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'''Traveling Wave Reactor''' (TWR) is a type of [[nuclear reactor]] that can convert fertile material into usable fuel through nuclear transmutation, in tandem with the burnup of fissile material. TWRs differ from other kinds of fast-neutron and breeder reactors in their ability to use fuel efficiently without uranium enrichment or reprocessing, instead using depleted uranium, natural uranium, thorium, spent fuel removed from light water reactors, or some combination of these materials.
{{Short description|A type of nuclear reactor that uses a slow-moving wave of fission to sustain a reaction.}}
{{Use dmy dates|date=October 2023}}


== History ==
[[File:Laufwellenreaktor.gif|thumb|Animation of a traveling wave reactor in operation]]


The concept of a reactor that could breed its own fuel was first proposed by [[Leo Szilard]] in 1958. However, it was not until the 21st century that the concept was further developed by [[TerraPower]], a company founded by [[Bill Gates]] and former Microsoft CTO [[Nathan Myhrvold]].
A '''traveling wave reactor''' (TWR) is a type of [[nuclear reactor]] that can convert fertile material into fissile fuel as it operates. This process allows the reactor to use fuel more efficiently and potentially reduce nuclear waste.


== Design and Operation ==
==Principle of Operation==
The traveling wave reactor operates on the principle of a slow-moving wave of nuclear fission that travels through the reactor core. Unlike traditional reactors that require enriched [[uranium]] or [[plutonium]], TWRs can use depleted uranium or natural uranium as fuel. The wave of fission moves through the core, converting fertile isotopes like [[uranium-238]] into fissile isotopes such as [[plutonium-239]].


The TWR's design is based on the principle of a "wave" of nuclear fission that moves through the reactor core over time. The wave slowly converts fertile material into fissile fuel, which is then consumed in place. This allows the reactor to operate for decades without refueling.
===Fuel Cycle===
The TWR is designed to breed its own fuel in situ, meaning it can theoretically operate for decades without the need for refueling. This is achieved by maintaining a balance between the breeding of new fissile material and the consumption of existing fuel. The reactor starts with a small amount of enriched fuel to initiate the reaction, and as the wave progresses, it converts fertile material into usable fuel.


The core of a TWR is filled with a mixture of fuel and fertile material. The fuel, typically a small amount of enriched uranium or plutonium, initiates a wave of fission that moves through the core. As the wave passes, it converts the fertile material (typically depleted uranium or thorium) into additional fuel. This newly created fuel is then consumed in place, allowing the wave to continue moving through the core.
==Advantages==
One of the main advantages of the traveling wave reactor is its potential to utilize the vast amounts of depleted uranium that are currently considered waste. This could significantly extend the fuel supply for nuclear power. Additionally, TWRs produce less long-lived radioactive waste compared to conventional reactors.


== Advantages and Challenges ==
==Challenges==
Despite its potential benefits, the traveling wave reactor faces several technical and economic challenges. The design and construction of a TWR are complex, and the technology is still in the experimental stage. There are also concerns about the proliferation risks associated with breeding plutonium in the reactor core.


One of the main advantages of TWRs is their ability to use depleted uranium and other waste products as fuel. This not only reduces the amount of nuclear waste, but also provides a potential source of cheap and abundant fuel.  
==Development==
 
The concept of the traveling wave reactor was first proposed in the 1950s, but it gained renewed interest in the early 21st century. [[TerraPower]], a company founded by [[Bill Gates]], is one of the leading organizations working on the development of TWR technology. They aim to build a prototype reactor to demonstrate the feasibility of the concept.
However, TWRs also present several technical challenges. These include the need for advanced materials to withstand the high temperatures and radiation levels inside the reactor, and the need for precise control of the fission wave.
 
== Future Development ==
 
TerraPower is currently developing a prototype TWR, known as the TWR-P. The company plans to build the reactor in China, with operation expected to begin in the mid-2020s.
 
== See Also ==


==Related pages==
* [[Nuclear reactor]]
* [[Nuclear fuel cycle]]
* [[Breeder reactor]]
* [[Breeder reactor]]
* [[Fast-neutron reactor]]
* [[Depleted uranium]]
* [[Nuclear transmutation]]
* [[TerraPower]]
 
== References ==
 
<references />
 
{{Nuclear technology}}
{{Energy-stub}}


[[Category:Nuclear reactors]]
[[Category:Nuclear reactors]]
[[Category:Nuclear technology]]
[[Category:Nuclear technology]]
[[Category:Energy technology]]

Revision as of 15:46, 9 February 2025

A type of nuclear reactor that uses a slow-moving wave of fission to sustain a reaction.



Animation of a traveling wave reactor in operation

A traveling wave reactor (TWR) is a type of nuclear reactor that can convert fertile material into fissile fuel as it operates. This process allows the reactor to use fuel more efficiently and potentially reduce nuclear waste.

Principle of Operation

The traveling wave reactor operates on the principle of a slow-moving wave of nuclear fission that travels through the reactor core. Unlike traditional reactors that require enriched uranium or plutonium, TWRs can use depleted uranium or natural uranium as fuel. The wave of fission moves through the core, converting fertile isotopes like uranium-238 into fissile isotopes such as plutonium-239.

Fuel Cycle

The TWR is designed to breed its own fuel in situ, meaning it can theoretically operate for decades without the need for refueling. This is achieved by maintaining a balance between the breeding of new fissile material and the consumption of existing fuel. The reactor starts with a small amount of enriched fuel to initiate the reaction, and as the wave progresses, it converts fertile material into usable fuel.

Advantages

One of the main advantages of the traveling wave reactor is its potential to utilize the vast amounts of depleted uranium that are currently considered waste. This could significantly extend the fuel supply for nuclear power. Additionally, TWRs produce less long-lived radioactive waste compared to conventional reactors.

Challenges

Despite its potential benefits, the traveling wave reactor faces several technical and economic challenges. The design and construction of a TWR are complex, and the technology is still in the experimental stage. There are also concerns about the proliferation risks associated with breeding plutonium in the reactor core.

Development

The concept of the traveling wave reactor was first proposed in the 1950s, but it gained renewed interest in the early 21st century. TerraPower, a company founded by Bill Gates, is one of the leading organizations working on the development of TWR technology. They aim to build a prototype reactor to demonstrate the feasibility of the concept.

Related pages

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