The document discusses integrated solar combined cycle (ISCC) technology, which combines concentrated solar power with a combined cycle power plant. It outlines key design considerations for ISCC including solar resource, land availability, topography, the age and capacity factor of the fossil plant. It also discusses transient operation modeling and provides an example of the Martin Solar Energy Center ISCC plant. Charts show the modeled and actual power output over time for the plant. References on ISCC simulation and integrating solar and conventional energy resources are also provided.
5. Design Considerations
• Solar Resource
• Land Available
• Land Topography
• Fossil Plant Age
• Fossil Plant CF
• Flow Balance
• Temperature Control
• Cloud Cover
• Transient Operation
• Performance Modeling
8. W ( MWe )
10
20
30
40
50
60
70
80
90
0
12:01 AM
1:00 AM
2:00 AM
3:00 AM
4:00 AM
5:00 AM
6:00 AM
Transient Operation
7:00 AM
8:00 AM
9:00 AM
10:00 AM
11:00 AM
Time
12:00 PM
1:00 PM
2:00 PM
3:00 PM
4:00 PM
5:00 PM
6:00 PM
7:00 PM
8:00 PM
9:00 PM
10:00 PM
Actual
11:00 PM
SS Model
USS Model
12:00 AM
10. References
• M Abutayeh, DY Goswami, EK Stefanakos, Solar Thermal Power Plant
Simulation, Environmental Progress & Sustainable Energy Journal, April 2012
• TF Armistead, Integrating solar & conventional energy resources, Combined
Cycle Journal, Second Quarter 2010
• R Bedilion, C Libby, C Turchi, N Langle, Solar-Augment Potential of US
Fossil-Fired Power Plants, NREL & EPRI Technical Report, February 2011