Energy storage technologies and real life applications–A state of the art review M Aneke, M Wang Applied Energy 179, 350-377, 2016 | 1781 | 2016 |
Post-combustion CO 2 capture with chemical absorption: a state-of-the-art review M Wang, A Lawal, P Stephenson, J Sidders, C Ramshaw Chemical Engineering Research and Design 89 (9), 1609-1624, 2011 | 1616 | 2011 |
Process intensification for post-combustion CO 2 capture with chemical absorption: a critical review M Wang, AS Joel, C Ramshaw, D Eimer, NM Musa Applied Energy 158, 275-291, 2015 | 409 | 2015 |
Transformation technologies for CO2 utilisation: Current status, challenges and future prospects ADN Kamkeng, M Wang, J Hu, W Du, F Qian Chemical Engineering Journal 409, 128138, 2021 | 295 | 2021 |
Dynamic modelling of CO 2 absorption for post combustion capture in coal-fired power plants A Lawal, M Wang, P Stephenson, H Yeung Fuel 88 (12), 2455-2462, 2009 | 284 | 2009 |
Role of solvents in CO2 capture processes: The review of selection and design methods TN Borhani, M Wang Renewable and Sustainable Energy Reviews 114, 109299, 2019 | 273 | 2019 |
Dynamic modelling and analysis of post-combustion CO 2 chemical absorption process for coal-fired power plants A Lawal, M Wang, P Stephenson, G Koumpouras, H Yeung Fuel 89 (10), 2791-2801, 2010 | 244 | 2010 |
Demonstrating full-scale post-combustion CO 2 capture for coal-fired power plants through dynamic modelling and simulation A Lawal, M Wang, P Stephenson, O Obi Fuel 101, 115-128, 2012 | 228 | 2012 |
H2 production from co-pyrolysis/gasification of waste plastics and biomass under novel catalyst Ni-CaO-C Y Chai, N Gao, M Wang, C Wu Chemical Engineering Journal 382, 122947, 2020 | 184 | 2020 |
Closed-cycle gas turbine for power generation: A state-of-the-art review O Olumayegun, M Wang, G Kelsall Fuel 180, 694-717, 2016 | 169 | 2016 |
Potential for improving the energy efficiency of cryogenic air separation unit (ASU) using binary heat recovery cycles M Aneke, M Wang Applied Thermal Engineering 81, 223-231, 2015 | 150 | 2015 |
Dynamic modelling, validation and analysis of post-combustion chemical absorption CO 2 capture plant C Biliyok, A Lawal, M Wang, F Seibert International Journal of Greenhouse Gas Control 9, 428-445, 2012 | 146 | 2012 |
Solvent-based post-combustion CO2 capture for power plants: A critical review and perspective on dynamic modelling, system identification, process control and flexible operation X Wu, M Wang, P Liao, J Shen, Y Li Applied Energy 257, 113941, 2020 | 137 | 2020 |
Harnessing the power of machine learning for carbon capture, utilisation, and storage (CCUS)–a state-of-the-art review Y Yan, TN Borhani, SG Subraveti, KN Pai, V Prasad, A Rajendran, ... Energy & Environmental Science 14 (12), 6122-6157, 2021 | 126 | 2021 |
Study of solvent-based carbon capture for cargo ships through process modelling and simulation X Luo, M Wang Applied Energy 195, 402-413, 2017 | 115 | 2017 |
Experimental study on pyrolysis/gasification of biomass and plastics for H2 production under new dual-support catalyst Y Chai, M Wang, N Gao, Y Duan, J Li Chemical Engineering Journal 396, 125260, 2020 | 106 | 2020 |
A comparative study of MEA and DEA for post-combustion CO2 capture with different process configurations B Xue, Y Yu, J Chen, X Luo, M Wang International Journal of Coal Science & Technology 4 (1), 15-24, 2017 | 104 | 2017 |
Heterojunction-redox catalysts of Fe x Co y Mg 10 CaO for high-temperature CO 2 capture and in situ conversion in the context of green manufacturing B Shao, G Hu, KAM Alkebsi, G Ye, X Lin, W Du, J Hu, M Wang, H Liu, ... Energy & Environmental Science 14 (4), 2291-2301, 2021 | 98 | 2021 |
Process analysis of intensified absorber for post-combustion CO 2 capture through modelling and simulation AS Joel, M Wang, C Ramshaw, E Oko International Journal of Greenhouse Gas Control 21, 91-100, 2014 | 92 | 2014 |
Dynamic modelling, validation and analysis of coal-fired subcritical power plant E Oko, M Wang Fuel 135, 292-300, 2014 | 91 | 2014 |