Clearing of the Radioactive Liquid Waste from Oils and Oil Products by  UV-Radiation at NPPs

Sergey A. Kulyukhin; Vladimir V. Kulemin; Vladimir B. Krapukhin; Viktor A. Lavrikov; Andrey V. Gordeev; Andrey A. Shiryaev; Alexey A. Bessonov

doi:10.4236/jpee.2015.34006

Journal of Power and Energy Engineering > Vol.3 No.4, April 2015

Clearing of the Radioactive Liquid Waste from Oils and Oil Products by UV-Radiation at NPPs

Sergey A. Kulyukhin, Vladimir V. Kulemin, Vladimir B. Krapukhin, Viktor A. Lavrikov, Andrey V. Gordeev, Andrey A. Shiryaev, Alexey A. Bessonov
Frumkin’s Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences, Moscow, Russia.
DOI: 10.4236/jpee.2015.34006 PDF HTML 3,605 Downloads 4,284 Views

Abstract

The basic methods of concentration and purification of liquid radioactive waste on the nuclear power plant are distillation and ionic exchange. During vaporization of oil waste products and the fulfilled washing solutions the part of oil passes into a condensate. Clearing of such condensate on ion-exchanged filters results to oiling of ion-exchanged materials and to decrease number of filter cycles. Due to the often regeneration of ion-exchanged filters additional volumes of waste products as the fulfilled reclaiming solutions, washing and loosening waters are formed. The attention of scientists was involved with methods of clearing of water environments from the organic substances, based on deep oxidizing transformations of hydrocarbons into carbonic gas and water. From processes of oxidation of hydrocarbons up to CO₂ and H₂O, sold at moderate conditions, our attention has involved photochemical oxidation with the help of UV-radiation.

Keywords

Nuclear Power Plant, Liquid Radioactive Waste, Oil, UV-Radiation

Share and Cite:

Kulyukhin, S. , Kulemin, V. , Krapukhin, V. , Lavrikov, V. , Gordeev, A. , Shiryaev, A. and Bessonov, A. (2015) Clearing of the Radioactive Liquid Waste from Oils and Oil Products by UV-Radiation at NPPs. Journal of Power and Energy Engineering, 3, 35-40. doi: 10.4236/jpee.2015.34006.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Proskurjakov, V.A. and Shmidt, L.I. (1977) The Purification of Waste Water in Chemical Industry. Chemistry (USSR), Leningrad.
[2]	Krasnoborodko, I.G. (1988) The Destructive Purification of Waste Water from Dyes. Chemistry (USSR), Leningrad.
[3]	Shevtchenko, A.I., Martchenko, P.V., Taran, P.N. and Lizunov, V.V. (1978) Oxidants in Water Treatment Technology. Naukova dumka (USSR), Kiev.
[4]	Orlov, V.A. (1978) Water Ozonolysis. Mir (USSR), Moscow.
[5]	Zaitsev, N.K., Krasnii, D.V. and Zimina, G.V. (1999) A Method for Treating Aqueous Fluids Containing Organic Impurities. Russia Patent N 2142915.
[6]	Bultrup, J. and Koil, J. (1978) Excited States in Organic Chemistry. Mir (USSR), Moscow.
[7]	Stern, K. and Timmons, K. (1974) Electronic Absorption Spectroscopy in Organic Chemistry. Mir (USSR), Moscow.
[8]	Kazitsina, L.A. and Kupletskaya, N.B. (1971) Application of the UV, IR and NMR of Organic Chemistry. Vysshaya shkola (USSR), Moscow.
[9]	Kalvert, J. and Pits, J. (1968) Photochemistry. Mir (USSR), Moscow.
[10]	Sverdlova, O.V. (1973) Electronic Spectra in Organic Chemistry. Chemistry (USSR), Leningrad.
[11]	Nakanisi, K. (1965) IR spectra and structure of organic compounds. Mir (USSR), Mos-cow.
[12]	JCPDS-Inter. Centre for Diffraction Data. PDF 00-039-1843, C6H12N4.
[13]	NIST Chemistry WebBook http://webbook.nist.gov/cgi/cbook.cgi?Formula=C6H12N4&NoIon=on&Units=SI&cIR=on

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