Effect of Liquefaction Plant Performance and Location on the Cost of CO<inf>2</inf> Transport. Zahid, U., An, J., Lee, U., & Han, C. Volume 33 , 2014.
doi  abstract   bibtex   
Carbon capture and storage (CCS), a key technology for addressing global warming is in between demonstration to commercialization phase. Transportation of CO2 is required since storage sites are not necessarily present under the source sites. Ships can be used for long distance transport of CO2; liquefaction being a vital component in ship transportation. In this study, a state of art CO2 liquefaction process has been designed by taking account of source facilities (i.e. post-combustion and pre-combustion). The proposed liquefaction process offers lower liquefaction energy requirement compared with other available literature. Three different scenarios for post-combustion and pre-combustion each have been studied on the basis of liquefaction plant location. The considered scenarios are categorized as: a) capture site, liquefaction plant and shipping terminal are located close to each other; b) capture site and liquefaction plant are far from shipping terminal; c) capture site is far from liquefaction plant and shipping terminal. Finally, an economic analysis is performed in order to evaluate the feasibility of CO2 transport from source sites to ship loading terminal including liquefaction plant. © 2014 Elsevier B.V.
@book{
 title = {Effect of Liquefaction Plant Performance and Location on the Cost of CO<inf>2</inf> Transport},
 type = {book},
 year = {2014},
 source = {Computer Aided Chemical Engineering},
 keywords = {Economic analysis},
 volume = {33},
 id = {554ef588-027e-3b6a-9435-6d47d8effc83},
 created = {2019-02-13T12:19:07.598Z},
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 profile_id = {e2d2f261-b93b-3381-802e-ec4f45d345ec},
 last_modified = {2019-02-13T12:19:07.598Z},
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 abstract = {Carbon capture and storage (CCS), a key technology for addressing global warming is in between demonstration to commercialization phase. Transportation of CO2 is required since storage sites are not necessarily present under the source sites. Ships can be used for long distance transport of CO2; liquefaction being a vital component in ship transportation. In this study, a state of art CO2 liquefaction process has been designed by taking account of source facilities (i.e. post-combustion and pre-combustion). The proposed liquefaction process offers lower liquefaction energy requirement compared with other available literature. Three different scenarios for post-combustion and pre-combustion each have been studied on the basis of liquefaction plant location. The considered scenarios are categorized as: a) capture site, liquefaction plant and shipping terminal are located close to each other; b) capture site and liquefaction plant are far from shipping terminal; c) capture site is far from liquefaction plant and shipping terminal. Finally, an economic analysis is performed in order to evaluate the feasibility of CO2 transport from source sites to ship loading terminal including liquefaction plant. © 2014 Elsevier B.V.},
 bibtype = {book},
 author = {Zahid, U. and An, J. and Lee, U. and Han, C.},
 doi = {10.1016/B978-0-444-63455-9.50110-0}
}
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