Effectiveness of CO2 Capture by Arthrospira platensis Microalgae from a Mixture Simulating Flue Gases

被引:0
|
作者
M. S. Vlaskin
S. V. Kiseleva
N. I. Chernova
A. V. Grigorenko
K. G. Ryndin
O. S. Popel’
S. Ya. Malanii
O. V. Slavkina
F. de Farias Naves
V. Kumar
机构
[1] Joint Institute for High Temperatures,
[2] Russian Academy of Sciences,undefined
[3] Graphic Era Hill University,undefined
[4] Peoples Friendship University of Russia,undefined
[5] Research Laboratory for Renewable Energy Sources,undefined
[6] Moscow State University,undefined
[7] Lukoil-Engineering,undefined
[8] University of the State of Santa Catarina,undefined
来源
Thermal Engineering | 2023年 / 70卷
关键词
microalgae; flue gases; photobioreactor; gas-piston engine-generators; carbon dioxide capture;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:370 / 383
页数:13
相关论文
共 50 条
  • [21] Reducing the cost of CO2 capture from flue gases using membrane technology
    Ho, Minh T.
    Allinson, Guy W.
    Wiley, Dianne E.
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2008, 47 (05) : 1562 - 1568
  • [22] Effect of the solvent composition on the heat of absorption in the CO2 capture from flue gases
    Wilk, Andrzej
    Wieclaw-Solny, Lucyna
    Kierzkowska-Pawlak, Hanna
    Stec, Marcin
    Spiewak, Dariusz
    Spietz, Tomasz
    PRZEMYSL CHEMICZNY, 2014, 93 (12): : 2237 - 2240
  • [23] CO2 capture from flue gases using a fluidized bed reactor with limestone
    Fang, Fan
    Li, Zhen-shan
    Cai, Ning-sheng
    KOREAN JOURNAL OF CHEMICAL ENGINEERING, 2009, 26 (05) : 1414 - 1421
  • [24] Strategies for Integrated Capture and Conversion of CO2 from Dilute Flue Gases and the Atmosphere
    Maina, James W.
    Pringle, Jennifer M.
    Razal, Joselito M.
    Nunes, Suzana
    Vega, Lourdes
    Gallucci, Fausto
    Dumee, Ludovic F.
    CHEMSUSCHEM, 2021, 14 (08) : 1805 - 1820
  • [25] Metabolic acclimation mechanism in microalgae developed for CO2 capture from industrial flue gas
    Guo, Ying
    Yuan, Zhenhong
    Xu, Jingliang
    Wang, Zhongming
    Yuan, Tao
    Zhou, Weizheng
    Xu, Jin
    Liang, Cuiyi
    Xu, Huijuan
    Liu, Shijie
    ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS, 2017, 26 : 225 - 233
  • [26] A new pilot absorber for CO2 capture from flue gases: Measuring and modelling capture with MEA solution
    Sonderby, Tim L.
    Carlsen, Kim B.
    Fosbol, Philip L.
    Kiorboe, Lars G.
    von Solms, Nicolas
    INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL, 2013, 12 : 181 - 192
  • [27] Potential of CO2 capture from flue gases by physicochemical and biological methods: A comparative study
    Matito-Martos, Ismael
    Sepulveda, Claudia
    Gomez, Cintia
    Acien, Gabriel
    Perez-Carbajo, Julio
    Delgado, Jose A.
    Agueda, V., I
    Ania, Conchi
    Parra, Jose B.
    Calero, Sofia
    Anta, Juan A.
    CHEMICAL ENGINEERING JOURNAL, 2021, 417
  • [28] Solvent Optimization of Conventional Absorption Processes for CO2 Capture from Postcombustion Flue Gases
    Hopkinson, David
    Luebke, David
    Li, Zhiwei
    Chen, Shiaoguo
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2014, 53 (17) : 7149 - 7156
  • [29] Reducing the cost of CO2 capture from flue gases using phasechange solvent absorption
    Raksajati, Anggit
    Ho, Minh T.
    Wiley, Dianne E.
    12TH INTERNATIONAL CONFERENCE ON GREENHOUSE GAS CONTROL TECHNOLOGIES, GHGT-12, 2014, 63 : 2280 - 2288
  • [30] Reducing the cost of CO2 capture from flue gases using pressure swing adsorption
    Ho, Minh T.
    Allinson, Guy W.
    Wiley, Dianne E.
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2008, 47 (14) : 4883 - 4890
12345