- Liquid metal cooled reactor
A Liquid metal cooled nuclear reactor, liquid metal fast reactor or LMFR is an advanced type of
nuclear reactorwhere the primary coolantis a liquid metal. Liquid metal cooled reactors were first adapted for nuclear submarineuse but have also been extensively studied for power generation applications. They have safety advantages because the reactor doesn't need to be kept under pressure, and they allow a much higher power densitythan traditional coolants. Disadvantages include difficulties associated with inspection and repair of a reactor immersed in opaque molten metal, and depending on the choice of metal, corrosion and/or production of radioactive activation products may be an issue.
The reactors are used in
nuclear power plantsto produce nuclear powerfrom nuclear fuel.
In practice, all liquid metal cooled reactors are
fast neutron reactors, and to date most fast neutron reactors have been liquid metal cooled fast breeder reactors ( LMFBRs), or naval propulsion units. The liquid metals used typically need good heat transfer characteristics. Fast neutron reactor cores tend to generate a lot of heat in a small space when compared to reactors of other classes. A low neutron absorption is desirable in any reactor coolant, but especially important for a fast reactor, as the good neutron economy of a fast reactor is one of its main advantages. Since slower neutrons are more easily absorbed, the coolant should ideally have a low moderation of neutrons. It is also important that the coolant does not cause excessive corrosion of the structural materials, and that its melting and boiling points are suitable for the reactor's operating temperature.
Ideally the coolant should never boil as that would make it more likely to leak out of the system, resulting in a
loss of coolant accident. Conversely, if the coolant can be prevented from boiling this allows the pressure in the cooling system to remain at neutral levels, and this dramatically reduces the probability of an accident. Some designs immerse the entire reactor and heat exchangers into a pool of coolant, virtually eliminating the risk that cooling will be lost.
While pressurised water could theoretically be used for a fast reactor, it tends to slow down neutrons and absorb them. This limits the amount of water that can be allowed to flow through the reactor core, and since fast reactors have a high
power densitymost designs use molten metals instead. Water's boiling point is also much lower than most metals demanding that the cooling system be kept at high pressure to effectively cool the core.
Liquid metal coolants
Common liquid metal coolants used include:
* Molten metals:
* Metals that are liquid at
Each of these have advantages and disadvantages. Mercury is liquid at room temperature, but it is highly toxic and produces noxious fumes when heated, and has thus fallen out of favour.
odium and NaK
Sodium and NaK don't corrode steel to any significant degree and are compatible with many nuclear fuels, allowing for a wide choice of structural materials. They do however ignite spontaneously on contact with air and react violently with water, producing hydrogen gas. Neutron activation of sodium also causes these liquids to become intensely radioactive during operation, though the half-life is short hence their radioactivity doesn't pose an additional disposal concern.
Lead has excellent neutron properties and is a very potent radiation shield against gamma rays. The very high boiling point of lead provides safety advantages as it can efficiently cool the reactor even if it would reach several hundred
degrees Celsiusabove normal operating conditions. However, because lead has a high melting point it is tricky to refuel and service a lead cooled reactor. The melting point can be lowered by alloying the lead with bismuth, but bismuth is highly corrosive to most metals used for structural materials and is transformed into highly radioactive polonium under neutron bombardment.
Alfa class submarineuses a lead cooled reactor, and both the Soviet and US navies had earlier constructed prototype attack submarines using LMFR power units. USS Seawolf (SSN-575)was the second nuclear submarine, and the only U.S. submarine to have a sodium-cooled nuclear power plant. It was commissioned in 1957, but it had leaks in its superheaters, which were bypassed. In order to standardize the reactors in the fleet, the submarine's sodium-cooled reactor was removed starting in 1958and replaced with a pressurized water reactor.
Liquid metal cooled reactors were studied by
Pratt & Whitneyfor use in nuclear aircraftas part of the Aircraft Nuclear Propulsionprogram. [ [http://www.atomicengines.com/ANP_tech.html The Decay of the Atomic Powered Aircraft Program] ]
The Sodium Reactor Experiment (SRE) was an experimental sodium-cooled nuclear reactor sited at the North American Aviation's Atomics International
Santa Susana Field Laboratory, located in the Simi Hills, in Ventura County, California, northwest of Los Angeles. On July 26, 1959, the SRE suffered the first partial core meltdown in the history of nuclear power, when the reactor experienced a power excursion that caused severe overheating of the reactor core, resulting in the melting of one-third of the nuclear fueland significant releases of radioactive gases.
Fermi 1 in
Monroe County, Michiganwas an experimental, liquid sodium-cooled fast breeder reactorthat operated from 1963to 1972. It suffered a partial nuclear meltdown in 1963and was decommissioned in 1975.
The Soviet BN-600 and BN-350 and U.S.
EBR-II nuclear power plants were sodiumcooled. EBR-Iused a liquid metal alloy, NaK, for cooling. NaK is liquid at room temperature. Liquid metal cooling is also used in most fast neutron reactors including fast breeder reactors.
Generation IV reactorstudies are liquid metal cooled:
* Sodium-Cooled Fast Reactor (SFR)
Lead cooled fast reactor
Wikimedia Foundation. 2010.
Look at other dictionaries:
Liquid metal fast breeder reactor — A nuclear breeder reactor, cooled by molten sodium, in which fission is caused by fast neutrons. U.S. Dept. of Energy, Energy Information Administration s Energy Glossary … Energy terms
Organically moderated and cooled reactor — The organic moderated and cooled reactor (OCR) was an early power reactor concept studied in the formative years of nuclear power by the United States Atomic Energy Commission and others around the world. The concept reactor was very similar to… … Wikipedia
Liquid cooling — may refer to:* Cooling by convections or circulation of heat transfer fluids * Computer cooling * Liquid Cooling and Ventilation Garment, a garment worn by astronauts. * Liquid metal cooled reactor … Wikipedia
Reactor vessel — In a nuclear power plant, the reactor vessel is a pressure vessel containing the coolant and reactor core. Not all power reactors have a reactor vessel. Power reactors are generally classified by the type of coolant rather than the by the… … Wikipedia
Nuclear reactor — Core of CROCUS, a small nuclear reactor used for research at the EPFL in Switzerland This article is a subarticle of Nuclear power. A nuclear reactor is a device to initiate and control a sustained nuclear chain reaction. Most commonly they are… … Wikipedia
Nuclear reactor technology — This article is a subarticle of Nuclear power .A nuclear reactor is a device in which nuclear chain reactions are initiated, controlled, and sustained at a steady rate, as opposed to a nuclear bomb, in which the chain reaction occurs in a… … Wikipedia
Breeder reactor — Assembly of the core of Experimental Breeder Reactor I in Idaho, 1951 A breeder reactor is a nuclear reactor that generates more fissile material in fuel than it consumes. These reactors are considered appealing due to their superior fuel… … Wikipedia
Molten salt reactor — scheme. A molten salt reactor (MSR) is a type of nuclear fission reactor in which the primary coolant, or even the fuel itself is a molten salt mixture. MSRs run at higher temperatures than water cooled reactors for higher thermodynamic… … Wikipedia
Clementine (nuclear reactor) — Clementine was the code name for the world s first fast neutron nuclear reactor. It was an experimental scale reactor. The maximum output was 25 kW and was fueled by plutonium and cooled by liquid mercury. Clementine was located at Los… … Wikipedia
Generation IV reactor — Generation IV reactors (Gen IV) are a set of theoretical nuclear reactor designs currently being researched. Most of these designs are generally not expected to be available for commercial construction before 2030, with the exception of a version … Wikipedia