Performance of sorption-enhanced water-gas shift as a pre-combustion CO2 capture technology

Energy Procedia

Volumn 1, Issue 1, 2009, Pages 689-696

  van Selow, E R ^a   Cobden, P D ^a   van den Brink, R W ^a   Hufton, J R ^b   Wright, A ^b  

^a TNO   (Netherlands)

^b AIR PRODUCTS AND CHEMICALS INC   (United States)

Author keywords

decarbonization; hydrogen production; hydrotalcites; power plants; pre combustion capture; pressure swing adsorption; sorption enhanced; water gas shift reaction

Indexed keywords

A-CARBON; AUTOTHERMAL REFORMING; BREAKTHROUGH CAPACITY; CAPTURE RATE; CARBON CAPTURE; CARBON MONOXIDE CONVERSION; CATALYST PELLET; COMBINED CYCLE; CYCLIC OPERATION; DESORPTION CYCLE; EXPERIMENTAL DATA; FIXED-BED REACTORS; GAS COMPOSITIONS; HIGH PARTIAL PRESSURE; HYDROTALCITES; LOWER COST; MULTIPLE REACTOR VESSELS; PILOT UNITS; POWER PRODUCTION; PRE-COMBUSTION CAPTURE; PRE-COMBUSTIONS; PRESSURE SWING ADSORPTION; PROCESS CONDITION; PROOF OF PRINCIPLES; SCALE-UP; SORBENT AND CATALYST; SORBENT MATERIALS; SORPTION CAPACITIES; SYN-GAS; WATER-GAS SHIFT REACTION; WATER-GAS SHIFTS;

ADSORPTION; CARBON MONOXIDE; CATALYSIS; CATALYST ACTIVITY; CHEMICAL REACTORS; COAL COMBUSTION; DESORPTION; DEWATERING; GAS ABSORPTION; GAS INDUSTRY; GAS PLANTS; GAS PRODUCERS; GASES; HYDROGEN PRODUCTION; MATERIALS; NUCLEAR REACTORS; PELLETIZING; POTASSIUM; REACTOR REFUELING; SMOKE; SORBENTS; STEAM POWER PLANTS; TECHNOLOGY; THERMOCHEMISTRY; WASTEWATER TREATMENT;

NATURAL GAS WELL PRODUCTION;

EID: 67650112609     PISSN: None     EISSN: 18766102     Source Type: Conference Proceeding    
DOI: 10.1016/j.egypro.2009.01.091     Document Type: Conference Paper

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