BEHAVIOR OF CARBON AND URANIUM AT RADIOACTIVE GRAPHITE HEATING IN WATER VAPOR. THERMODYNAMIC MODELING

被引：0

作者：

Barbin, N. M. ^{[1
,2
]}

Kobelev, A. M. ^{[3
]}

Terent'ev, D. I. ^{[4
]}

Alekseev, S. G. ^{[2
,5
]}

机构：

[1] Ural State Agr Univ, Dept Chem, Karla Libknekhta Str 42, Ekaterinburg 620075, Russia

[2] Ural State Fire Serv Inst Emercom Russia, Mira Str 22, Ekaterinburg 620062, Russia

[3] Ural State Fire Serv Inst Emercom Russia, Dept Fire Automat, Mira Str 22, Ekaterinburg 620062, Russia

[4] Ural State Fire Serv Inst Emercom Russia, Chair Phys & Heat Transfer, Mira Str 22, Ekaterinburg 620062, Russia

[5] RAS, Ural Branch, Sci & Engn Ctr Reliabil & Safety Large Syst, Studencheskaya Str 54a, Ekaterinburg 620049, Russia

来源：

IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENII KHIMIYA I KHIMICHESKAYA TEKHNOLOGIYA | 2016年 / 59卷 / 09期

关键词：

thermodynamic modeling; radioactive carbon; uranium; phase states;

D O I：

暂无

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

The behavior of radioactive graphite was studied by the method of thermodynamic modeling at high temperature in water vapor. The distribution of radioactive carbon and uranium on phase states is given.

引用

页码：16 / 20

页数：5

共 20 条

[1] BEHAVIOR OF URANIUM AND CARBON AT RADIOACTIVE CARBON HEATING IN NITROGEN ATMOSPHERE. THERMODYNAMIC MODELING
Barbin, N. M.
Shavaleev, M. R.
Terentiev, D. I.
Alexeev, S. G.
IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENII KHIMIYA I KHIMICHESKAYA TEKHNOLOGIYA, 2015, 58 (05): : 34 - +
[2] Thermodynamic Modeling of Radioactive Graphite Heating in Nitrogen and Oxygenized Air
Barbin, N. M.
Titov, S. A.
Shavaleev, M. R.
Kobelev, A. M.
Terent'ev, D. I.
Prytkov, L. N.
Tikina, I. V.
RUSSIAN PHYSICS JOURNAL, 2024, 67 (03) : 301 - 306
[3] Thermodynamic Modeling of Radioactive Graphite Heating in Nitrogen and Oxygenized Air
N. M. Barbin
S. A. Titov
M. R. Shavaleev
A. M. Kobelev
D. I. Terent’ev
L. N. Prytkov
I. V. Tikina
Russian Physics Journal, 2024, 67 : 301 - 306
[4] Thermodynamic Simulation of Thermal Processes Involving Actinides (U, Am, Pu) during Heating of Radioactive Graphite in a Mixture of Water Vapor and Oxygen
Barbin, N. M.
Devyatkin, N. O.
Terent'ev, D. I.
Kobelev, A. M.
RADIOCHEMISTRY, 2023, 65 (01) : 34 - 38
[5] Thermodynamic Simulation of Thermal Processes Involving Actinides (U, Am, Pu) during Heating of Radioactive Graphite in a Mixture of Water Vapor and Oxygen
N. M. Barbin
N. O. Devyatkin
D. I. Terent’ev
A. M. Kobelev
Radiochemistry, 2023, 65 : 34 - 38
[6] Thermodynamic Modeling of Thermal Processes Involving Radionuclides of Uranium, Plutonium, Europium on Heating of Nuclear Graphite in Air
N. M. Barbin
S. A. Titov
D. I. Terent’ev
A. M. Kobelev
Radiochemistry, 2023, 65 : 330 - 337
[7] Thermodynamic Modeling of Thermal Processes Involving Radionuclides of Uranium, Plutonium, Europium on Heating of Nuclear Graphite in Air
Barbin, N. M.
Titov, S. A.
Terent'ev, D. I.
Kobelev, A. M.
RADIOCHEMISTRY, 2023, 65 (03) : 330 - 337
[8] Thermodynamic modeling of thermal processes involving actinides (U, Am, Pu) in the course of heating radioactive graphite in steam
Barbin N.M.
Kobelev A.M.
Terent’ev D.I.
Alekseev S.G.
Radiochemistry, 2017, 59 (5) : 507 - 511
[9] Thermodynamic Modeling of Thermal Processes Involving Chlorine, Calcium, Beryllium, Nickel, and Cesium Radionuclides in the Course of Heating Radioactive Graphite in Steam
Barbin, N. M.
Kobelev, A. M.
Terene'ev, D., I
Alekseeva, S. G.
RADIOCHEMISTRY, 2019, 61 (02) : 192 - 197
[10] Thermodynamic Modeling of Thermal Processes Involving Chlorine, Calcium, Beryllium, Nickel, and Cesium Radionuclides in the Course of Heating Radioactive Graphite in Steam
N. M. Barbin
A. M. Kobelev
D. I. Terent’ev
S. G. Alekseev
Radiochemistry, 2019, 61 : 192 - 197

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