Carolinas–Virginia Tube Reactor (CVTR), also known as Parr Nuclear Station, was an experimental pressurized tube heavy water

nuclear power reactor A nuclear reactor is a device used to initiate and control a fission nuclear chain reaction or nuclear fusion reactions. Nuclear reactors are used at nuclear power plants for electricity generation and in nuclear marine propulsion. Heat from ...

at Parr,

South Carolina )'' Animis opibusque parati'' ( for, , Latin, Prepared in mind and resources, links=no) , anthem = " Carolina";" South Carolina On My Mind" , Former = Province of South Carolina , seat = Columbia , LargestCity = Charleston , LargestMetro = ...

Fairfield County Fairfield County is the name of three counties in the United States: * Fairfield County, Connecticut * Fairfield County, Ohio Fairfield County is a county located in the U.S. state of Ohio. As of the 2020 census, the population was 158,921. ...

. It was built and operated by the Carolinas Virginia Nuclear Power Associates. CVTR was a small test reactor, capable of generating 17

megawatt The watt (symbol: W) is the unit of power or radiant flux in the International System of Units (SI), equal to 1 joule per second or 1 kg⋅m2⋅s−3. It is used to quantify the rate of energy transfer. The watt is named after James ...

s of electricity. It was officially commissioned in December 1963 and left service in January 1967. Reactors using heavy water as their moderator have a number of advantages due to their improved

neutron economy Neutron economy is defined as the ratio of an adjoint weighted average of the excess neutron production divided by an adjoint weighted average of the fission production. The distribution of neutron energies in a nuclear reactor differs from the f ...

. This allows them to run on fuels that do not work in conventional

light water reactor The light-water reactor (LWR) is a type of thermal-neutron reactor that uses normal water, as opposed to heavy water, as both its coolant and neutron moderator; furthermore a solid form of fissile elements is used as fuel. Thermal-neutron react ...

s. CVTR, for instance, used slight enrichment, between 1.5 and 2%, compared to 3 to 5% for conventional designs. This means fuel costs are lower, the tradeoff being higher

capital cost Capital costs are fixed, one-time expenses incurred on the purchase of land, buildings, construction, and equipment used in the production of goods or in the rendering of services. In other words, it is the total cost needed to bring a projec ...

s due to the need to buy heavy water. In conceptual terms, CVTR is very similar to the CANDU reactor design that was being pursued by

Atomic Energy of Canada Limited Atomic Energy of Canada Limited (AECL) is a Canadian federal Crown corporation and Canada's largest nuclear science and technology laboratory. AECL developed the CANDU reactor technology starting in the 1950s, and in October 2011 licensed this ...

around the same time. The two designs differ in some design details and that CANDU can run on natural uranium. CVTR is otherwise similar in most respects, and about the same size and power as the 22 MWe

Nuclear Power Demonstration Nuclear Power Demonstration (or NPD) was the first Canadian nuclear power reactor, and the prototype for the CANDU reactor design. Built by Canadian General Electric (now GE Canada), in partnership with Atomic Energy of Canada Limited (AECL), O ...

which entered service in 1962.

Background

Light water designs

Conventional

s resemble a coal fired power plant in overall design, in that a boiler is used to produce steam which then drives a steam turbine to produce electricity. The boiler is the only significant difference. In a coal plant, this normally consists of a system to burn the coal while water circulates through the boiler in a series of tubes. The water is held under pressure in order to increase its boiling point, which makes the turbines more efficient. In the case of a nuclear plant, the boiler is replaced with the reactor, which is more complex than a coal boiler for a number of reasons. For one, the water not only acts as the cooling fluid, but also as the neutron moderator, which means its control is vital to the operation of the system as a whole. Additionally, the water tends to pick up radioactivity from the reactor's operation, which leads to safety concerns and maintenance overhead. Finally, steam and liquid water have different moderating qualities, so most (but not all) light water designs keep the water below the boiling point and use a

steam generator A Steam generator is a device used to boil water to create steam. More specifically, it may refer to: *Boiler (steam generator), a closed vessel in which water is heated under pressure *Monotube steam generator *Supercritical steam generator or Ben ...

to feed the turbines. The major advantage to the light water design concept is that it is simple and similar to existing systems in many ways. It has one major disadvantage, however, which is that the water removes

neutron The neutron is a subatomic particle, symbol or , which has a neutral (not positive or negative) charge, and a mass slightly greater than that of a proton. Protons and neutrons constitute the nuclei of atoms. Since protons and neutrons beh ...

s which lowers the reactor's overall

. This is enough of an effect that there are not enough neutrons of the right energy to maintain the

chain reaction A chain reaction is a sequence of reactions where a reactive product or by-product causes additional reactions to take place. In a chain reaction, positive feedback leads to a self-amplifying chain of events. Chain reactions are one way that sys ...

in natural uranium fuel. This requires such designs to use

enriched uranium Enriched uranium is a type of uranium in which the percent composition of uranium-235 (written 235U) has been increased through the process of isotope separation. Naturally occurring uranium is composed of three major isotopes: uranium-238 (238U ...

to offset this effect, which increases the price of fuel.

Heavy water concept

Using natural uranium in a reactor would offer the advantage of lowered fuel costs and better availability as the supply is not dependent on the enrichment cycle. This also offers some protection against nuclear proliferation. In order to do so, the reactor needs to use some other form of moderator that improves the neutron economy. Several such moderators have been suggested, including

carbon dioxide Carbon dioxide ( chemical formula ) is a chemical compound made up of molecules that each have one carbon atom covalently double bonded to two oxygen atoms. It is found in the gas state at room temperature. In the air, carbon dioxide is trans ...

as in the UK Advanced Gas-cooled Reactor, liquid metals including

sodium Sodium is a chemical element with the symbol Na (from Latin ''natrium'') and atomic number 11. It is a soft, silvery-white, highly reactive metal. Sodium is an alkali metal, being in group 1 of the periodic table. Its only stable ...

lead Lead is a chemical element with the symbol Pb (from the Latin ) and atomic number 82. It is a heavy metal that is denser than most common materials. Lead is soft and malleable, and also has a relatively low melting point. When freshly cu ...

as in various

breeder reactor A breeder reactor is a nuclear reactor that generates more fissile material than it consumes. Breeder reactors achieve this because their neutron economy is high enough to create more fissile fuel than they use, by irradiation of a fertile mate ...

s, and heavy water. Of these, heavy water has the major advantage that it is simple to work with. The downside is that it is expensive and a limited resource. This led to the pressurized tube reactor concept, where the pressurized section of the system contains only enough coolant to cool the reactor, the rest of the moderator is placed around it in an unpressurized vessel. In the case of a loss-of-coolant event, only the water in the pressurized system would be lost. Heavy Water Reactors: Status and Projected Development; Technical Reports Series No. 407. International Atomic Energy Agency; Vienna, 2002.

Design

Design of the CVTR began around 1955. CVTR had a thermal output of about 65 MW_th and a gross electrical output of 19 MW. Westinghouse Atomic Power Division was responsible for the design of the nuclear systems while Stone and Webster Engineering designed the remainder of the plant.
Okrent, David. On the History of the Evolution of Light Water Reactor Safety in the United States. NRC ADAMS ascension number ML090630275 The reactor consisted of 36 vertical U-tube fuel channels in a moderator tank which was 10 feet in diameter and 16 feet tall. Each leg of the U-tube contained one fuel assembly made up of 19

fuel rod Nuclear fuel is material used in nuclear power stations to produce heat to power turbines. Heat is created when nuclear fuel undergoes nuclear fission. Most nuclear fuels contain heavy fissile actinide elements that are capable of undergoing ...

s. The reactor used

; 12 of the tubes contained fuel enriched to 1.5% U-235 and 24 tubes contained fuel enriched to 2% U-235. During power operation, heavy water was circulated by primary pumps through the U-tubes containing the fuel assemblies which heated the water. The heated water then flowed through an inverted U-tube

where the heat was transferred to the secondary side light water which turned to steam. The steam flowed to an oil-fired superheater which increased the steam quality before the steam entered the

turbine A turbine ( or ) (from the Greek , ''tyrbē'', or Latin ''turbo'', meaning vortex) is a rotary mechanical device that extracts energy from a fluid flow and converts it into useful work. The work produced by a turbine can be used for generating ...

which spun the

electrical generator In electricity generation, a generator is a device that converts motive power (mechanical energy) or fuel-based power ( chemical energy) into electric power for use in an external circuit. Sources of mechanical energy include steam turbines, g ...

. After passing through the steam generator, the primary loop water was pumped back to the reactor by the primary pumps to repeat the cycle. The primary loop heavy water was pressurized to ensure that the heavy water remained liquid and did not

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to steam at any point in the loop. The U-shaped pressure tubes containing the fuel were thermally isolated from the hot fuel assembly by two circular thermal baffle tubes around the fuel assembly. This allowed the pressure tubes to operate at low temperatures, essentially that of the moderator tank which was maintained about 155 degrees F and close to atmospheric pressure. The moderator tank contained heavy water which moderated the fission process during operation of the reactor. The CVTR

containment Containment was a geopolitical strategic foreign policy pursued by the United States during the Cold War to prevent the spread of communism after the end of World War II. The name was loosely related to the term ''cordon sanitaire'', which wa ...

design was a new concept at the time; the general design later became the prevalent design for pressurized water reactor containments in the United States. Designed by Stone and Webster Engineering, the design was focused on not allowing any leakage of radioactive gases or material following an accident. The containment design featured a flat concrete foundation, cylindrical walls, and a hemispherical dome all constructed of reinforced concrete. The entire interior of the containment building was lined with an airtight layer of welded steel plates 1/2" or 1/4" thick, depending on location. From the basement floor to the interior surface of the top of the dome measured 114’-2”. The vertical walls were 2’-0” thick, the cylindrical structure had an interior diameter of 58’-0”, and the dome had a slightly larger interior radius of 29’-4”.
Tills, Jack, et al. SAND2008-1224 An Assessment of MELCOR 1.8.6: Design Basis Accident Tests of the Carolinas Virginia Tube Reactor (CVTR) Containment (Including Selected Separate Effects Tests); Sandia National Laboratories, February 2008. NRC ADAMS ascension number ML080840322 The reactor and facilities were located at Parr, SC just to the northeast of the existing Parr Reservoir

hydroelectric dam Hydroelectricity, or hydroelectric power, is electricity generated from hydropower (water power). Hydropower supplies one sixth of the world's electricity, almost 4500 TWh in 2020, which is more than all other renewable sources combined an ...

across the Broad River on a high bluff that overlooks the dam powerhouse.

Construction

The site for the CVTR was approved by the Atomic Energy Commission’s Advisory Committee on Reactor Safeguards in January 1959. Construction started on January 1, 1960. CVRT was the first US heavy water power reactor.
Crandall, J. L. et al. Lattice studies and critical experiments in D2O moderated systems. Proceedings of the Third International Conference on the Peaceful Uses of Atomic Energy. Geneva. 1964. NRC ADAMS ascension number ML051680328

Operation

CVTR was operated by the Carolinas Virginia Nuclear Power Associates, which was a consortium of the following utilities:

Carolina Power & Light Company Carolina Power & Light (CP&L), later doing business as Progress Energy Inc., was an electrical generation, transmission, and distribution utility based in Raleigh, North Carolina. The company was founded on July 13, 1908 as the result of the merge ...

Duke Power Company Duke Energy Corporation is an American electric power and natural gas holding company headquartered in Charlotte, North Carolina. Overview Based in Charlotte, North Carolina, Duke Energy owns 58,200 megawatts of base-load and peak generation in ...

, South Carolina Electric & Gas Company (SCE&G), and Virginia Electric and Power Company The reactor went

critical Critical or Critically may refer to: *Critical, or critical but stable, medical states **Critical, or intensive care medicine *Critical juncture, a discontinuous change studied in the social sciences. *Critical Software, a company specializing in ...

for the first time on March 30, 1963. CVTR operated successfully from 1963 to 1967. It was shut down after the completion of the planned test program. Staff: Harry Ferguson, General Manager (initial); Mayhue Bell (later) Walt Selkinghouse, Plant Superintendent Paul Barton, Operations Supervisor Shift Supervisors: James Wright; Pete Beament; Stan Nabow; J. Ed Smith Shift Nuclear Engineers: Sam McManus; Doug Simpson; Larry E. Smith; Joseph M."Mack" McGough Health Physicist: Lionel Lewis Construction Supervisor: Bill Thomas Engineering Supervisor: Shep Waggoner

Test facility use

Following decommissioning of the CVTR, the facility was used for conducting large scale tests to provide experimental information on the response of containment structures to severe events. In the late 1960s, three tests were conducted in which large volumes of steam from the nearby

coal-fired power plant A coal-fired power station or coal power plant is a thermal power station which burns coal to generate electricity. Worldwide, there are about 8,500 coal-fired power stations totaling over 2,000 gigawatts capacity. They generate about a th ...

was suddenly released into the CVTR Containment and the response of the plant measured. The results of these experiments were later used for the development and validation of computer model codes.

Decommissioning

The CVTR has been decommissioned and its license was withdrawn. No fuel remains onsite. By the Fall of 2009, demolition was complete and the site returned to greenfield. The much larger and currently operational Virgil C. Summer Nuclear Generating Station was constructed in the 1970s, and began operating in 1984, approximately three miles north of the CVTR.

References

External links

*
''Heavy Water Reactors: Status and Projected Development'', IAEA Technical Report No. 407
CVTR is described on pp. 52 – 55.
Decommissioning Nuclear Power Plants
{{DEFAULTSORT:Carolinas-Virginia Tube Reactor Energy infrastructure completed in 1963 Buildings and structures in Fairfield County, South Carolina Decommissioned nuclear power stations in the United States Nuclear power plants in South Carolina