Simulation of carbon dioxide capture for industrial applications

被引:12
|
作者
Udara, S. P. R. Arachchige [1 ]
Kohilan, Rasenthiran [1 ]
Lakshan, M. A. L. [1 ]
Madalagama, M. K. Lakshitha [1 ]
Pathirana, P. R. Prabhath [1 ]
Sandupama, P. W. Sakuna [1 ]
机构
[1] Univ Sri Jayewardenepura, Fac Technol, Nugegoda, Sri Lanka
来源
ENERGY REPORTS | 2020年 / 6卷
关键词
Carbon capture; Aspen plus; Simulation; Regeneration energy; Flue gas;
D O I
10.1016/j.egyr.2019.11.134
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
Carbon dioxide emissions to the atmosphere are drastically increased due to fossil fuel-based power plants and different kinds of industrial processes. Carbon capture is essential to maintain a better environment. Flue gas emissions from the coal-fired power plant, gas-fired power plant, cement manufacturing industry as well as the aluminium production industry are considered for the present study. Carbon dioxide capture model is developed and implemented in Aspen Plus to calculate the regeneration energy requirement. The regeneration energy requirement in the stripping process in the carbon capture is calculated as 3634, 3781, 3229 and 3085 kJ/kg respectively for coal, gas, cement, and aluminium production process flue gas treating. (C) 2019 Published by Elsevier Ltd.
引用
收藏
页码:659 / 663
页数:5
相关论文
共 50 条
  • [1] Generation, Capture, and Utilization of Industrial Carbon Dioxide
    Hunt, Andrew J.
    Sin, Emily H. K.
    Marriott, Ray
    Clark, James H.
    [J]. CHEMSUSCHEM, 2010, 3 (03) : 306 - 322
  • [2] Carbon capture and utilization for industrial applications
    Rajabloo, Talieh
    Valee, Joris
    Marenne, Yves
    Coppens, Leo
    De Ceuninck, Ward
    [J]. ENERGY REPORTS, 2023, 9 : 111 - 116
  • [3] Carbon capture and utilization for industrial applications
    Rajabloo, Talieh
    Valee, Joris
    Marenne, Yves
    Coppens, Leo
    De Ceuninck, Ward
    [J]. ENERGY REPORTS, 2023, 9 : 111 - 116
  • [4] Simulation and optimization of carbon dioxide capture using Water-Lean solvent from industrial flue gas
    Zhan, Guoxiong
    Yuan, Bingling
    Duan, Yuanmeng
    Bai, Yongfeng
    Chen, Jianjun
    Chen, Zhen
    Li, Junhua
    [J]. CHEMICAL ENGINEERING JOURNAL, 2023, 474
  • [5] Simulation and practical investigation of carbonic anhydrase stability in an industrial solvent system of methyl diethanolamine for carbon dioxide capture
    Barzegari, Ebrahim
    Ghaedizadeh, Shima
    Pourshohod, Aminollah
    Zeinali, Majid
    Jamalan, Mostafa
    [J]. JOURNAL OF BIOMOLECULAR STRUCTURE & DYNAMICS, 2024,
  • [6] Carbon Dioxide Capture Processes: Simulation, Design and Sensitivity Analysis
    Zaman, Muhammad
    Lee, Jay Hyung
    Gani, Rafiqul
    [J]. 2012 12TH INTERNATIONAL CONFERENCE ON CONTROL, AUTOMATION AND SYSTEMS (ICCAS), 2012, : 539 - 544
  • [7] Simulation of net spacers in membrane modules for carbon dioxide capture
    Lou, Yuecun
    Gogar, Ravikumar
    Hao, Pingjiao
    Lipscomb, Glenn
    Amo, Karl
    Kniep, Jay
    [J]. SEPARATION SCIENCE AND TECHNOLOGY, 2017, 52 (02) : 168 - 185
  • [8] Molecular simulation study on carbon dioxide capture of amorphous silica
    Kim, Ki Chul
    Choi, Ji Il
    Abu-Hakmeh, Khaldoon
    Kwon, Soonchul
    Kwon, Hyuk Jae
    Lee, Hyun Chul
    Jang, Seung Soon
    [J]. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2014, 247
  • [9] Porous Adsorption Materials for Carbon Dioxide Capture in Industrial Flue Gas
    Zeng, Hongxue
    Qu, Xinghong
    Xu, Dong
    Luo, Yang
    [J]. FRONTIERS IN CHEMISTRY, 2022, 10
  • [10] Effluents and residues from industrial sites for carbon dioxide capture: a review
    Francisco M. Baena-Moreno
    Emmanouela Leventaki
    Alexander Riddell
    Joanna Wojtasz-Mucha
    Diana Bernin
    [J]. Environmental Chemistry Letters, 2023, 21 : 319 - 337
12345