Mendeleev Chemistry Journal
(Zhurnal Ross.Khim.Ob-va im D.I.Mendeleeva)
1995, vol. 39, No. 4

Expert evaluation of technologies for destroying lewisite stocks.
S.V. Petrov ............................................................................................................... 1
Kinetics and mechanism of the reaction of sarin with monoethanolamine and mathematical modeling of   detoxification reactor unit.
I.A. Vasil'ev, B.V. Shvyryaev, B.M. Liberman, V.V. Sheluchenko, V.A. Petrunin,
and V.G. Gorskii........................................................................................................ 3
Physico-chemical principles and engineering design fundamentals for a  reactor unit for VX detoxification.
I.A. Vasil'ev, B.V. Shvyryaev, B.M. Liberman, V.V. Sheluchenko, V.A. Petrunin,
and V.G. Gorskii ..................................................................................................... 11
Mathematical modeling of the process of base hydrolysis of lewisite.
V.A. Petrunin, Yu.I. Baranov, B.A. Kuznetsov, V.M. Rusanov, V.G. Gorskii,
B.V. Shvyryaev, T.G. Smiryagina, L.A. Sokhadze, Yu.V. Privezentsev, and S.V. Gorelenko.............................................. 19
Role of biotechnology in solving the problem of chemical weapons destruction.
S.V. Petrov, Yu.N. Koryakin, V.I. Kholstov, and N.V. Zav'yalova.............................. 23
New technological approach to destroying chemical weapons. Complete biological degradation of chemical munitions.
S.D. Varfolomeev, I.N. Kurochkin, E.I. Rainina, V.I. Kholstov,
N.V. Zav'yalova, and J.R. Wild.................................................................................26
Feasibility assessment of the incineration method of detoxifying toxic organochlorine substances.
S.F. Evlanov and S.I. Zaitsev.................................................................................. 32
Study of the reaction of  "alfa"-lewisite hydrolysis products with alkanedithiols.
A.I. Stepanov, A.E. Gekhman, G.I. Ramendik, and V.I. Nefedov .............................. 35
American developments in chemical weapons destruction methods.
V.M. Koshelev, V.A. Zhdanov, A.A. Shuvalov, F.E. Kravchuk, Yu.P. Koshelev,
R.L. Evmenov........................................................................................................ 41
Destruction of lewisite (comparison of three methods.)
J.B.H. Machiels, B.L. Berlan, A. Daz and Y. Medema.............................................. 48
Principles of   methodology for evaluating chemical weapons destruction technologies.
S.V. Petrov, V.I. Kholstov, N.V. Zav'yalova, V.A. Zhdanov, A.A. Shuvalov,
and R.L. Evmenov ............................................................................................... 55
Obtaining ultrapure arsenic from lewisite detoxification products.
V.A. Fedorov, A.A. Efremov, E.G. Zhukov, L.N. Kazanskii, B.A. Kuznetsov, V.P. Potepalov, Yu.V. Tarasevich, and V.I. Kholstov............................................. 59
Environmentally clean conversion of supertoxic arsenic compounds into pure arsenic.
S. Becker, K. Machek, and E. Stoldt..................................................................... 74
Treatment of reaction masses from lignin detxification of VX organophosphorus chemical warfare agents Safety considerations for chemical weapons destruction facilities.
V.I. Kholstov, Yu.V. Tarasevich, and S.G. Grigor'ev ........................................82
Approaches to the problem of optimizing emergency response systems for chemical weapons storage and destruction facilities.
S.G. Grigor'ev, S.I. Dneprovskii, and I.O. Dzhuma ......................................... 91
Problems of protection of the population during emergency situations at facilities for the storage and disposal of chemical weapons.
E.M. Meshcheryakov and V.N. Lisitsa............................................................. 95
The assessment of results of possible accidents at a facility for the storage of lewisite in the Kambarka region.
Edvard Karlsson, Mats Konberg, Per Runn, and Stellan Winter...........................98
Problems of psycohygiene and psychophysiological protection of personnel of concerns for the disposal of chemical weapons.
P.E. Shkodich and S.V. Klauchek................................................................... 110
Criteria for adoption of solutions on evacuation of the population from zones of chemical accidents and for return and resumption of activity in the post accident period.
R.N. Kiselev and B.N. Filatov..........,..............................................................113
Hygienic aspects of the problem of creation of a protection equipment system for facilities for disposal of chemical weapons.
P.E. Shkodich and V.I. Makarov ................................................................. 117
Medical-toxicological register of disposal of chemical weapons.
M.G. Grigor'ev, Yu.A. Ivanov, S.A. Lopatin, and V.N. Mesnyankin............. 122
Problems of military-medical service at the stage of preparation for disposal of chemical weapons.
V.P. Kozyakov and Yu.A. Ivanov...................................................................127
Evaluation of the effect of microorganisms on dynamics of decomposition of soman in the soil.
A.T. Kharechko, V.I. Myagkikh, Yu.N. Koryakin, Yu.I. Ostroumov,
V.R. Rembovskii, V.I. Kholstov, Yu.A. Kliment'ev, N.V. Zav'yalova,
V.S. Puchkov, S.B. Orlov, and V.B. Kondrat'ev........................................... 131
Methodical provision of the complex of investigations on the effect of skin- vesicant poisonous materials on the biota.
G.V. Sklyakhtin, Yu.N. Koryakin, T.Kh. Khokhoev, V.R. Rembovskii,
V.V. Anikin, E.V. Zav'yalov, T.P. Ryabova, V.D. Turovtsev,
and L.A. Kudrich...........................................................................................135
Model of the ecological prognosis of ecosystems in regions of storage and disposal of chemical weapons.
G.V. Sklyakhtin, V.I. Kholstov, R.K. Chernova, Yu.A. Kliment'ev, V.A. Lisovoi,
T.P. Ryabova, E.V. Zav'yalov, and V.V. Anikin......................................... 140
The investigation of the behavior of yperite and lewisite in water and soil under conditions, imitating natural media.
Yu.I. Savin, E.M. Vishenkova, and E.M. Pasynkova ................................. 143 Determination of lewisite and its decomposition products in soil and water samples with the use of flame photometric and photoionization detectors under field conditions.
T. Elbro, D. Derst, and R. Simak................................................................. 149