Solar Retrofit to Combined Cycle Power Plant With Thermal Energy Storage

Abstract: Solar thermal power plants have been constructed over the past two decades to reduce harmful emissions and provide a long-term solution for oil independent electricity generation. Of the solar power plant solutions, Rankine cycle based machines have most widespread uses. This study focuses on the modeling of a solar retrofit to a typical combined cycle power plant. The goal is to operate the plant 17 hours per day, making use of thermal storage capability so that the plant may operate even during a portion of … Show more

“…This steady temperature control further contributes to overall system performance and solar energy utilization [22]. A solar-tower, hybrid combined cycle plant has been proposed in literature [23][24][25] and a more common solar-tower Brayton plant has been developed at the pilot level [26][27][28] and modeled extensively [5,18,29]. Studies involving tower-driven plants have seen an increase in interest due to their high concentration ratios, which can realize the high operating temperatures needed to drive the Brayton cycle and combined cycle plants [14].…”

Leveraging Energy Storage in a Solar-Tower and Combined Cycle Hybrid Power Plant

“…This steady temperature control further contributes to overall system performance and solar energy utilization [22]. A solar-tower, hybrid combined cycle plant has been proposed in literature [23][24][25] and a more common solar-tower Brayton plant has been developed at the pilot level [26][27][28] and modeled extensively [5,18,29]. Studies involving tower-driven plants have seen an increase in interest due to their high concentration ratios, which can realize the high operating temperatures needed to drive the Brayton cycle and combined cycle plants [14].…”

Leveraging Energy Storage in a Solar-Tower and Combined Cycle Hybrid Power Plant

On the auxiliary boiler sizing assessment for solar driven supercritical CO2 double recompression Brayton cycles

A review of concentrated solar power hybrid technologies