PUREX


PUREX

PUREX is the "de facto" standard aqueous nuclear reprocessing method for the recovery of uranium and plutonium from used nuclear fuel. It is based on liquid-liquid extraction ion-exchange. For other methods of reprocessing, see nuclear reprocessing.

Overview

This process can be used to recover weapon-grade materials as well as reprocessed uranium from spent nuclear reactor fuel, and as such, its component chemicals are monitored. PUREX is an acronym standing for Plutonium - URanium EXtraction. The PUREX process is a liquid-liquid extraction ion-exchange method used to reprocess spent nuclear fuel, in order to extract uranium and plutonium, independent of each other, from the fission products.

The chemical process

The irradiated fuel is first dissolved into nitric acid. After the dissolution step it is normal to remove the fine insoluble solids, because otherwise they will disturb the solvent extraction process by altering the liquid-liquid interface. It is known that the presence of a fine solid can stabilize an emulsion. Emulsions are often referred to as third phases in the solvent extraction community.

An organic solvent composed of 30% tributyl phosphate (TBP) in odorless kerosene (or hydrogenated propylene trimer) is used to recover the uranium and plutonium; the fission products remain in the aqueous nitric phase. Once separated from the fission products, further processing allows separation of the heavier plutonium from the uranium. The PUREX extraction process uses a 'solvation' liquid-liquid extraction process in which a complex is formed between the tributyl phosphate and the extracted actinides. The extraction is favoured by a high nitric acid concentration and the back extraction (stripping) is favoured by a low nitric acid concentration. For the plutonium back extraction it is possible to use redox stripping in which the oxidation state of the plutonium is lowered by the action of a reducing agent.

The organic soluble complex

The nature of the organic soluble uranium complex has been the subject of some research. A series of complexes of uranium with nitrate and trialkyl phosphates and phosphine oxides have been characterised.

"Reference J.H. Burns, "Inorganic Chemistry", 1983, 22, 1174."

Degradation products of TBP

It is normal to extract both the uranium and plutonium from the majority of the fission products, but it is not possible to get an acceptable separation of the fission products from the actinide products with a single extraction cycle. Irradiation of the tributyl phosphate / hydrocarbon mixture produces dibutyl hydrogen phosphate. This degradation product is able to act as an extraction agent for many metals, hence leading to the contamination of the product by fission products. Hence it is normal to use more than one extraction cycle. The first cycle lowers the radioactivity of the mixture, allowing the later extraction cycles to be kept cleaner in terms of degradation products.

Dialkyl hydrogen phosphates are able to form complexes with many metals. These include some polymeric metal complexes. Formation of these coordination polymers is one way in which fine solids can be formed in the process. While the cadmium concentration in both the fuel dissolution liquor and the PUREX raffinate is very low, the polymeric complex of cadmium of diethyl phosphate is shown as an example.

Here is the structure of a lanthanide complex of diethyl phosphate. Unlike cadmium the concentration of neodymium in these mixtures formed from fuel is very high.

Here is a mixed tributyl phosphate dibutyl phosphate complex of uranium. Because the dibutyl phosphate ligands are acidic, it will now be possible to extract uranium by an ion exchange liquid-liquid extraction mechanism rather than only by a solvation mechanism. This will potentially make the stripping of uranium with dilute nitric acid less effective.

Extraction of technetium

In addition, the uranium(VI) tributyl phosphate system is able to extract technetium as pertechnetate through an ion pair extraction mechanism. Here is an example of a rhenium version of a uranium / technetium complex which is thought to be responsible for the extraction of technetium into the organic phase.

Here are two pictures of actinyl complexes of triphenylphosphine oxide which have been crystallised with perrhenate. With the less highly charged neptunyl ion it is also possible to form a complex.

"Reference G.H. John, I. May, M.J. Sarsfield, H.M. Steele, D. Collison, M. Helliwell and J.D. McKinney, "Dalton Trans.", 2004, 734."

List of nuclear reprocessing sites

* COGEMA La Hague site
* Mayak
* Thorp nuclear fuel reprocessing plant and B205 at Sellafield, note that at Sellafield (Windscale) that a series of other older plants were used in the past.
* Tokai, Ibaraki
* West Valley Reprocessing Plant
* Savannah River Site
* Hanford Site "(former)"
* Idaho Chemical Processing Plant
* Radiochemical Engineering Development Center, ORNL

ee also

* Nuclear fuel cycle
* Nuclear breeder reactor
* Spent nuclear fuel shipping cask
* Global Nuclear Energy Partnership announced February, 2006

References

*OECD Nuclear Energy Agency, The Economics of the Nuclear Fuel Cycle, Paris, 1994
*I. Hensing and W Schultz, Economic Comparison of Nuclear Fuel Cycle Options, Energiewirtschaftlichen Instituts, Cologne, 1995.
*Cogema, Reprocessing-Recycling: the Industrial Stakes, presentation to the Konrad-Adenauer-Stiftung, Bonn, 9 May 1995.
*OECD Nuclear Energy Agency, Plutonium Fuel: An Assessment, Paris, 1989.
*National Research Council, "Nuclear Wastes: Technologies for Separation and Transmutation", National Academy Press, Washington D.C. 1996.

External links

* [http://www.world-nuclear.org/info/inf69.html Processing of Used Nuclear Fuel] , World Nuclear Association
* [http://npc.sarov.ru/english/digest/62002/appendix7.html Reactor-Grade Plutonium and Development of Nuclear Weapons] , Analytical Center for Non-proliferation
* [http://www.euronuclear.org/info/encyclopedia/p/purex-process.htm PUREX Process, European Nuclear Society]
* [http://www.world-nuclear.org/info/inf29.html Mixed Oxide Fuel (MOX)] - World Nuclear Association
* [http://www.globalsecurity.org/wmd/library/report/crs/97-564.htm Disposal Options for Surplus Weapons-Usable Plutonium] - Congressional Research Service Report for Congress
* [http://mfnl.xjtu.edu.cn/gov-doe-ornl/RDF/history/03_FuelReprocessinHistory.html Brief History of Fuel Repreocessing]


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