Purdue University Reactor Number One

Purdue University Reactor Number One

The PUR-1 cooling pool

Location of Purdue University Reactor Number One

Operating Institution Purdue University
Location West Lafayette, Indiana, USA
Coordinates 40°25′42″N 86°54′41″W / 40.42833°N 86.91139°W / 40.42833; -86.91139Coordinates: 40°25′42″N 86°54′41″W / 40.42833°N 86.91139°W / 40.42833; -86.91139
Type Pool
Power 1 kW (thermal)
Construction and Upkeep
Construction Cost $125,000
Construction Began 1961 (1961)
First Criticality August 30, 1962[1]
Annual Upkeep Cost $7,000
Staff 3
Operators 3
Technical Specifications
Max Thermal Flux 2.1×1010 n/cm2·s
Max Fast Flux 1.2×1010 n/cm2·s
Fuel Type Flat plate MTR[1]
Cooling Light water
Neutron Moderator Light water
Neutron Reflector Graphite
Control Rods 3
Cladding Material Aluminum alloy
Source(s): "PUR-1 Purdue Univ.". International Atomic Energy Agency. September 17, 1998. Retrieved October 6, 2012. 

The Purdue University Reactor Number One (PUR-1) is a research reactor in West Lafayette, Indiana, United States. It is used primarily for teaching purposes in Purdue University's School of Nuclear Engineering. Built in 1962, the PUR-1 is the first and only nuclear reactor operating in the US state of Indiana.

Design

In April 1961, Purdue University selected Lockheed Corporation to build its research reactor after twelve companies submitted bids.[2] It was installed underground, three stories beneath the Duncan Annex of Purdue's Electrical Engineering Building.[3][4] The reactor first achieved criticality on August 30, 1962, and a dedication ceremony was held on September 27 of that year.[1][5] The construction cost was $125,000.[5]

The PUR-1 was the first nuclear reactor in Indiana.[2] Another reactor was later installed at the planned Marble Hill Nuclear Power Plant in Jefferson County but was removed when construction of the plant halted in 1984. As a result, the PUR-1 is currently the only reactor in the state.[6]

The Purdue reactor was among the first to be designed mainly for student use.[2] It is licensed to produce up to one kilowatt of thermal power, comparable to the energy demand of a hair dryer or a toaster.[3] This low power makes it safer and less expensive than reactors designed for research or electricity generation.[2] The reactor's core is two cubic feet (0.057 m3) in volume and sits at the bottom of a seventeen-foot-deep (5.2 m) cooling pool of water that measures eight feet (2.4 m) in diameter.[3] This allows the core to be safely viewed while it is operating.[2]

Use

The reactor's primary purpose is for training students in the principles of reactor physics.[1][3] The university also uses it as a source for neutrons for research in nuclear engineering, health science, chemistry, pharmacy, agriculture, biology, and nanotechnology.[7]

Purdue's reactor is also used for outreach. The School of Nuclear Engineering regularly gives tours of its facilities to local high school students and the general public. As of 2012, it was estimated that between 1,600 and 1,800 visitors see the reactor facilities annually.[3]

Safety

In 2005, journalism interns produced a report for ABC News about the possibility of terrorist attacks on research reactors in the United States. When they arrived at Purdue University, the interns were surprised at how easy it was for the general public to obtain a tour of the reactor facilities. They also noted a lack of background checks, guards, and metal detectors.[8]

In response, the university said that the ABC report had misrepresented the nature of research reactors and that the interns were not qualified to make such safety evaluations. Unlike power plants, that produce electricity by running steam turbines, research reactors operate well below boiling conditions. Because of its low power range and its underground location, Purdue says that any attack on its reactor facilities would be unlikely to affect anything outside of that room. The way in which the reactor is installed means that theft of its fuel would require "a major construction project" that "could not be done covertly."[4]

The PUR-1 originally used highly enriched, or "weapons-grade", uranium as fuel. In 1982, the government announced plans to convert civilian reactors to low-enriched uranium.[9] Conversion of the Purdue reactor was completed in September 2007.[10]

See also

References

  1. 1 2 3 4 Bean, R.S.; Merritt, E.C. (February 22, 2000). Perez, Pedro B., ed. "Purdue University". University Research Reactors: Contributing to the National Scientific and Engineering Infrastructure from 1953 to 2000 and Beyond. National Organization of Test, Research and Training Reactors. Retrieved October 6, 2012.
  2. 1 2 3 4 5 "First in State: Purdue to Get Nuclear Reactor". The Rochester Sentinel. Rochester, Indiana. April 24, 1961. p. 1. Retrieved October 6, 2012.
  3. 1 2 3 4 5 Hamon, Amanda (September 25, 2012). "Did You Know?: Purdue Reactor No. 1". Purdue University. Retrieved October 6, 2012.
  4. 1 2 Tsoukalas, Lefteri (October 14, 2005). "Commentary on ABC's nuclear report". Purdue University. Retrieved October 6, 2012.
  5. 1 2 "Purdue Dedicates Atomic Furnace". Warsaw Times-Union. Warsaw, Indiana. Associated Press. September 28, 1962. p. 10. Retrieved October 6, 2012.
  6. "Indiana". Nuclear Regulatory Commission. May 17, 2012. Retrieved October 6, 2012.
  7. "Purdue: University's nuclear reactor safe, federal guidelines followed". Purdue University. October 14, 2005. Retrieved October 6, 2012.
  8. "Purdue University". ABC News. November 9, 2005. Retrieved October 6, 2012.
  9. "Guidelines forthcoming to halt use in colleges of bomb-grade uranium". St. Joseph News-Press/Gazette. St. Joseph, Missouri. Associated Press. January 28, 1984. p. 10C. Retrieved October 6, 2012.
  10. "NNSA Successfully Converts Third Domestic Research Reactor in the Last Year". National Nuclear Security Administration. September 13, 2007. Retrieved September 2, 2013.
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