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Olajide Otitoju
Olajide Otitoju
Researcher, Chemical and Biological Engineering, University of Sheffield
Verified email at sheffield.ac.uk
Title
Cited by
Cited by
Year
Technical and economic performance assessment of post-combustion carbon capture using piperazine for large scale natural gas combined cycle power plants through process simulation
O Otitoju, E Oko, M Wang
Applied energy 292, 116893, 2021
462021
Techno-economic evaluation of post-combustion carbon capture based on chemical absorption for the thermal cracking furnace in ethylene manufacturing
G Hu, X Li, X Liu, J Hu, O Otitoju, M Wang, W Du, Z Ye, J Long, F Qian
Fuel 331, 125604, 2023
162023
A new method for scale-up of solvent-based post-combustion carbon capture process with packed columns
O Otitoju, E Oko, M Wang
International Journal of Greenhouse Gas Control 93, 102900, 2020
162020
Modelling, scale-up and techno-economic assessment of rotating packed bed absorber for CO2 capture from a 250 MWe combined cycle gas turbine power plant
O Otitoju, E Oko, M Wang
Applied Energy 335, 120747, 2023
102023
A comprehensive review of carbon capture science and technologies
C Wu, Q Huang, Z Xu, AT Sipra, N Gao, LP de Souza Vandenberghe, ...
Carbon Capture Science & Technology, 100178, 2023
32023
Modelling, Simulation and Performance Evaluation of Post-Combustion Carbon Capture based on Chemical Absorption
O Otitoju
University of Sheffield, 2022
22022
Energy performance analysis of post-combustion carbon capture using piperazine for large-scale natural gas combined cycle power plants
O Otitoju, E Oko, M Wang
Proceedings of the 15th Greenhouse Gas Control Technologies Conference, 15-18, 2021
22021
Heat integration, process design and techno-economic assessment of post-combustion carbon capture using piperazine for large-scale ethylene plant
J Ma, Z Dong, O Otitoju, M Wang, W Du, F Qian
Chemical Engineering Science 284, 119531, 2024
12024
Modelling, Scale-up and analysis of large-scale intensified post-combustion carbon capture using rotating packed bed absorber
O Otitoju, M Wang
2022
Techno-Economic Analysis and Optimisation of Piperazine-Based Post-Combustion Carbon Capture and Co2 Compression Process for Large-Scale Biomass-Fired Power Plants Through …
J Ren, O Otitoju, H Gao, Z Liang, M Wang
Available at SSRN 4755312, 0
Techno-Economic Assessment of Modified Fischer-Tropsch Synthesis Process for Direct Co2 Conversion into Jet Fuel
Y Han, ADN Kamkeng, O Otitoju, Y Ding, M Wang
Available at SSRN 4631853, 0
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