Year 2023,
Volume: 10 Issue: 2, 487 - 492, 31.05.2023
Zaur Mansımov
Gunel Imanova
,
Adil Garıbov
Teymur Agayev
References
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- 2. Kuznetsov RA, Butkalyuk PS, Tarasov VA, Baranov AY, Butkalyuk IL, Romanov EG, et al. Yields of activation products in 226Ra irradiation in the high-flux SM reactor. Radiochemistry [Internet]. 2012 Jul 24;54(4):383–7.
- 3. IAEA1384 Nuclide Explorer tool for retrieving interactively detailed data on radionuclides properties [Internet].
- 4. Butkalyuk IL, Butkalyuk PS, Tomilin S V. Investigation of the interaction of radium compounds with structural materials. Phys Electron. 2013;15(4):1053–7.
- 5. Garibov AA, Agayev TN, Mansimow ZA, Melikova SZ, Eyubov KT. Investigation of radium orthosilicates by methods of FT-IR spectroscopy and derivatography. J Austrian Tech Nat Sci. 2014;7–8:72–5.
- 6. Butkalyuk IL, Butkalyuk PS, Tomilin S V. Examination of radium compounds interaction with structural materials. Ulyanovsk State University; 2013.
- 7. Ebaid YY. On the use of reference materials in gamma-ray spectrometric efficiency calibration for environmental samples. J Radioanal Nucl Chem [Internet]. 2009 Apr 18;280(1):21–5.
- 8. Pikaev AK. Modern radiation chemistry. Radiolysis of gases and liquids. M.: Science. 1986. 440 p.
- 9. Jafarov YD, Garibov AA, Aliev SA, Iskenderov SM, Krasnoshtanov VR. Calculation of the absorbed dose of gamma irradiation in oxide dielectrics. At Energy. 1987;63(4):269–70.
- 10. Garibov AA. Radiation-catalytic action of oxide catalysts in the process of water decomposition, Radiation-catalytic processes in dispersed media: Collection of scientific papers, Ed. ed. V.N. Parmon. Novosibirsk: “Nauka”, Siberian Branch,. 1992. 121–161 p.
- 11. Garibov AA, Bakirov MY, Jafarov YD, Velibekov GZ. Regularities of the radiation-catalytic action of Me2+-SiO3 systems in the process of water radiolysis. High Energy Chem. 1984;18(6):502–5.
- 12. Garibov AA, Melikzade MM, Bakirov MY, Velibekova GZ, Ramazanov MK. Influence of cations on the catalytic properties of silica gel during the radiolysis of adsorbed water molecules. High Energy Chem. 1982;16(2):130–4.
- 13. Ovchinnikov AP. Calculation of the distribution of absorbed energy near a flat interface between media during gamma irradiation // Physical chemistry in microelectronics. Krasnoyarsk: KSU; 1976. 23–24 p.
- 14. Ackerman AF, Grudsky MY, Smirnov VB. Secondary electron radiation from solids under the action of gamma quanta. M.: Energoizdat; 1986. 168 p.
- 15. Kovalev VP. secondary electrons. Moscow: Energoizdat; 1987. 9 p.
- 16. Elango MA. Elementary inelastic radiation processes. M.: “Nauka”; 1988. 15 p.
- 17. Kaplan IP. Investigation of the primary processes of water radiolysis by the method of mathematical modeling. High Energy Chem. 1991;24(4):29.
- 18. Silin AR, Trukhin AN. Point defects and elementary excitations in crystals and glassy SiO2. Zinatne. 1985;206–14.
Investigation of Radiation-Heterogeneous and Catalytic Processes In The Surface Of (RaO)x(SiO2)y +H2O System
Year 2023,
Volume: 10 Issue: 2, 487 - 492, 31.05.2023
Zaur Mansımov
Gunel Imanova
,
Adil Garıbov
Teymur Agayev
Abstract
In the study, heterogeneous radiolysis of water in adsorption and liquid form was studied in the (RaO)x(SiO2)y+H2O system. The effect of radioactivity of radium cations and process temperature on the release of molecular hydrogen was determined (T=300‒673K). The mechanism of heterogeneous radiolysis of water with the participation of the studied system (RaO)x(SiO2)y+H2O has been proposed.
References
- 1. Vdovenko VM, Dubasov Y V. Analytical chemistry of radium. Wiley. New York; 1973. 187 p.
- 2. Kuznetsov RA, Butkalyuk PS, Tarasov VA, Baranov AY, Butkalyuk IL, Romanov EG, et al. Yields of activation products in 226Ra irradiation in the high-flux SM reactor. Radiochemistry [Internet]. 2012 Jul 24;54(4):383–7.
- 3. IAEA1384 Nuclide Explorer tool for retrieving interactively detailed data on radionuclides properties [Internet].
- 4. Butkalyuk IL, Butkalyuk PS, Tomilin S V. Investigation of the interaction of radium compounds with structural materials. Phys Electron. 2013;15(4):1053–7.
- 5. Garibov AA, Agayev TN, Mansimow ZA, Melikova SZ, Eyubov KT. Investigation of radium orthosilicates by methods of FT-IR spectroscopy and derivatography. J Austrian Tech Nat Sci. 2014;7–8:72–5.
- 6. Butkalyuk IL, Butkalyuk PS, Tomilin S V. Examination of radium compounds interaction with structural materials. Ulyanovsk State University; 2013.
- 7. Ebaid YY. On the use of reference materials in gamma-ray spectrometric efficiency calibration for environmental samples. J Radioanal Nucl Chem [Internet]. 2009 Apr 18;280(1):21–5.
- 8. Pikaev AK. Modern radiation chemistry. Radiolysis of gases and liquids. M.: Science. 1986. 440 p.
- 9. Jafarov YD, Garibov AA, Aliev SA, Iskenderov SM, Krasnoshtanov VR. Calculation of the absorbed dose of gamma irradiation in oxide dielectrics. At Energy. 1987;63(4):269–70.
- 10. Garibov AA. Radiation-catalytic action of oxide catalysts in the process of water decomposition, Radiation-catalytic processes in dispersed media: Collection of scientific papers, Ed. ed. V.N. Parmon. Novosibirsk: “Nauka”, Siberian Branch,. 1992. 121–161 p.
- 11. Garibov AA, Bakirov MY, Jafarov YD, Velibekov GZ. Regularities of the radiation-catalytic action of Me2+-SiO3 systems in the process of water radiolysis. High Energy Chem. 1984;18(6):502–5.
- 12. Garibov AA, Melikzade MM, Bakirov MY, Velibekova GZ, Ramazanov MK. Influence of cations on the catalytic properties of silica gel during the radiolysis of adsorbed water molecules. High Energy Chem. 1982;16(2):130–4.
- 13. Ovchinnikov AP. Calculation of the distribution of absorbed energy near a flat interface between media during gamma irradiation // Physical chemistry in microelectronics. Krasnoyarsk: KSU; 1976. 23–24 p.
- 14. Ackerman AF, Grudsky MY, Smirnov VB. Secondary electron radiation from solids under the action of gamma quanta. M.: Energoizdat; 1986. 168 p.
- 15. Kovalev VP. secondary electrons. Moscow: Energoizdat; 1987. 9 p.
- 16. Elango MA. Elementary inelastic radiation processes. M.: “Nauka”; 1988. 15 p.
- 17. Kaplan IP. Investigation of the primary processes of water radiolysis by the method of mathematical modeling. High Energy Chem. 1991;24(4):29.
- 18. Silin AR, Trukhin AN. Point defects and elementary excitations in crystals and glassy SiO2. Zinatne. 1985;206–14.