KINETIC SIMULATION OF PLASMA TREATMENT OF RADIATION POLLUTED WATER-SALT WASTES AS DISPERSED COMBUSTIBLE COMPOSITIONS

The article shows developed kinetic model to treat dispersed water-salt wastes in air plasma flow. Compositions were taken in dispersed combustible form. Authors show that limiting stage is solvent (water) evaporation (for compositions which had lower caloric value more than 8.4 MJ/kg and adiabatic combustion temperature of about 1500 K). Influence pattern of initial plasma flow and drop parameters were determined to find out their dependence on kinetic of evaporation. 

1. Petrov G.A. Innovacionnye ènergosberegaûŝie tehnologii pererabotki radioaktivnyh othodov. Moscow: Knižnyj mir Publ., 2012 (in Russ.).

2. Ryabchikov B.E. Očistka židkih radioaktivnyh othodov. Moscow: DeLi print Publ., 2008 (in Russ.).

3. Belenʹkij E.F., Riskin I.V. Himiâ i tehnologiâ pig-mentov. Leningrad: Lengoshimizdat Publ., 1949 (in Russ.).

4. Tumanov Yu.N. Plazmennye i vysokočastotnye processy polučeniâ i obrabotki materialov v âdernom toplivnom cikle: nastoâŝee i buduŝee. Moscow: Fizmatlit Publ., 2003 (in Russ.).

5. Karengin A.G., Karengin A.A., Kovalev A.V., No-voselov I.Yu. Rasčet i optimizaciâ processa plazmennoj utilizacii gorûčih othodov pererabotki otrabotavšego âdernogo topliva. Izv. vuzov. Fizika, 2014, vol. 57, no. 2– 2, pp. 31–34 (in Russ.).

6. Karengin A.G., Karengin A.A., Novoselov I.Y., Tundeshev N.V. Calculation and Optimization of Plasma Utilization Process of Inflammable Wastes after Spent Nuclear Fuel Recycling. Advanced Materials Research, 2014, vol. 1040, pp. 433–436 (in Eng.).

7. Karengin A.A., Karengin A.G., Vlasov V.A. Kinetic model for droplet evaporation of dispersed aqueous-organic compositions in air-plasma flow. Russian Physics Journal, 2015, vol. 58, no. 5, pp. 1–7 (in Eng.).

8. Vargaftik N.V. Spravočnik po teplofizičeskim svojstvam gazov i židkostej. Moscow: Nauka Publ., 1972 (in Russ.).

9. Rid R., Shervud T. Svojstva gazov i židkostej. Leningrad: Himiâ Publ., 1971 (in Russ.).