Decomposition of Ammonia in IGCC Fuel Gas Streams

Abstract: Decomposition of Ammonia in IGCC Fuel Gas Streams Shaik A. Qader (909) 466-6266 Qusro A, Qader (9o9) 466-6266

“…This concept has been investigated by a number of other researchers [22,23,24,25]. One study, conducted with nickel and rutheniumbased catalysts at temperatures between 700 and 900°C (1290 to 1650°F) [22], showed the greatest ammonia decomposition (>85%) at the highest temperature of 900°C (1650°F).…”

“…Deactivation of the ammonia catalyst material was more rapid than the H 2 S saturation of the Zn-based sorbent so the regeneration cycle time would be dictated by the ammonia decomposition kinetics; however, the HART-49 material seemed to regenerate very well over thirty cycles. The third study conducted ammonia decomposition tests in the presence of a RA-330 honeycomb catalysts in the temperature range of 650 to 700°C (1200-1300°F) and 870 to 980°C (1600-1800°F) and with a alumino-silicate catalyst in the 425 to 540°C (800 to 1000°F) temperature range [25]. Ammonia decomposition exceed 99% at temperatures above 1300°F, but in the presence of hydrogen the conversion drops to approximately 85% at 870°C (1600°F).…”

Biomass Gasification and Power Generation Using Advanced Gas Turbine Systems

“…This concept has been investigated by a number of other researchers [22,23,24,25]. One study, conducted with nickel and rutheniumbased catalysts at temperatures between 700 and 900°C (1290 to 1650°F) [22], showed the greatest ammonia decomposition (>85%) at the highest temperature of 900°C (1650°F).…”

“…Deactivation of the ammonia catalyst material was more rapid than the H 2 S saturation of the Zn-based sorbent so the regeneration cycle time would be dictated by the ammonia decomposition kinetics; however, the HART-49 material seemed to regenerate very well over thirty cycles. The third study conducted ammonia decomposition tests in the presence of a RA-330 honeycomb catalysts in the temperature range of 650 to 700°C (1200-1300°F) and 870 to 980°C (1600-1800°F) and with a alumino-silicate catalyst in the 425 to 540°C (800 to 1000°F) temperature range [25]. Ammonia decomposition exceed 99% at temperatures above 1300°F, but in the presence of hydrogen the conversion drops to approximately 85% at 870°C (1600°F).…”

Biomass Gasification and Power Generation Using Advanced Gas Turbine Systems

By-products from the integrated gas combined cycle in IGCC systems

Decomposition of NH3 over Zn–Ti-based desulfurization sorbent promoted with cobalt and nickel