Challenges and Opportunities for Metallic Materials in Concentrating Solar Power (CSP)

Concentrating Solar Power (CSP) uses sunlight to heat a transfer media which can be a liquid, solid, or gas to generate electric power or heat for industrial processes. Some of the largest CSP plants in the world have now exceeded 100MW in size and, when coupled with thermal energy storage, are now producing solar powered electricity 24 hours a day. However, on a production-only basis, such plants are not cost competitive with inexpensive PV panels. To drive cost reduction, research is underway to raise the heat-transfer media temperatures for CSP (today's state of the art molten salts operate at ~585^oC) with the goal of improving the overall cycle efficiency. Additionally, various advanced manufacturing methods and materials are being considered to reduce cost or improve cycle performance. This talk will focus on some of the CSP manufacturing and materials research being conducted by EPRI to improve efficiency and lower costs for future CSP systems. This includes:

• Low-cost manufacturing methods such as welded tube and pipe for age-hardneable nickel-based alloys to enable higher temperature operation
• Understanding of oxidation and erosion behavior of materials for solid particle CSP plant components
• Testing the high-temperature performance of thin metallic sheets subjected to diffusion bonding to enable compact lower cost heat exchangers