Hydrogen-bonded polyamide 6/Zr-MOF mixed matrix membranes for efficient natural gas dehydration

被引：26

作者：

Wang, Ruolin ^{[1
]}

Zhang, Ying ^{[1
,2
]}

Xie, Xiaoxue ^{[1
]}

Song, Qingxiang ^{[3
]}

Liu, Pengxiao ^{[3
]}

Liu, Yu ^{[1
]}

Zhang, Xiaocan ^{[2
,3
]}

机构：

[1] China Univ Petr, Coll New Energy & Mat, Dept Mat Sci & Engn, 18 Fuxue Rd, Beijing 102249, Peoples R China

[2] China Univ Petr, State Key Lab Heavy Oil Proc, 18 Fuxue Rd, Beijing 102249, Peoples R China

[3] China Univ Petr, Coll Sci, 18 Fuxue Rd, Beijing 102249, Peoples R China

来源：

FUEL | 2021年 / 285卷

基金：

中国国家自然科学基金;

关键词：

Hydrogen-bonded mixed matrix membrane; Natural gas dehydration; Zr-MOF; Polyamide; 6; METAL-ORGANIC FRAMEWORKS; ADSORPTIVE REMOVAL; MODEL FUEL; SEPARATION; PERFORMANCE; QUINOLINE; INDOLE; PERVAPORATION; POLYMERS; MMMS;

D O I：

10.1016/j.fuel.2020.119161

中图分类号：

TE [石油、天然气工业]; TK [能源与动力工程];

学科分类号：

0807 ; 0820 ;

摘要：

New types of mixed matrix membranes (MMMs) were fabricated by incorporating Zr-MOF (UiO-66-NH2 and UiO66-NH3+Cl-) filler into polyamide 6 (PA 6) polymer, enabling efficient natural gas dehydration. All membranes were characterized and applied for H2O/CH4 mixtures separation at 1 bar pressure difference at 30 degrees C. It was found that the Zr-MOF nanoparticles in a size range of 0.4-0.5 mu m were successfully incorporated into the high permeability polymer PA 6 to obtain MMMs with 10-30 wt% particle loadings. MMMs loaded with 25 wt% of UiO-66-NH3+Cl- and 20 wt% of UiO-66-NH2 demonstrated ultrahigh H2O/CH4 selectivity of 747.7 and 687.4, respectively, and enhanced H2O permeability as well as H2O/CH4 selectivity compared with the pure PA 6 polymer. The excellent membrane performance attributed to direct and extensive hydrogen bonds between the polymer and MOFs. This type of MMMs could be an alternative for further research in H2O/CH4 separation at industrial scale.

引用

页数：8

共 20 条

[1] Hydrogen-bonded polyamide 6/Zr-MOF mixed matrix membranes for efficient natural gas dehydration
Wang, Ruolin
Zhang, Ying
Xie, Xiaoxue
Song, Qingxiang
Liu, Pengxiao
Liu, Yu
Zhang, Xiaocan
Fuel, 2021, 285
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