 |
|
Onboard CO2 Capture Process Design using Rigorous Rate-based Model
Jongyeon Jung, Yutaek Seo
J. Ocean Eng. Technol.. 2022;36(3):168-180. Published online 2022 Jun 30 DOI: https://doi.org/10.26748/KSOE.2022.006
|
|
Citations to this article as recorded by
 Oxyfuel Combustion Makes Carbon Capture More Efficient
Saeed Talei, Daniel Fozer, Petar Sabev Varbanov, Agnes Szanyi, Peter Mizsey
ACS Omega.2024;[Epub] CrossRef Application of amine infused hydrogels (AIHs) for selective capture of CO2 from H2/CO2 and N2/CO2 gas mixture
JongYeon Jung, Yutaek Seo, Colin D. Wood
Chemical Engineering Science.2024; 288: 119799. CrossRef Optimal capacity design of amine-based onboard CO2 capture systems under variable marine engine loads
Juyoung Oh, Donghoi Kim, Simon Roussanaly, Rahul Anantharaman, Youngsub Lim
Chemical Engineering Journal.2024; 483: 149136. CrossRef Advanced process design of subcooling re-liquefaction system considering storage pressure for a liquefied CO2 carrier
Jaejun Lee, Heechang Son, Juyoung Oh, Taejong Yu, Hyeonuk Kim, Youngsub Lim
Energy.2024; 293: 130556. CrossRef Numerical analyses on performance of low carbon containership
Li Chin Law, Mohd Roslee Othman, Epaminondas Mastorakos
Energy Reports.2023; 9: 3440. CrossRef Investigation of Applying Technical Measures for Improving Energy Efficiency Design Index (EEDI) for KCS and KVLCC2
Jun-Yup Park, Jong-Yeon Jung, Yu-Taek Seo
Journal of Ocean Engineering and Technology.2023; 37(2): 58. CrossRef Process design and energy assessment of an onboard carbon capture system with boilers or heat pumps for additional steam generation
Meangik Cho, Youngkyun Seo, Eunyoung Park, Daejun Chang, Seongjong Han
Ships and Offshore Structures.2023; : 1. CrossRef Prediction of Boil-Off Gas Generation according to Liquefied Natural Gas Precooling System Design of Hydrogen Liquefaction Process
Seon-Hwa Kim, Sayong Lee, Young-Jin Roh, Seok-Hwan Ahn
Journal of Power System Engineering.2023; 27(4): 26. CrossRef
|