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Reduction potential of the energy penalty for CO capture in CCS

Frontiers in Energy 2023, Volume 17, Issue 3,   Pages 390-399 doi: 10.1007/s11708-023-0864-x

Abstract: CO<sub>2sub> capture and storage (CCS) has been acknowledged as an essential part of a portfolio oftechnologies that are required to achieve cost-effective long-term CO<sub>2sub> mitigation.One of the crucial reasons for this delay lies in the unaffordable penalty caused by CO<sub>2sub> captureFrom the aspects of separation and capture technology innovation, the potential and promising direction

Keywords: CO<sub>2sub> capture and storage (CCS)     CO<sub>2sub> separation     energy penalty    

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Al<sub>2sub>O<sub>3sub> and CeO<sub>2sub>-promoted MgO sorbents for CO<sub>2sub> capture at moderate

Huimei Yu, Xiaoxing Wang, Zhu Shu, Mamoru Fujii, Chunshan Song

Frontiers of Chemical Science and Engineering 2018, Volume 12, Issue 1,   Pages 83-93 doi: 10.1007/s11705-017-1691-6

Abstract: A series of Al O and CeO modified MgO sorbents was prepared and studied for CO sorption at moderateThe CO sorption capacity of MgO was enhanced with the addition of either Al O or CeO .Over Al O -MgO sorbents, the best capacity of 24.6 mg-CO /g-sorbent was attained at 100 °C, which was61% higher than that of MgO (15.3 mg-CO /g-sorbent).Compared to Al O , CeO is more effective for promoting the CO capacity of MgO.

Keywords: CO<sub>2sub> capture     MgO sorbents     Al<sub>2sub>O<sub>3sub>     CeO<sub>2sub>     flue gas    

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Theoretical and experimental study on the fluidity performance of hard-to-fluidize carbon nanotubes-based CO2capture sorbents

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 10,   Pages 1460-1475 doi: 10.1007/s11705-022-2159-x

Abstract: Carbon nanotubes-based materials have been identified as promising sorbents for efficient CO<sub>2sub> capture in fluidized beds, suffering from insufficient contact with CO<sub>2sub> for the high-levelCO<sub>2sub> capture capacity.Pure carbon nanotubes + 7.5 wt% SiO<sub>2sub> and synthesized carbon nanotubes + 5 wt% SiO<sub>2subChemical modification of carbon nanotubes causes not only enhanced CO <sub>2sub> uptake capacity but

Keywords: CO<sub>2sub> capture     CNT-based sorbents     fluidization     SiO<sub>2sub> nanoparticles     fluidized bed    

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Dynamic modelling and simulation of a post-combustion CO capture process for coal-fired power plants

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 2,   Pages 198-209 doi: 10.1007/s11705-021-2057-7

Abstract: Solvent-based post-combustion capture technologies have great potential for CO<sub>2sub> mitigationComposed by a series of partial differential equations, first-principle post-combustion capture modelsand simplify the chemical and physical process, based on which a universal and hybrid post-combustion captureflue gas flow, and the gas-liquid ratio can be optimized to reduce the reboiler power under a certain capture

Keywords: CO<sub>2sub> capture     post-combustion capture     simulation     dominant factor    

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One-Step Synthesis of Structurally Stable CO<sub>2sub>-Philic Membranes with Ultra-High PEO Loadingfor Enhanced Carbon Capture Article

Bin Zhu, Shanshan He, Yadong Wu, Songwei Li, Lu Shao

Engineering 2023, Volume 26, Issue 7,   Pages 220-228 doi: 10.1016/j.eng.2022.03.016

Abstract: of increasing atmospheric CO<sub>2sub> levels because CO<sub>2sub>-philic membranes have demonstratedsignificant application potential, especially, for CO<sub>2sub>/light gas separation.In this regard, poly(ethylene oxide) (PEO), which is a representative CO<sub>2sub>-philic material,<sub>2sub>.and CO<sub>2sub>/light gas selectivity at high feed pressure (up to 20 bar).

Keywords: Membrane separation     Gas separation     CO<sub>2sub> capture     CO<sub>2sub>-philic membrane     Poly(ethylene    

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CO<sub>2sub> capture using membrane contactors: a systematic literature review

Sanaa Hafeez, Tayeba Safdar, Elena Pallari, George Manos, Elsa Aristodemou, Zhien Zhang, S. M. Al-Salem, Achilleas Constantinou

Frontiers of Chemical Science and Engineering 2021, Volume 15, Issue 4,   Pages 720-754 doi: 10.1007/s11705-020-1992-z

Abstract: Nonetheless, exploring CO capture using membrane contactor technology has shown great potential to beapplied and utilised by industry to deal with post- and pre-combustion of CO .This current systematic review in CO removal and capture is an important milestone in the synthesisstudy provides the first systematic enquiry in the evidence to research further sustainable methods to captureand separate CO .

Keywords: CO<sub>2sub> capture     preferred reporting items for systematic reviews and meta-analyses     membrane contactor    

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and measurements: Powerful tools for revealing the mechanism of alkali carbonate-based sorbents for COcapture in real conditions

Frontiers in Energy 2023, Volume 17, Issue 3,   Pages 380-389 doi: 10.1007/s11708-023-0872-x

Abstract: Alkali carbonate-based sorbents (ACSs), including Na<sub>2sub>CO<sub>3sub>- and K<sub>2sub>CO<sub>3sub>-based sorbents, are promising for CO<sub>2sub> capture.However, the complex sorbent components and operation conditions lead to the versatile kinetics of CO<sub>2sub> sorption on these sorbents.<sub>2sub> capture.

Keywords: CO<sub>2sub> capture     carbonation     theoretical modeling     operando techniques     reaction visualization    

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A coal-fired power plant integrated with biomass co-firing and CO capture for zero carbon emission

Frontiers in Energy 2022, Volume 16, Issue 2,   Pages 307-320 doi: 10.1007/s11708-021-0790-8

Abstract: technologies are adopted and the low-temperature waste heat from the CO<sub>2sub> capture process isThe results show that when the biomass mass mixing ratio is 15.40% and the CO<sub>2sub> capture rateis 90%, the CO<sub>2sub> emission of the coal-fired power plant can reach zero, indicating that theThe net thermal efficiency decreases by 10.31%, due to the huge energy consumption of the CO<sub>2subBesides, the cost of electricity (COE) and the cost of CO<sub>2sub> avoided (COA) of the proposed system

Keywords: coal-fired power plant     biomass co-firing     CO<sub>2sub> capture     zero carbon emission     performance    

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Metal-organic framework-based CO

Yujie Ban, Meng Zhao, Weishen Yang

Frontiers of Chemical Science and Engineering 2020, Volume 14, Issue 2,   Pages 188-215 doi: 10.1007/s11705-019-1872-6

Abstract: A low-carbon economy calls for CO capture technologies.capture.we illustrate a conceptional framework from material design and membrane separation application for COcapture, and emphasize two importance themes, namely (i) design and modification of CO -philic MOFcapture, and be expected to overcome the bottleneck of permeability-selectivity limitations.

Keywords: CO<sub>2sub> capture     CO<sub>2sub>-philic MOFs     crack-free membranes    

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CO<sub>2sub> methanation and co-methanation of CO and CO<sub>2sub> over Mn-promoted Ni/Al<sub>2sub>O<sub>3sub> catalysts

Kechao Zhao,Zhenhua Li,Li Bian

Frontiers of Chemical Science and Engineering 2016, Volume 10, Issue 2,   Pages 273-280 doi: 10.1007/s11705-016-1563-5

Abstract: The effect of the Mn content on the activity of the Ni/Al O catalysts for CO methanation and the co-methanationof CO and CO in a fixed-bed reactor was investigated.CO methanation activity especially at low temperatures but it had little influence on the CO methanationCO methanation was more sensitive to the reaction temperature and the space velocity than the CO methanationin the co-methanation process.

Keywords: Mn promotion     nickel catalysts     CO<sub>2sub> methanation     co-methanation of CO and CO<sub>2sub>    

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Comparison study on strategies to prepare nanocrystalline Li

Qiang XIAO, Xiaodan TANG, Yefeng LIU, Yijun ZHONG, Weidong ZHU

Frontiers of Chemical Science and Engineering 2013, Volume 7, Issue 3,   Pages 297-302 doi: 10.1007/s11705-013-1346-1

Abstract: conducted on the strategies for synthesizing nanocrystalline Li ZrO and K-doped Li ZrO absorbents for COcapture at high temperatures, including solid-state and liquid-phase methods, citrate route, and starch-assistedcapacity, of synthesized absorbents were investigated by thermogravimetric analysis (TGA) at different COThe doping of K into Li ZrO can significantly improve the uptake rate of CO , especially at low COcapture properties.

Keywords: CO<sub>2sub> capture     Li<sub>2sub>ZrO<sub>3sub>     K-doped Li<sub>2sub>ZrO<sub>3sub>     citrate     starch    

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Molecular level understanding of CO<sub>2sub> capture in ionic liquid/polyimide composite membrane

Linlin You, Yandong Guo, Yanjing He, Feng Huo, Shaojuan Zeng, Chunshan Li, Xiangping Zhang, Xiaochun Zhang

Frontiers of Chemical Science and Engineering 2022, Volume 16, Issue 2,   Pages 141-151 doi: 10.1007/s11705-020-2009-7

Abstract: Ionic liquid (IL)/polyimide (PI) composite membranes demonstrate promise for use in CO separation applicationsHowever, few studies have focused on the microscopic mechanism of CO in these composite systems, whichIn this work, a series of systems of CO in 1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imidethe self-diffusion coefficient and free energy barrier suggested that the diffusion coefficient of COHowever, the CO self-diffusion coefficients increased when the IL contents were higher than 35 wt-%,

Keywords: carbon dioxide     ionic liquid     6FDA-TeMPD     composite membrane     molecular dynamics simulation    

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A Storage-Driven CO<sub>2sub> EOR for a Net-Zero Emission Target Article

Yueliang Liu, Zhenhua Rui

Engineering 2022, Volume 18, Issue 11,   Pages 79-87 doi: 10.1016/j.eng.2022.02.010

Abstract: >2sub> emissions by storing CO<sub>2sub> in oil reservoirs.CO<sub>2sub> EOR—whose main target is to realize net-zero or even negative CO<sub>2sub> emissionsStorage-driven CO<sub>2sub> EOR is superior to conventional CO<sub>2sub> EOR in improving sweepingthan conventional CO<sub>2sub> EOR.Moreover, the amount of sequestrated CO2 in storage-driven CO<sub>2sub> EOR exceeds the amount

Keywords: CO<sub>2sub>     EOR     Net CO<sub>2sub>     emissions     Dimethyl ether     Storage-driven CO<sub>2sub>     EOR     CO<sub>2sub>     sequestration    

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Recovery of waste heat in cement plants for the capture of CO

Ruifeng DONG, Zaoxiao ZHANG, Hongfang LU, Yunsong YU

Frontiers of Chemical Science and Engineering 2012, Volume 6, Issue 1,   Pages 104-111 doi: 10.1007/s11705-011-1166-0

Abstract: manufacturing of cement especially during the calcination process which also emits large amounts of COA process to capture CO by integrating the recovery and utilization of waste heat has been designed.According to the calculations: 1) the generating capacity of the waste heat recovery system is 4.9 MW. 2)The overall CO removal rate was as high as 78.5%. 3) The efficiency of energy utilization increased

Keywords: cement industry     waste heat     recovery     utilization     CO<sub>2sub> removal    

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Development of H<sub>2sub>O/CO<sub>2sub> co-electrolysis in solid oxide electrolysis cell

Fan Hui,Song Shidong,Han Minfang

Strategic Study of CAE 2013, Volume 15, Issue 2,   Pages 107-112

Abstract: In this paper, the progress on structure and working principle of SOEC for co-electrolyzing steamThe structure of SOEC, the recent development of high temperature steam/CO2 co-electrolysis from

Keywords: SOEC     H<sub>2sub>O/CO<sub>2sub> co-electrolysis     syngas     electrolysis efficiency     water electrolysis    

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Title Author Date Type Operation

Reduction potential of the energy penalty for CO capture in CCS

Journal Article

Al<sub>2sub>O<sub>3sub> and CeO<sub>2sub>-promoted MgO sorbents for CO<sub>2sub> capture at moderate

Huimei Yu, Xiaoxing Wang, Zhu Shu, Mamoru Fujii, Chunshan Song

Journal Article

Theoretical and experimental study on the fluidity performance of hard-to-fluidize carbon nanotubes-based CO2capture sorbents

Journal Article

Dynamic modelling and simulation of a post-combustion CO capture process for coal-fired power plants

Journal Article

One-Step Synthesis of Structurally Stable CO<sub>2sub>-Philic Membranes with Ultra-High PEO Loadingfor Enhanced Carbon Capture

Bin Zhu, Shanshan He, Yadong Wu, Songwei Li, Lu Shao

Journal Article

CO<sub>2sub> capture using membrane contactors: a systematic literature review

Sanaa Hafeez, Tayeba Safdar, Elena Pallari, George Manos, Elsa Aristodemou, Zhien Zhang, S. M. Al-Salem, Achilleas Constantinou

Journal Article

and measurements: Powerful tools for revealing the mechanism of alkali carbonate-based sorbents for COcapture in real conditions

Journal Article

A coal-fired power plant integrated with biomass co-firing and CO capture for zero carbon emission

Journal Article

Metal-organic framework-based CO

Yujie Ban, Meng Zhao, Weishen Yang

Journal Article

CO<sub>2sub> methanation and co-methanation of CO and CO<sub>2sub> over Mn-promoted Ni/Al<sub>2sub>O<sub>3sub> catalysts

Kechao Zhao,Zhenhua Li,Li Bian

Journal Article

Comparison study on strategies to prepare nanocrystalline Li

Qiang XIAO, Xiaodan TANG, Yefeng LIU, Yijun ZHONG, Weidong ZHU

Journal Article

Molecular level understanding of CO<sub>2sub> capture in ionic liquid/polyimide composite membrane

Linlin You, Yandong Guo, Yanjing He, Feng Huo, Shaojuan Zeng, Chunshan Li, Xiangping Zhang, Xiaochun Zhang

Journal Article

A Storage-Driven CO<sub>2sub> EOR for a Net-Zero Emission Target

Yueliang Liu, Zhenhua Rui

Journal Article

Recovery of waste heat in cement plants for the capture of CO

Ruifeng DONG, Zaoxiao ZHANG, Hongfang LU, Yunsong YU

Journal Article

Development of H<sub>2sub>O/CO<sub>2sub> co-electrolysis in solid oxide electrolysis cell

Fan Hui,Song Shidong,Han Minfang

Journal Article