The DOE seeks to support research into technologies that have the potential to dramatically increase efficiency, lower costs, and deliver more reliable performance.

The Department of Energy (DOE) seeks to support research into technologies that have the potential to dramatically increase efficiency, lower costs, and deliver more reliable performance than existing commercial and near-commercial concentrating solar power (CSP) systems.

The Energy Department’s SunShot Initiative recently announced up to $17 million to support the development of innovative, cost-effective solutions to boost the amount of solar energy that utilities can integrate seamlessly with the national power grid. This funding will help utilities develop adaptable and replicable practices, long-term strategic plans, and technical solutions to sustain reliable operations with large proportions of solar power on the grid. It will also support projects aimed at improving the lifetime and reliability of solar modules and electronics.

The funding is being offered through two opportunities. The Solar Utility Networks: Replicable Innovation in Solar Energy (SUNRISE) funding opportunity is making up to $12 million available for projects to enable utilities to develop long-term strategic plans that integrate high levels of renewable energy generation, while ensuring reliable real-time power system operations.

Also, the Physics of Reliability: Evaluating Design Insights for Component Technologies in Solar (PREDICTS) funding opportunity is making up to $5 million available for projects aimed at improving the lifetime and reliability of PV modules, concentrating solar power (CSP) components, and the electronic hardware used to operate and connect to the grid. The funding covers two topic areas: identification, evaluation, and modeling of intrinsic failure mechanisms in PV and CSP subsystems and system components; and development of standard testing procedures for the lifetime of microinverters and microconverters. The application deadline is April 29, 2013.

This funding opportunity seeks to develop innovative concepts that could lead to performance breakthroughs like improving efficiency and temperature ranges, and demonstrate new approaches in the design of collectors, receivers, and power cycle equipment used in CSP systems.

Each of these subsystems is critical to CSP operation: the collectors collect and concentrate the sun’s energy onto the receiver; the receiver accepts and transfers the heat energy to the power cycle; and the power cycle converts the heat energy into electricity. Developing low-cost collectors, high-temperature receivers, and high-efficiency power cycles should lead to subsequent system integration, engineering scale-up, and eventual commercial production for clean electricity generation applications.

DOE provides funding, through competitive awards, to industry, national laboratories, and universities with the shared goal of making large-scale dispatchable solar energy systems cost competitive without subsidies by the end of the decade.

 

http://www1.eere.energy.gov/solar/sunshot/csp.html

http://www1.eere.energy.gov/solar/sunshot/csp_sunshotrnd.html