FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2007358145> ?p ?o ?g. }

• W2007358145 endingPage "171" @default.
• W2007358145 startingPage "162" @default.
• W2007358145 abstract "A number of solvents have been proposed for CO2 capture from post-combustion flue gas streams. Currently, the solvents furthest along in development are aqueous amine solutions, stemming from nearly a century of use and know-how developed within the natural gas industry. Of these, monoethanolamine (MEA) is perhaps the most well-known, thoroughly studied, and readily available, yet likely cannot meet the stringent energy and cost limitations required to economically achieve 90% CO2 capture at coal-fired power plants. Also in development are piperazine (PZ) and several hindered and ‘advanced’ amines, which show great potential to improve energy efficiency and stability, but are not yet produced on a scale approaching that of MEA. Many other novel solvents have also been proposed, but few have been taken beyond bench-scale activities. Eventually, as CO2 capture processes are broadly deployed worldwide, the solvent(s) with the most favorable economics and performance will need to be manufactured in annual quantities of 1 Mton or greater, effectively creating at least one new chemical of global industrial importance. With the ultimate goal of deep reductions in greenhouse gas (GHG) emissions in mind, the processes by which chemicals for CO2 capture are manufactured should also be considered in terms of their energy requirements, efficiencies, waste products, and CO2 emissions. This review begins to address some of these technical and economic questions by examining the manufacture of several amines that have been proposed for post-combustion CO2 capture, as well as the fundamental building block of all amines, ammonia. © 2012 Society of Chemical Industry and John Wiley & Sons, Ltd" @default.
• W2007358145 created "2016-06-24" @default.
• W2007358145 creator A5014518728 @default.
• W2007358145 date "2012-04-23" @default.
• W2007358145 modified "2023-09-30" @default.
• W2007358145 title "What chemicals will we need to capture CO2?" @default.
• W2007358145 cites W1592002103 @default.
• W2007358145 cites W1965324518 @default.
• W2007358145 cites W1980285534 @default.
• W2007358145 cites W1980389397 @default.
• W2007358145 cites W1993384865 @default.
• W2007358145 cites W2006943587 @default.
• W2007358145 cites W2011696949 @default.
• W2007358145 cites W2013951339 @default.
• W2007358145 cites W2014452947 @default.
• W2007358145 cites W2023649090 @default.
• W2007358145 cites W2044569654 @default.
• W2007358145 cites W2059281497 @default.
• W2007358145 cites W2072447791 @default.
• W2007358145 cites W2076949647 @default.
• W2007358145 cites W2084010251 @default.
• W2007358145 cites W2152473851 @default.
• W2007358145 cites W2163318415 @default.
• W2007358145 cites W2171836549 @default.
• W2007358145 cites W3037763829 @default.
• W2007358145 cites W3198959355 @default.
• W2007358145 cites W4234703063 @default.
• W2007358145 cites W4240266885 @default.
• W2007358145 doi "https://doi.org/10.1002/ghg.1279" @default.
• W2007358145 hasPublicationYear "2012" @default.
• W2007358145 type Work @default.
• W2007358145 sameAs 2007358145 @default.
• W2007358145 citedByCount "52" @default.
• W2007358145 countsByYear W20073581452013 @default.
• W2007358145 countsByYear W20073581452014 @default.
• W2007358145 countsByYear W20073581452015 @default.
• W2007358145 countsByYear W20073581452016 @default.
• W2007358145 countsByYear W20073581452017 @default.
• W2007358145 countsByYear W20073581452018 @default.
• W2007358145 countsByYear W20073581452019 @default.
• W2007358145 countsByYear W20073581452020 @default.
• W2007358145 countsByYear W20073581452021 @default.
• W2007358145 countsByYear W20073581452022 @default.
• W2007358145 countsByYear W20073581452023 @default.
• W2007358145 crossrefType "journal-article" @default.
• W2007358145 hasAuthorship W2007358145A5014518728 @default.
• W2007358145 hasConcept C144133560 @default.
• W2007358145 hasConcept C39432304 @default.
• W2007358145 hasConceptScore W2007358145C144133560 @default.
• W2007358145 hasConceptScore W2007358145C39432304 @default.
• W2007358145 hasIssue "3" @default.
• W2007358145 hasLocation W20073581451 @default.
• W2007358145 hasOpenAccess W2007358145 @default.
• W2007358145 hasPrimaryLocation W20073581451 @default.
• W2007358145 hasRelatedWork W2055151044 @default.
• W2007358145 hasRelatedWork W2110536732 @default.
• W2007358145 hasRelatedWork W2374021052 @default.
• W2007358145 hasRelatedWork W2581745084 @default.
• W2007358145 hasRelatedWork W2596173151 @default.
• W2007358145 hasRelatedWork W2765153054 @default.
• W2007358145 hasRelatedWork W2899084033 @default.
• W2007358145 hasRelatedWork W3007404728 @default.
• W2007358145 hasRelatedWork W3020938133 @default.
• W2007358145 hasRelatedWork W4280521631 @default.
• W2007358145 hasVolume "2" @default.
• W2007358145 isParatext "false" @default.
• W2007358145 isRetracted "false" @default.
• W2007358145 magId "2007358145" @default.
• W2007358145 workType "article" @default.