Columbia Generating Station

Columbia Nuclear Generating Station

View of the Columbia Nuclear Generating Station and low draft cooling towers at Hanford WA, USA
Location of Columbia Nuclear Generating Station in Washington (state)
Country United States
Location Benton County, near Richland, Washington
Coordinates 46°28′16″N 119°20′2″W / 46.47111°N 119.33389°W / 46.47111; -119.33389Coordinates: 46°28′16″N 119°20′2″W / 46.47111°N 119.33389°W / 46.47111; -119.33389
Status Operational
Construction began 1975
Commission date December 13, 1984
Operator(s) Energy Northwest
Nuclear power station
Reactor type BWR/5 with Mark-II containment
Reactor supplier General Electric
Power generation
Units operational 1 × 1,170 MW
Make and model Westinghouse Electric
Units planned 2
Annual generation 8,109 GWh
Website
www.energy-northwest.com/generation/cgs/

Columbia Generating Station is a nuclear commercial energy facility located 10 miles (16 km) north of Richland, Washington. It is owned and operated by Energy Northwest, a Washington state, not-for-profit joint operating agency. Licensed by the Nuclear Regulatory Commission in 1983, Columbia first produced electricity in May 1984, and entered commercial operation in December 1984.

Columbia produces 1,190 megawatts of electricity, which is about 10 percent of the electricity generated in Washington state.

Design and function

Columbia Generating Station is a BWR-5, a more robust and updated version of the type of reactor used at the Fukushima Daiichi Nuclear Power Plant. It features a Mark II containment structure.

The reactor core holds up to 764 fuel assemblies, and 185 control rods. The reactor is licensed for a power output of 3486 thermal megawatts (MWt). The gross electrical output of the plant is 1230 megawatts-electric (MWe).[1]

The Columbia Generating Station features six low-profile fan-driven cooling towers. Each tower cascades clean warmed water, a byproduct of water heat exchanging with steam after leaving a turbine, down itself and subsequently cools the warmed water via a combination of evaporation and heat exchange with the surrounding air. Some water droplets fall back to earth in the process, thereby creating a hoar frost in the winter. At times, the vapor cloud from the cooling towers can reach 10,000 feet (3,000 m) in height and can be seen at a great distance. Replacement water for the evaporated water is drawn from the nearby Columbia River.

History

Columbia was built by the former Washington Public Power Supply System, known since 2000 as Energy Northwest. Its construction permit was issued in March 1973, and construction began in late 1975. Because of cost overruns and construction delays it began commercial operation in December 1984. Of the five commercial reactors originally planned by the Bonneville Power Administration and the Supply System in Washington, Columbia was the only one completed.

In 1999 the Supply System changed its name to Energy Northwest, and later the plant's name was changed from WNP-2 (Washington Public Power Supply System Nuclear Project number 2) to Columbia Generating Station. In 2000, then-Executive Board Chairman Rudi Bertschi said the plant’s former name referred “to an earlier era when the Washington Public Power Supply System was building five nuclear power plants. Those days are long gone,” said Bertschi. “Our plant has made the transition, as has Energy Northwest, from being a marginal producer to being a key cog in the region’s energy machine.”

Columbia's original Nuclear Regulatory Commission license to operate was scheduled to expire in December 2023. In January 2010, Energy Northwest filed an application with the Nuclear Regulatory Commission for a 20-year license renewal – through 2043. In May 2012, the NRC approved the 20-year license renewal.

In 2012 Energy Northwest entered into agreements with the Tennessee Valley Authority, the U.S. Enrichment Corporation and the Department of Energy to turn depleted uranium (also called uranium tails) into low-cost enriched uranium product for further future processing into nuclear fuel. Buying under market value at a set price to obtain a nine-year fuel supply, the transaction is estimated to bring between $171 and $275 million in savings to the region through 2028.

Economics

In late 2012 the Bonneville Power Administration and Energy Northwest came together to analyze the financial value of Columbia in light of low energy prices in the wholesale electricity market and historic low fuel costs for natural gas-fired power plants. The agencies studied three scenarios and concluded, in April 2013, that Columbia’s continued operation was the most cost-effective option for consumers.

In April 2013, Energy Northwest commissioned a third-party study by IHS Cambridge Energy Research Associates, a firm with a 75-year reputation for independent expertise in the fields of energy, economics, market conditions and business risk. IHS CERA came to the same conclusion as the April 2013 joint BPA-EN study.

In 2013 the Columbia Generating Station set a record for electricity generation during a refueling outage year – 8.4 million megawatt hours of electricity sent to the regional power grid. In 2012 – a non-refueling outage year – Columbia generated a record 9.3 million megawatt hours of electricity for the regional power grid.

In December 2013, Robert McCullough, "one of the nation’s top utility consultants",[8] published an analysis of the economics of Columbia Generating Station commissioned by Physicians for Social Responsibility, a group that advocates eliminating the use of nuclear power.[9] According to McCullough:[8] the plant’s cost of producing a megawatt hour since 2006 is about $36, roughly 1.5 times what efficient nuclear plants spend; and the plant is the most costly nuclear plant of its kind in the country.

In January 2014, the Public Power Council, representing Northwest consumer-owned utilities, examined the competing market assessments and said they found no compelling evidence that ceasing operation of Columbia is economically advisable for the region. The PPC assessment supported public statements by BPA affirming Columbia’s provision of unique, firm, baseload, non-carbon emitting generation with predictable costs for the region’s ratepayers.

The Public Power Council observed in February 2014 that the variable cost of Columbia operations in recent years were slightly above spot market energy prices. However, the council stated that a single unanticipated shift in the markets “can easily wipe out years of anticipated benefits” gained from replacement power.

The council referenced the Western Energy Crisis of 2000-2001. During that relatively short energy crisis, according to the council, the cost benefit of Columbia’s power “dwarf[ed] the modest benefits that would have been achieved” through replacement power. “In 2001 alone the operation of Columbia Generating Station compared to the market saved Bonneville Power Administration ratepayers $1.4 billion,” according to the council.

Spent fuel

Columbia Generating Station's spent fuel pool is able to accommodate 2,658 fuel assemblies. It was designed as a short-term storage option until a national repository could be built. Since there is no projected operations start date for the proposed but stalled national long-term nuclear waste storage facility at Yucca Mountain Repository in Nevada, the station obtained approval for dry-cask storage to avoid exceeding the pool's licensed capacity. The Columbia Generating Station has an on-site dry cask storage installation, which allows for storage of spent fuel rods in specially designed and manufactured casks. As of 2014, 36 casks have been loaded and stored in the installation, making room in the spent fuel pool for receipt of new fuel.[2]

Surrounding population

The Nuclear Regulatory Commission defines two emergency planning zones around nuclear power plants: a plume exposure pathway zone with a radius of 10 miles (16 km), concerned primarily with exposure to, and inhalation of, airborne radioactive contamination, and an ingestion pathway zone of about 50 miles (80 km), concerned primarily with ingestion of food and liquid contaminated by radioactive materials.[3]

The 2010 U.S. population within 10 miles (16 km) of Columbia was 10,055, an increase of 10.4 percent in a decade.[4] The 2010 U.S. population within 50 miles (80 km) was 445,416, an increase of 23.4 percent since 2000. Cities within 50 miles include Richland (12 miles to city center) and Pasco (18 miles to city center).[4]

Potential risks

The Nuclear Regulatory Commission's estimate of the risk each year of an earthquake intense enough to cause core damage to the reactor at Columbia was 1 in 147,619, according to an NRC study published in August 2010.[5] The Department of Energy is planning a new earthquake assessment that will update the last comprehensive one conducted in 1996.[6] The U.S. Geological Survey has shown that the active faults of the Puget Sound Region are connected to ridges in the Mid-Columbia by faults that cross the Cascades.

According to the U.S. Nuclear Regulatory Commission, the Columbia Generating Station site is a "Dry Site" since the plant is above the Design Basis Flood Line.[7]

See also

References

  1. "Columbia Generating Station - License Renewal Application". Reactor License Renewal. Nuclear Regulatory Commission (NRC). May 22, 2012. Retrieved May 29, 2012.
  2. "Used Fuel". Energy Northwest. Retrieved Sep 15, 2013.
  3. "Backgrounder on Emergency Preparedness at Nuclear Power Plants". Nuclear Regulatory Commission. Retrieved December 13, 2013.
  4. 1 2 Bill Dedman, Nuclear neighbors: Population rises near US reactors, msnbc.com, April 14, 2011 http://www.msnbc.msn.com/id/42555888/ns/us_news-life/ Accessed May 1, 2011.
  5. Bill Dedman, "What are the odds? US nuke plants ranked by quake risk," msnbc.com, March 17, 2011 http://www.msnbc.msn.com/id/42103936/ Accessed April 19, 2011.
  6. "DOE plans seismic analysis at Hanford". Tri-City Herald. April 12, 2012. Retrieved Sep 17, 2013.
  7. "Columbia Generating Station Flood Protection Final Report" (PDF). Nuclear Regulatory Commission. October 25, 2012. Retrieved September 17, 2012.
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