CO2 capture by electrothermal swing adsorption with activated carbon fibre materials

被引:81
|
作者
An, Hui [1 ,2 ]
Feng, Bo [1 ]
Su, Shi [2 ]
机构
[1] Univ Queensland, Sch Engn, St Lucia, Qld 4072, Australia
[2] CSIRO, Kenmore, Qld 4069, Australia
来源
INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL | 2011年 / 5卷 / 01期
关键词
CO2; capture; Activated carbon fibre materials; Electrothermal swing adsorption; VOLATILE ORGANIC-COMPOUNDS; GAS SEPARATION; SIZE DISTRIBUTION; MOLECULAR-SIEVE; METHANE STORAGE; PORE-SIZE; DESORPTION; COMPOSITES; MONOLITHS; REGENERATION;
D O I
10.1016/j.ijggc.2010.03.007
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
This paper presents progress made in CO2 capture by electrothermal swing adsorption (ESA) with activated carbon fibre materials. The current barrier in CO2 capture and storage is the high cost of CO2 separation and capture. CO2 capture by electrothermal swing adsorption can potentially be more energy-effective than conventional temperature swing adsorption (TSA) and pressure swing adsorption (PSA), thus reduces CO2 capture cost. Activated carbon fibre materials have been utilised as the adsorbents due to their demonstrated capabilities for CO2 capture and their good electrical conductivity. This paper reviews the major results in the literature in the development of activated carbon fibre materials and the process of ESA. It also suggests future research directions in CO2 capture by electrothermal swing adsorption. (C) 2010 Elsevier Ltd. All rights reserved.
引用
收藏
页码:16 / 25
页数:10
相关论文
共 50 条
  • [21] Optimization of pressure swing adsorption and fractionated vacuum pressure swing adsorption processes for CO2 capture
    Ko, D
    Siriwardane, R
    Biegler, LT
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2005, 44 (21) : 8084 - 8094
  • [22] CO2 capture capacities of activated carbon fibre-phenolic resin composites
    An, Hui
    Feng, Bo
    Su, Shi
    CARBON, 2009, 47 (10) : 2396 - 2405
  • [23] Synthesis, characterization and evaluation of activated spherical carbon materials for CO2 capture
    Sun, Nannan
    Sun, Chenggong
    Liu, Hao
    Liu, Jingjing
    Stevens, Lee
    Drage, Trevor
    Snape, Colin E.
    Li, Kaixi
    Wei, Wei
    Sun, Yuhan
    FUEL, 2013, 113 : 854 - 862
  • [24] Investigation of sorbents for warm CO2 capture by pressure swing adsorption
    Liu, Zan
    Green, William H.
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2013, 245
  • [25] Design of a Pressure Swing Adsorption Process for Postcombustion CO2 Capture
    Pirngruber, Gerhard D.
    Leinekugel-le-Cocq, Damien
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2013, 52 (17) : 5985 - 5996
  • [26] Faradaic electro-swing reactive adsorption for CO2 capture
    Voskian, Sahag
    Hatton, T. Alan
    ENERGY & ENVIRONMENTAL SCIENCE, 2019, 12 (12) : 3530 - 3547
  • [27] Desorption of CO2 from activated carbon fibre-phenolic resin composite by electrothermal effect
    An, Hui
    Feng, Bo
    INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL, 2010, 4 (01) : 57 - 63
  • [28] Synthesis of a novel hybrid adsorbent which combines activated carbon and zeolite NaUSY for CO2 capture by electric swing adsorption (ESA)
    Zhao, Qinghu
    Wu, Fan
    Xie, Ke
    Singh, Ranjeet
    Zhao, Jianhua
    Xiao, Penny
    Webley, Paul A.
    CHEMICAL ENGINEERING JOURNAL, 2018, 336 : 659 - 668
  • [29] Systematic evaluation of materials for post-combustion CO2 capture in a Temperature Swing Adsorption process
    Bahamon, Daniel
    Vega, Lourdes F.
    CHEMICAL ENGINEERING JOURNAL, 2016, 284 : 438 - 447
  • [30] Modeling of CO2 Adsorption on Activated Carbon and 13X Zeolite via Vacuum Swing Adsorption
    Zarghampoor, M. H.
    Mozaffarian, M.
    Soleimani, M.
    Ravanchi, M. Takht
    29TH SYMPOSIUM OF MALAYSIAN CHEMICAL ENGINEERS (SOMCHE) 2016, 2017, 206
12345