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1950s |
Photovoltaic technology was born in the United
States with the invention of the silicon solar cell at Bell Labs. |
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1958 |
Federal support for photovoltaic technology was
initially tied to the space program, where its use was to provide power
for the Vanguard satellite. |
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1973 |
Spurred by the first oil embargo that year, interest
in terrestrial applications of photovoltaics blossomed. |
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1970s |
By the late 1970s, a program for the development
of distributed photovoltaics was established by the U.S. Government at the
Massachusetts Institute of Technology, focusing on design and demonstration
issues for the buildings sector. |
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1978 |
Energy tax credit The Energy Tax Act of 1978 established a 10-percent
investment credit for photovoltaic applications.
Solar Photovoltaic Energy, Research, Development and Demonstration Act
committed $1.2 billion (current dollars) over 10 years to improve photovoltaic
production levels, reduce costs,and stimulate private-sector purchases.
Photovoltaic energy commercialization program established a photovoltaic
commercialization pathway, accelerating the installation of photovoltaic
systems in Federal facilities.
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1980 |
The Carlisle house was completed with participation from MIT, DOE, and
Solar Design Associates. The residence featured the first building-integrated
photovoltaic system, passive solar heating and cooling, superinsulation,
internal thermal mass, earth-sheltering, daylighting, a roof-integrated
solar thermal system, and a 7.5-peak-watt photovoltaic array of polycrystalline
modules from Solarex.
The Crude Oil Windfall Profit Tax was enacted, raising the residential
tax credit to 40 percent of the first $10,000 for photovoltaic applications,
raising the business tax credit to 15 percent, and extending the credit
to the end of 1981.
More than 10 percent efficiency achieved by thin film cells Boeing and
Kodak fabricated the first thin-film photovoltaic cells with efficiencies
greater than 10 percent.
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1985 |
The 6-megawatt Carissa Plains plant was added
to Southern California Edison’s system. The project was later dismantled. |
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1989 |
Renewable Energy and Energy Efficiency Technology Competitiveness Act
sought to improve the operational reliability of photovoltaic modules,
increase module efficiencies, decrease direct manufacturing costs, and
improve electric power production costs.
PV for Utility Scale Applications (PVUSA), a national public-private
partnership program, was created to assess and demonstrate the viability
of utility-scale photovoltaic electric generating systems. PVUSA participants
include Pacific Gas & Electric (PG&E), DOE, the Electric Power
Research Institute, the California Energy Commission, and eight utilities
and other agencies. The project was designed to provide utilities with
the hands-on experience needed to evaluate and apply photovoltaic technologies,
provide manufacturers with a test bed for their products, and generate
communication between utilities and the photovoltaics industry.
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1990 |
Siemens A.G. of Munich, West Germany, acquired California-based ARCO
Solar, the world’s largest photovoltaic company. The sale, valued at $30
to $50 million, was a stock transaction, with Siemens buying all ARCO
Solar stock and certain other assets related to its business.
The PV Manufacturing Technology (PVMaT) project began. The activity
is a government/industry research and development partnership between
DOE and members of the U.S. photovoltaic industry. PVMaT is designed to
improve manufacturing processes, accelerate manufacturing cost reductions
for photovoltaic modules, improve commercial product performance, and
lay the groundwork for a substantial scale-up of manufacturing capacity.
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1992 |
The University of South Florida fabricated a
15.89-percent efficient thin-film cell, breaking the 15-percent barrier
for the first time |
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1993 |
As part of the PVUSA program, PG&E completed the installation of
the first grid-supported photovoltaic system in Kerman, California. The
500-kilowatt system was the first effort aimed at“distributed power,”
where a relatively small amount of power is carefully matched to a specific
load and is produced near the point of consumption. The approach differs
significantly from the traditional utility-supply model, where electricity
is generated at a central point and distributed to outlying areas through
high-voltage transmission lines.
New world-record efficiencies in polycrystalline thin film and single-crystal
devices, approaching 16 percent and 30 percent, respectively, were achieved
in 1993.
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1995 |
Joint venture by Amoco and Enron announced their
intention to use amorphous silicon modules for utility- scale photovoltaic
applications. |
