| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 10148780 | Journal of Environmental Chemical Engineering | 2018 | 69 Pages |
Abstract
In this paper, we have critically reviewed the literature on carbon capture, conversion, and utilization routes and assessed the progress in the research and developments in this direction. Both physical and chemical CO2 utilization pathways are studied and the principles of key routes are identified. The literature is also probed in addressing the process integration scenarios and the performance assessment benchmarks.
Keywords
GTLGHGDMEPOXLHVSNGHENATRFPSOMOFCCUSIPCCCFADMRSMRNBSTMCHFCN-bromosuccinimidePTGBi-reformingBPORWGSOnce throughCTLASUCO2 Capture and UtilizationCCUEGRDMCCCSMEABIRBtLDFTArgonEthylbenzeneethylene oxideCO2 valorizationLCALife-cycle assessmentEORauto-thermal reformingPartial oxidationEnhanced oil recoveryEnhanced gas recoveryRecyclePower-to-gasbenzoyl peroxideCO2 conversionReverse water gas shiftCarbon capture and storageDimethyl carbonateDimethyl ethercoal to liquidSteam-methane reformingBiomass to liquidHeat exchanger networkFischer-TropschMetal-Organic FrameworksProcess systems engineeringDensity functional theoryIntergovernmental Panel on Climate Changeair separation unitClimate change mitigationethylene carbonatePropylene carbonateGas-to-liquidSyngasSynthesis gasSynthetic natural gasGreenhouse gases
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Chemical Engineering (General)
Authors
Ahmad Rafiee, Kaveh Rajab Khalilpour, Dia Milani, Mehdi Panahi,