Carbon capture and storage (CCS): the way forward
Mai BuiCentre for Environmental PolicyClaire S. AdjimanCentre for Process Systems EngineeringAndré Bardow52056 AachenEdward J. AnthonyBedfordAndy BostonLoughboroughSolomon BrownDepartment of Chemical and Biological EngineeringPaul S. FennellDepartment of Chemical EngineeringSabine Fuss10829 BerlinAmparo GalindoCentre for Process Systems EngineeringLeigh A. HackettJason P. HallettDepartment of Chemical EngineeringHoward J. HerzogCambridgeGeorge JacksonDepartment of Chemical EngineeringJasmin KemperCheltenhamSamuel KrevorDepartment of Chemical EngineeringGeoffrey C. MaitlandDepartment of Chemical EngineeringMichael MatuszewskiNational Energy Technology Laboratory (NETL)Ian S. MetcalfeNewcastle UniversityCamille PetitDepartment of Chemical EngineeringGraeme PuxtyAustraliaJeffrey A. ReimerBerkeleyDavid ReinerEnergy Policy Research GroupEdward S. RubinCarnegie Mellon UniversityStuart A. ScottCambridge CB2 1PZNilay ShahCentre for Process Systems EngineeringBerend SmitBerkeleyJ. P. Martin TruslerDepartment of Chemical EngineeringPaul A. WebleyAustraliaJennifer WilcoxChemical and Biological Engineering DepartmentNiall Mac DowellCentre for Environmental Policy
2018en
ABI
Аннотация
Carbon capture and storage (CCS) is vital to climate change mitigation, and has application across the economy, in addition to facilitating atmospheric carbon dioxide removal resulting in emissions offsets and net negative emissions. This contribution reviews the state-of-the-art and identifies key challenges which must be overcome in order to pave the way for its large-scale deployment.
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