Anion pillar inserted MOF-74-Cu with customized pore environment for efficient purification of natural gas

IF 6.7 1区工程技术 Q2 ENERGY & FUELS

Fuel Pub Date : 2024-11-16 DOI:10.1016/j.fuel.2024.133678

Weiqiu Huang , Yankang Zhou , Xufei Li , Xinya Wang , Yuning Li , Fangrui Feng , Xinhan Chai , Jing Zhong

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Abstract

Natural gas (NG), a kind of effective and clean low-carbon fossil energy, contains small amounts of non-CH₄ impurities (such as CO₂, C₂H₆ and C₃H₈) during extraction, which must be separated to improve the quality of NG and safeguard the security of transportation. However, the adsorptive separation technology based on traditional adsorbent always suffers from a trade-off effect, which is the balance of adsorption capacity and separation selectivity. Owing to the metal–organic framework-74 (MOF-74) with abundant open metal sites (OMSs), electronegative anion pillar inserted MOF-74-Cu composites with customized pore size/shape and chemistry were firstly prepared by grafting a series of functionalized anion pillars, including −F and −O. Therein, the sample M/TIFSIX_1/8 obtained from hexafluorotitanate (TIFSIX) anion exhibited optimal pore structure, showing excellent adsorption ability for CO₂, C₂H₆ and C₃H₈ due to the generated host–guest interactions of F···C = O and F···H-C, respectively. And the uptake for C₃H₈ (1.77 mmol·g⁻¹, 5 kPa) is comparable to that of C₂H₆ (1.81 mmol·g⁻¹, 10 kPa), much higher than that of CH₄. Meanwhile, the ideal adsorption solution theory selectivity (S_IAST) of C₂H₆/CH₄ (10: 90, v: v) and C₃H₈/CH₄ (5: 95, v: v) for M/TIFSIX_1/8 are 51 and 1969, surpassing that of pristine MOF-74-Cu and reported representative C₂H₆-/C₃H₈- selective MOFs. In addition, the adsorption breakthrough experiments for C₂H₆/CH₄, C₃H₈/CH₄ and C₃H₈/C₂H₆/CH₄ mixtures further confirm the excellent separation ability and recyclability, demonstrating its great potential for the engineering application.

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具有定制孔隙环境的阴离子柱插入式 MOF-74-Cu，用于高效净化天然气

天然气（NG）是一种高效、清洁的低碳化石能源，在开采过程中含有少量非四氢呋喃杂质（如 CO2、C2H6 和 C3H8），必须对其进行分离，以提高天然气的质量，保障运输安全。然而，基于传统吸附剂的吸附分离技术始终存在一个权衡效应，即吸附容量与分离选择性之间的平衡问题。由于金属有机框架-74（MOF-74）具有丰富的开放金属位点（OMS），因此首先通过接枝一系列功能化阴离子柱（包括-F和-O）制备了具有定制孔径/形状和化学性质的电负性阴离子柱插入MOF-74-Cu复合材料。其中，由六氟钛酸（TIFSIX）阴离子得到的样品M/TIFSIX1/8表现出最佳的孔隙结构，由于分别产生了F--C = O和F--H-C的主客体相互作用，对CO2、C2H6和C3H8表现出优异的吸附能力。对 C3H8 的吸附量（1.77 mmol-g-1，5 kPa）与对 C2H6 的吸附量（1.81 mmol-g-1，10 kPa）相当，远高于对 CH4 的吸附量。同时，M/TIFSIX1/8 对 C2H6/CH4 （10：90，v：v）和 C3H8/CH4 （5：95，v：v）的理想吸附溶液理论选择性（SIAST）分别为 51 和 1969，超过了原始 MOF-74-Cu 和已报道的具有代表性的 C2H6-/C3H8- 选择性 MOF。此外，对 C2H6/CH4、C3H8/CH4 和 C3H8/C2H6/CH4 混合物的吸附突破实验进一步证实了其卓越的分离能力和可回收性，证明了其在工程应用方面的巨大潜力。

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来源期刊

Fuel 工程技术-工程：化工

CiteScore

12.80

自引率

20.30%

发文量

3506

审稿时长

64 days

期刊介绍： The exploration of energy sources remains a critical matter of study. For the past nine decades, fuel has consistently held the forefront in primary research efforts within the field of energy science. This area of investigation encompasses a wide range of subjects, with a particular emphasis on emerging concerns like environmental factors and pollution.