Gas switching reforming (GSR) for power generation with CO2 capture: Process efficiency improvement studies

De- pending on initial state of the grid and amount of wind farm generation, active power was consumed or delivered by the storage system, lowering or rising voltage.. A more

It deals with process design, integration and techno-economic analysis of combined cycle power plants based on two reforming processes, the chemical looping reforming and

As a result, the net electrical efficiency of the GSR-CC process decreases with an increase in oxygen carrier utilization since the work output from the steam

The systematic methodologies developed in our group at SINTEF/NTNU for design of energy efficient fossil fuel power plants with CO 2 capture are presented and

The simulation of similar loads reduction in a reference IGCC plant for power generation with CO 2 capture, showed a more significant decrease in efficiency, confirming

In addition to the post-combustion capture technologies, pre-combustion capture techniques can also be applied on fuel gases to produce a H 2 -based gas to be used in the power

Effect of AR outlet temperature (COT)... H 2 LHV output and the equivalent NG LHV input to the reform- ing process. The equivalent NG LHV input also accounts for imports or exports

The GSR-H2 plant has a 10% higher hydrogen production efficiency with >96% CO 2 capture when compared to a reference steam methane reforming (SMR) plant without any CO 2