Facilities
The National Renewable Energy Laboratory (NREL) provides industry, government, and university staff who are researching concentrating solar power (CSP) with access to state-of-the-art equipment that can be used to
Develop materials in the Thin-Film Deposition Laboratory, as well as thermal storage and heat-transfer materials in the Advanced Thermal Storage Materials Laboratory.
Analyze and characterize parabolic-trough receivers in the Receiver Test Laboratory, and test concentrators for CSP systems in the Optical Characterization Laboratory.
Study components during tracking using our Large-Payload Solar Tracker.
Run tests and experiments that require concentrated sunlight at up to 30,000 suns at our High-Flux Solar Furnace.
Large-Payload Solar Tracker
NREL's multipurpose, large-payload tracker supports testing of solar components that require tracking the sun in elevation and azimuth. Concentrating collectors require 2-axis tracking to focus sunlight on a thermal or photovoltaic (PV) receiver. For flat-plate collectors, flat-plate PV, or solar hot-water, this would imply tracking to minimize variation in solar resource during on-sun testing. As applicable, the site can be used to supplement metrology activities that require 2-axis tracking for simultaneous calibration of a large number of solar radiation measurement instrumentation. The large-payload tracker is capable of carrying a maximum vertical load of 9,000 pounds with a tracking accuracy of 1 milliradian.
High-Flux Solar Furnace
The 10-kilowatt High-Flux Solar Furnace (HFSF) has been in operation since 1990 and consists of a tracking heliostat and 25 hexagonal slightly concave mirrors to concentrate solar radiation. The solar furnace can quickly generate up to 1,800 °C over a 1-cm2 area—and up to 3,000 °C with specialized secondary optics to generate concentrations greater than 20,000 suns. Flux levels and distributions can also be tailored to the needs of a particular research activity.
The HFSF test building is equipped with computers and data acquisition tools, video monitors of the outside equipment, sophisticated instruments to monitor solar radiation, and automated devices that enable researchers to control and measure the power of the concentrated sunlight.
The operational characteristics and size of the facility make it ideal for testing over a wide range of technologies with a diverse set of experimental requirements. The high heating rates create the perfect tool for testing high-temperature materials, coatings on metals and ceramics, and other materials-related applications. The power generated can be used to evaluate many components—such as receivers, collectors, and reflector materials—used in CSP systems.
The facility can provide a platform for testing prototype advanced converters and chemical reactors for solar-electric and solar-chemistry applications. Researchers can also use the HFSF to evaluate and develop state-of-the-art measurement systems for the extreme solar environment.