Semi–Closed Hat (SC-HAT) Power Cycle

Abstract: This new power cycle is derived from a simplified HAT cycle, with a partial recirculation of the exhaust gases added with respect to the traditional HAT configuration. The basic idea of applying recirculation to the HAT cycle stems from the interesting performance levels and general environmental advantages obtainable applying this technique to combined-cycle (SCGT/CC) and regenerative GT solutions (SCGT/RE); these power plants all share the integration with CO2 chemical scrubbing of the exhaust stack in order… Show more

“…The increasing awareness about greenhouse effects on the environment has addressed the efforts of many researchers to the development of new power cycle concepts, which include sequestration of CO 2 [1][2][3][4][5][6][7]. Several options have been proposed; among these, the application of oxy-combustion has a special attractiveness, because it allows separation of CO 2 from the combustion products (basically, CO 2 and H 2 O) by simple physical processes, that is, by cooling the gas stream below the dew point.…”

Performance of an oxy-fuel combustion CO2 power cycle including blade cooling

“…The increasing awareness about greenhouse effects on the environment has addressed the efforts of many researchers to the development of new power cycle concepts, which include sequestration of CO 2 [1][2][3][4][5][6][7]. Several options have been proposed; among these, the application of oxy-combustion has a special attractiveness, because it allows separation of CO 2 from the combustion products (basically, CO 2 and H 2 O) by simple physical processes, that is, by cooling the gas stream below the dew point.…”

Performance of an oxy-fuel combustion CO2 power cycle including blade cooling

Analysis of the GT26 single-shaft gas turbine performance and emissions

The air membrane-ATR integrated gas turbine power cycle: A method for producing electricity with low CO2 emissions