| Preparation of mixed matrix membrane with modified graphene doped polyimide for CO2 / N2 separation |
| Authors: Shang Jinghong,ZangYihua,Luo Linjun,Quan Kaidong,Sheng Chunguang,Liu Zongyuan,Li Yang,Zhang Shuyou |
| Units: 1.Tianjin Branch of CNOOC (China) Co., Ltd,Tianjin,300450, China;2.CenerTech Tianjin Chemical Research and Design Institute Co., Ltd., Tianjin 300131,China;3.PCOC NO.1 Oil Production Plant,Yan’an 716000, Shanxi,China |
| KeyWords: polyimide; CO2/N2 gas separation; graphene oxide; reduced graphene oxide; mixed matrix membrane |
| ClassificationCode:TQ028.8 |
| year,volume(issue):pagination: 2021,41(3):98-104 |
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Abstract: |
| A large amount of CO2 greenhouse gas was produced by offshore oil production platform daily. The separation and capture of CO2 greenhouse gas and its reinjection into the formation can effectively improve the liquidity of crude oil, increase the yield of crude oil, and produce considerable economic benefits and environmental protection and social benefits. However, due to the constraints of technology and cost, high-purity separation of CO2 has become one of the research hotspots. Polyimide is the most valuable gas separation membrane material at present. Because of Robeson upper limitation, the commercially available polymeric membranes often have either high permeability or high selectivity, but not two together. In this paper, polyimide was doped with self-made graphene oxide and reduced graphene oxide to prepare mixed matrix membrane, and the experimental study of CO2 / N2 gas separation was carried out. The results show that the separation performance of the prepared graphene oxide doped polyimide mixed matrix membrane (PI-GO) and reduced graphene oxide doped polyimide mixed matrix membrane (PI-rGO) is significantly improved compared with the pure polyimide membrane; the permeability coefficient and separation factor of the PI-rGO are increased by 13.52% and 24.34% respectively compared with the dry and wet gas permeability experiments. |
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AuthorIntro: |
| 尚景宏(1977-),男,河北沧州人,研究方向为海洋石油工程, |
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[1]宗杰, 马庆兰, 陈光进, 等. 二氧化碳分离捕集研究进展[J]. 现代化工, 2016, 36(11): 56-60. [2] Sainan Z , Wang M , Wei S , et al. First-row transition-metal-doped graphyne for ultrahigh-performance CO2 capture and separation over N2/CH4/H2[J]. Materials Today Physics, 2021, 16. [3] A Y H , A X Z , B F M , et al. Progress in carbon dioxide separation and capture: A review - ScienceDirect[J]. Journal of Environmental Sciences, 2008, 20(001):14-27. [4]王志, 杨东晓, 张晨昕, 等. 分离二氧化碳膜过程技术经济分析[J]. 化工进展, 2009, 28(s2): 409-410. [5] Xiao Y , Low B T , Hosseini S S , et al. The strategies of molecular architecture and modification of polyimide-based membranes for CO2 removal from natural gas—A review[J]. Progress in Polymer Science, 2009, 34(6):561-580. [6] Jie, Shen, Gongping D , et al. Membranes with Fast and Selective Gas-Transport Channels of Laminar Graphene Oxide for Efficient CO2Capture[J]. Angewandte Chemie International Edition, 2015. [7]辛清萍. 突破 Trade-off 效应的聚电解质-无机杂化膜及其 CO2分离性能强化[D]. 天津大学, 2015. [8]Wu H, Li X, Li Y, et al. Facilitated transport mixed matrix membranes incorporated with amine functionalized MCM-41 for enhanced gas separation properties[J]. Journal of membrane science, 2014, 465: 78-90. [9]Sadeghi M, Semsarzadeh M A, Barikani M, et al. Gas separation properties of polyether-based polyurethane–silica nanocomposite membranes[J]. Journal of Membrane Science, 2011, 376(1-2): 188-195. [10]Moghadam F, Omidkhah M R, Vasheghani-Farahani E, et al. The effect of TiO2 nanoparticles on gas transport properties of Matrimid5218-based mixed matrix membranes[J]. Separation and Purification Technology, 2011, 77(1): 128-136. [11]Momeni S M, Pakizeh M. Preparation, characterization and gas permeation study of PSf/MgO nanocomposite membrane[J]. Brazilian Journal of Chemical Engineering, 2013, 30(3): 589-597. [12]Kim S, Jinschek J R, Chen H, et al. Scalable fabrication of carbon nanotube/polymer nanocomposite membranes for high flux gas transport[J]. Nano letters, 2007, 7(9): 2806-2811. [13]Aroon M A, Ismail A F, Matsuura T. Beta-cyclodextrin functionalized MWCNT: a potential nano-membrane material for mixed matrix gas separation membranes development[J]. Separation and Purification Technology, 2013, 115: 39-50. [14]Li W, Zheng X, Dong Z, et al. Molecular dynamics simulations of CO2/N2 separation through two-dimensional graphene oxide membranes[J]. The Journal of Physical Chemistry C, 2016, 120(45): 26061-26066. [15]李雪琴. CO2分离膜的传递通道构建及传递过程强化[D]. 天津大学, 2015. [16] Bao‐Sheng Ge, Wang T , Hai‐Xiang Sun, et al. Preparation of mixed matrix membranes based on polyimide and aminated graphene oxide for CO2 separation[J]. Polymers for Advanced Technologies, 2018. [17]Shen J, Zhang M, Liu G, et al. Size effects of graphene oxide on mixed matrix membranes for CO2 separation[J]. AIChE Journal, 2016, 62(8): 2843-2852. [18]程诚. 功能化石墨烯/聚酰亚胺杂化膜构建及其分离性能研究[D]. 浙江工商大学, 2015. |
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