Science , 2019 , 575 : 80 - 88

胡凡 , 钟建铭 , 张宇 , 等 . 聚酰亚胺气体分离膜材料的结构与性能 [J ] . 高分子通报 , 2023 , 36 ( 8 ): 941 - 958 .

HU F , ZHONG J Y , ZHNAG Y , et al . Structures and properties of polyimide materials for membrane-based gas separation [J ] . Polymer Bulletin , 2023 , 36 ( 8 ): 941 - 958 .

赵辉 . 气体分离膜技术及其在石油化工领域的应用 [J ] . 石油化工 , 2023 , 52 ( 3 ): 412 - 417 .

ZHAO H . Gas separation membrane technology and its application in petrochemical industry [J ] . Petrochemical Technology , 2023 , 52 ( 3 ): 412 - 417 .

高克利 , 杨圆 , 周文俊 , 等 . SF 6 替代型环保绝缘气体: 研究、应用和展望 [J ] . 中国电机工程学报 , 2024 , 44 ( 18 ): 7395 - 7412 .

GAO K L , YANG Y , ZHOU W J , et al . SF 6 alternative environmentally friendly insulating gas: Research, application and outlook [J ] . Proceedings of the CSEE , 2024 , 44 ( 18 ): 7395 - 7412 .

陈雨亭 . 金属-有机框架及其成型材料吸附分离低浓度六氟化硫研究 [D ] . 杭州 : 浙江大学 , 2022 .

CHENG Y T . Study on adsorption separation of low concentration SF 6 on metal-organic frameworks and its shaping materials [D ] . Hangzhou : Zhejiang University , 2022 .

LI X W , ZHAO H , MURPHY A B . SF 6 -alternative gases for application in gas-insulated switchgear [J ] . Journal of Physics D: Applied Physics , 2018 , 51 ( 15 ): 115037 .

KIM K , KIM K S , LEE J E , et al . Status of SF 6 separation/refining technology development for electric industry in Korea [J ] . Separation and Purification Technology , 2018 , 200 : 29 - 35 .

KIM M B , YOON T U , HONG D Y , et al . High SF 6 /N 2 selectivity in a hydrothermally stable zirconium-based metal-organic framework [J ] . Chemical Engineering Journal , 2015 , 276 : 315 - 321 .

钟桂云 , 高林娜 , 吁苏云 , 等 . 膜法分离N 2 /SF 6 气体研究进展 [J ] . 浙江化工 , 2024 , 55 ( 9 ): 25 - 29 .

ZHONG G Y , GAO L N , YU S Y , et al . Research progress on membrane separation of N 2 /SF 6 gas [J ] . Zhejiang Chemical Industry , 2024 , 55 ( 9 ): 25 - 29 .

KIM M B , KIM K M , KIM T H , et al . Highly selective adsorption of SF 6 over N 2 in a bromine-functionalized zirconium-based metal-organic framework [J ] . Chemical Engineering Journal , 2018 , 339 : 223 - 229 .

YAMAMOTO O , TAKUMA T , KINOUCHI M . Recovery of SF 6 from N 2 /SF 6 gas mixtures by using a polymer membrane [J ] . IEEE Electrical Insulation Magazine , 2002 , 18 ( 3 ): 32 - 37 .

WOLIŃSKA-GRABCZYK A , JANKOWSKI A , SEKUŁA R , et al . Separation of SF 6 from binary mixtures with N 2 using commercial poly(4-methyl-1-pentene) films [J ] . Separation Science and Technology , 2011 , 46 ( 8 ): 1231 - 1240 .

LEE S J , LEE J S , LEE M W , et al . Separation of sulfur hexafluoride (SF 6 ) from ternary gas mixtures using commercial polysulfone (PSf) hollow fiber membranes [J ] . Journal of Membrane Science , 2014 , 452 : 311 - 318 .

CHOI J W , LEE S J , AN B , et al . Separation of sulfur hexafluoride from a nitrogen/sulfur hexafluoride mixture using a polymer hollow fiber membrane [J ] . Water , Air, & Soil Pollution, 2014 , 225 ( 2 ): 1807 .

LI Q , GUO M G , HE G H , et al . Movable membrane-based separation system with high SF 6 retention for large-scale gas-insulated transmission lines during maintenance [J ] . Separation and Purification Technology , 2021 , 264 : 118438 .

KIM D H , KO Y H , KIM T H , et al . Separation of N 2 /SF 6 binary mixtures using polyethersulfone (PESf) hollow fiber membrane [J ] . Korean Journal of Chemical Engineering , 2012 , 29 ( 8 ): 1081 - 1085 .

LEE W G , KANG S W . Highly selective polymer electrolyte membranes consisting of poly(2-ethyl-2-oxazoline) and Cu(NO 3 ) 2 for SF 6 separation [J ] . Scientific Reports , 2016 , 6 ( 1 ): 20430 .

DAI Y , LI Q , RUAN X H , et al . Fabrication of defect-free Matrimid ® asymmetric membranes and the elevated temperature application for N 2 /SF 6 separation [J ] . Journal of Membrane Science , 2019 , 577 : 258 - 265 .

NOURI A , JAFARI M , KAZMINMOGHADAM M , et al . Potential separation of SF 6 from air usi ng chabazite zeolite membranes [J ] . Chemical Engineering & Technology , 2014 , 37 ( 2 ): 317 - 324 .

ZHANG H X , OH Y J , TIKUE E T , et al . Enrichment of spent SF 6 gas by zeolite membranes for direct reuse in gas-insulated switchgear units [J ] . Separation and Purification Technology , 2022 , 303 : 122223 .

ZHU G H , ZHANG F Y , RIVERA P . Met al. Molecularly mixed composite membranes for advanced separation processes [J ] . Angewandte Chemie International Edition , 2019 , 58( 9 ) 2638 - 2643 .

周言 , 钟强 , 刘倩 , 等 . NF 3 与CF 4 分离纯化技术路线研究进展 [J ] . 应用化工 , 2023 , 52 ( 1 ): 266 - 272 .

ZHOU Y , ZHONG Q , LIU Q , et al . Progress on technology route for separation and purification of NF 3 and CF 4 [J ] . Applied Chemical Industry , 2023 , 52 ( 1 ): 266 - 272 .

邹震雷 , 李和寅 , 黄梦君 , 等 . 关于惰性含氟温室气体转化与利用的研究进展 [J ] . 有机化学 , 2024 , 44 ( 6 ): 1831 - 1852 .

ZOU Z L , LI H Y , HUANG M J , et al . Recent advances in conversion and use of inert fluorinated greenhouse gases [J ] .

Chinese Journal of Organic Chemistry , 2024 , 44 ( 6 ): 1831 - 1852 .

尹强 , 许俊斌 , 周瑾艳 , 等 . 三氟化氮气体的制备及纯化方法综述 [J ] . 广东化工 , 2019 , 46 ( 8 ): 112 - 113 .

YIN Q , XU J B , ZHOU J Y , et al . Preparation and purification of nitrogen trifluoride [J ] . Guangdong Chemical Industry , 2019 , 46 ( 8 ): 112 - 113 .

KIM H S , KIM E Y , LEE P S . Study of the enrichment of NF 3 waste gas using zeolite and polymeric membranes [J ] . Separation and Purification Technology , 2019 , 220 : 1 - 7 .

LEE P S , LIM M S , PARK A , et al . A zeolite membrane module composed of SAPO-34 hollow fibers for use in fluorinated gas enrichment [J ] . Journal of Membrane Science , 2017 , 542 : 123 - 132 .

PARK S H , KANG W R , KWON H T , et al . The polymeric upper bound for N 2 /NF 3 separation and beyond; ZIF-8 containing mixed matrix membranes [J ] . Journal of Membrane Science , 2015 , 486 : 29 - 39 .

KIM S J , PARK Y I , NAM S-E , et al . Separations of F-gases from nitrogen through thin carbon membranes [J ] . Separation and Purification Technology , 2016 , 158 : 108 - 114 .

张宇婷 . 铝电解生产过程全氟化碳排放现状与分析 [J ] . 绿色矿冶 , 2023 , 39 ( 4 ): 36 - 40 .

ZHANG Y T . Current situation and analysis of perfluorocarbon emissions from aluminum electrolysis production process [J ] . Sustainable Mining and Metallurgy , 2023 , 39 ( 4 ): 36 - 40 .

相震 . 减排全氟化碳应对全球气候变化 [J ] . 三峡环境与生态 , 2011 , 33 ( 4 ): 15 - 18 .

XIANG Z . PFCs emission reduction to deal with the global climate change [J ] . Environment and Ecology in the Three Gorges , 2011 , 33 ( 4 ): 15 - 18 .

TRUDINGER C M , FRASER P J , ETHERIDGE D M , et al . Atmospheric abundance and global emissions of perfluorocarbons CF 4 , C 2 F 6 and C 3 F 8 since 1800 inferred from ice core, firn, air archive and in situ measurements [J ] . Atmospheric Chemistry and Physics , 2016 , 16 : 11733 - 11754 .

曹军 , 汪琦 , 徐政 , 等 . 我国环境空气中温室气体监测技术研究进展 [J ] . 环境监控与预警 , 2022 , 14 ( 1 ): 1 - 6 .

CAO J , WANG Q , XU Z , et al . Research progress in monitoring technology for atmospheric greenhouse gases in China [J ] . Environmental Monitoring and Forewarning , 2022 , 14 ( 1 ): 1 - 6 .

宋彦敏 , 周连宁 , 郝文龙 , 等 . 全氟化合物的污染现状及国内外研究进展 [J ] . 环境工程 2017 , 35 ( 10 ): 82 - 86 .

SONG Y M , ZHOU L N , HAO W L , et al . Pollution status and related research progress of perfluorinated compounds [J ] . Environmental Engineering . 2017 , 35 ( 10 ): 82 - 86 .

夏萌 . 电解铝生产温室气体减排对策研究 [D ] . 北京 : 清华大学 , 2014 .

XIA M . Reasearch on greenhouse gases reduction countermeasures of aluminum production [D ] . Beijing : Tsinghua University , 2014 .

WIJMANS J G , HE Z , SU T T , et al . Recovery of perfluoroethane from chemical vapor deposition operations in the semiconductor industry [J ] . Separation and Purification Technology 2004 , 35 ( 3 ): 203 - 213 .

BISSETT H , KRIEG H M . Synthesis of a composite inorganic membrane for the separation of nitrogen, tetrafluoromethane and hexafluoropropylene [J ] . South African Journal of Science , 2013 , 109 ( 9/10 ): 20130028 .

王术成 , 刘武灿 , 周飞翔 , 等 . 温室气体三氟甲烷资源化转化技术研究进展 [J ] . 应用化工 , 2021 , 50 ( 4 ): 1118 - 1123 .

WANG S C , LIU W C , ZHOU F X , et al . Research progress on resource utilization of potent greenhouse CHF 3 gas [J ] . Applied Chemical Industry , 2021 , 50 ( 4 ): 1118 - 1123 .

蒲雨灵 . 低共熔溶剂分离氯化氢和三氟甲烷气体的性能研究 [D ] . 北京 : 北京化工大学 , 2023 .

PU Y L . On absorptive separation of HCl and trifluoromethane by deep eutectic solvents [D ] . Beijing : Beijing University of Chemical Technology , 2023 .

程伟 . 二氟一氯甲烷合成装置中三氟甲烷的精制回收工艺研究 [J ] . 有机氟工业 , 2022 , ( 2 ): 23 - 25 .

CHENG W . Study on purification and recovery process of trifluoromethane in difluorochloromethane synthesis unit [J ] .

Organic-Fluorine Industry , 2022 , ( 2 ): 23 - 25 .

MCCULLOH A , MIDGLEY P M , LINDLEY A A . Recent changes in the production and global atmospheric emissions of chlorodifluoromethane (HCFC-22) [J ] . Atmospheric Environment , 2006 , 40 ( 5 ): 936 - 942 .

王跃 . 膜法分离二氟一氯甲烷/三氟甲烷混合气的研究 [D ] . 大连理工大学 , 2008 .

WANG Y . Study on the separation of HCHC-22/HFC-23 gas mixture by membrane [D ] . Dalian : Dalian University of

Technology , 2008 .

RUAN X H , DAI Y , DU L , et al . Further separation of HFC-23 and HCFC-22 by coupling multi-stage PDMS membrane unit to cryogenic distillation [J ] . Separation & Purification Technology , 2015 , 156 : 673 - 682 .