Evaluation of a pre-combustion capture cycle based on hydrogen fired gas turbine with exhaust gas recirculation (EGR)

The use of GS chemical looping technology improved the exergy utilization of the gas turbine section by avoidance of the combustion chamber; however, due to the lower TIT achieved,

Abstract This work presents the limitations of the Selective Exhaust Gas Recycle process for post-combustion capture from natural gas combined cycles using membranes and proposes

An evaluation was made of the impact the aluminum exhaust gas may have on the gas turbine and it is estimated that the most critical issues are corrosion due to SO 2 in the

In this study, first of its kind complete plant scale integration of pre-combustion CO 2 capture method with Chemical Looping Reforming (CLR) of Natural Gas (NG), Water Gas Shift

Injection of hydrogen through a permeable wall would enable optimally distributed fuel injection into the oxidant stream of pressurized air from the gas turbine compressor,

One possible solution to this challenge is gas switching combustion (GSC): a promising technology for gaseous fuel combustion with integrated CO 2 capture at almost no direct

We observe that on the average, the flue gas volume when shifting to oxy-firing is about x 0.7 times the volume when firing with air, assuming a flue gas temperature in the combustion

This paper presents results from investigation of a hybrid membrane process combined with low- temperature CO 2 separation for post-combustion capture from coal-fired power