February 9, 2011
DOE Details Initiative to Reduce PV Costs by 75% by 2020
The Department of Energy (DOE) last week released additional details of its “SunShot Initiative,” a program that seeks to reduce the total costs of photovoltaic (PV) solar energy systems by about 75% before 2020 so that costs for PV systems can compete with other forms of energy without subsidies.
“With the cost of utility-scale installations reduced to $1 a watt (or roughly 6 cents per kilowatt-hour), PV systems could be broadly deployed across the
According to the DOE, SunShot is expected to work to bring down the full cost of solar—including the costs of the solar cells and installation—by focusing on four areas: technologies for solar cells and arrays that convert sunlight to energy; electronics that optimize the performance of the installation; improvements in the efficiency of solar manufacturing processes; and improvements in installation, design, and permitting for solar energy systems.
Last week, the DOE also announced that it would invest up to $20.3 million in “innovative projects” to strengthen the
- 1366 Technologies: ($3 million,
): The goal of this project is to further develop a new, manufacturing process that dramatically reduces the cost of producing silicon wafers for use in silicon PV modules. The Direct Wafer process delivers significant improvements in manufacturing efficiency since it does not require sawing individual wafers from blocks of silicon. Lexington, Mass.
- 3M: ($4.4 million,
): The goal of this project is to develop and commercialize a flexible, highly transparent Ultra Barrier Topsheet that will enable successful commercialization of flexible photovoltaic modules. St. Paul, Minn.
- PPG: ($3.1 million,
): The goal of this project is to develop the materials, coating designs, and manufacturing processes necessary to commercialize a new glass article for the Cadmium Telluride (CdTe) module manufacturing industry. Cheswick, Penn.
- Varian Semiconductor: ($4.8 million,
): The goal of this project is to reduce the cost of manufacturing interdigitated back contact cells, the most efficient silicon solar cells on the market. Gloucester, Mass.
- Veeco: ($4.8 million,
): The goal of this project is to accelerate the research and development, integration and commercialization of an innovative thin film CIGS (Copper, Indium, Gallium, Diselenide) PV multi-stage thermal deposition production system in order to manufacture cost-efficient CIGS PV solar cells. Lowell, Mass.