First Russian Conference
OZONE AND OTHER ENVIRONMENT FRIENDLY OXIDANTS.  SCIENCE AND TECHNOLOGIES.
7-9 June 2005, Moscow
 
PROGRAM

7 June

1. Opening Address of the Chairman of the Conference of academician of Russian Academy of Science
Lunin V.V.

2. On the Russian Conference devoted to 250 anniversary of Moscow State University, on Ozone Workshop and the social organization "Ozone Society"- Association "Ozone and other Environment Friendly Oxidants"

Tkachenko S.N., Lunin V.V.
M.V. Lomonosov Moscow state university, Chemistry department, Moscow

Plenary session

1. Razumovskii’ S.D. Reactions of Ozone with Aromatic and Poly-conjugated Systems
N.M. Emanuel Institute of Biochemical Physics, RAN, Moscow

2. Maksimov V.A., Kulikov A.G. Modern View on Ozone Application in Therapy
Medical Service NTC MNTO” Granit”, Moscow


Section 1

Synthesis and analysis of ozone, ozonizers configurations, processes and apparatus. Ozonation plant design.

1. Influence of Dielectric Barrier Material and the Drawing Voltage on the Structure of the Surface Discharge and Yield of Ozone
Sokolova M.V. 1, Krivov S.A. 1, Hulka L.2, Pitch G. 2
1 Moscow Energetic Institute (Technical university),
22 Aahen Technical University (Germany)

2. Elaboration of Dielectric Barrier of Ozone Generator being fed by oxygen
Kokurkin M.P.1, Danilin V.V.1, Pashin M.M. 1, Semin M.A.2, Smorodin A.I.3
1 GUP Russian Electrotechnical Institute , Moscow,
2 D.I. Mendeleev Russian Chemical and Technological Institute, Moscow
3 OAO of Cryogenic Engineering, Balashiha.

3. Creation and Investigation of Plate-type Electrodes of Oxygen-fed Generators of Ozone.
Smorodin A.I.1, Danilin V.V.2, Kokurkin M.P.2, Pashin M.M.2
1of Cryogenic Engineering, Balashiha.
2 GUP Russian Electrotechnical Institute, Moscow,

4. Ozone Generator OGVK-05
Varguzin A.A., Kruchinin A.I.
Closed joint-stock company” MELP”, Saint-Petersburg

5.Construction and Functioning of High Resources Generators of Ozone
Pichugin Yu.P.1, Filippov V.G.2, Perunov A.A.2, Zelenov V.E.2, Andreev V.V.1, Il’in V.V.1, Nazarov Yu.A.2
1Chuvash state university, Cheboksary,
2joint-stock company ”OEP VEI ”, Istra, Moscow region

6. Ozone-resistant Rubbers for Industrial and Domestic Technique
Vishnitskii’ A.S., Govorova O.A.
OOO “NPP ELKOM”, Moscow

7. Removal the Impurities from Noble Gases by means of Impulse Corona Discharge
Ponizovskii’ A.Z.1, Gosteev S.G.1, Morozov A.N.1, Maevskii’ V.A.1, Shvedchikov A.P.2, Belevtsev A.A.3
1FGUP MMPP “ Salut” , Moscow
2> N.N. Semenov Institute of Chemical Physics RAN, Moscow,
3ITES OIVT RAN, Moscow


Section 2

Scientific elaboration and ozone technologies.

1.Peculiarities of Ozonation of Medium-Distilled Fractions of Petroleum
Lihterova N.M. 1, Lunin V.V. 2, Torhovskii’V.N. 1, Tret’yakov V.F. 1
1 M.V. Lomonosov Moscow state academy of fine chemical technology, Moscow
2M.V. Lomonosov Moscow state university, Chemistry department, Moscow

2. New Aspects of Ozonolysis of Cycloenones and Cyclodienes. Ozone Application for Synthesis of Low Molecular Weight Bio-regulators
Kukovinets O.S. 1, Galin F.Z. 2, Kasradze V.G. 2, Zai’nullin R.A. 3, Zvereva T.I. 1, Abdullin M.I.1
1 Bashkortostan state university, Ufa.
2 of organic chemistry UNC RAN, Ufa.

3. Intensification of Transient Storage and Drying of Grain by Ozonation of Desiccant.
Golubkovich A.V. 1, Chizhikov A.G. 1, Vigovskii’ Yu.N. 1, Vigovskaya N.Yu.2
1GNU Russian NII agriculture mechanization,
2OOO MTO ”Media”

4. Perspectives of Ozone Application in Hydrometalurgy
Krylova L.N. 1, Samoilovich V.D, Panin V.V. 1, Medvedev A.S. 1
1 Moscow State Institute of Steel and Alloys (Technological University),
2 M.V.Lomonosov Moscow State university, Chemistry Department

5. Oxidative Leaching of Molybdenite by Caustic Soda with the Usage of Ozone
Medvedev A.S.
Moscow State Institute of Steel and Alloys (Technological University)


Section 3

Ozone application related to ecology. Water preparation, wastewaters and exhaust gases purification.

1. Heterogeneous Processes involving Ozone and Radicals and Technology of Gaseous Flows Neutralization.
Stolyarenko G.S.
Cherkassy state technological university, Cherkassy, Ukraine

2. Catalytic Activity of Native Sorbents for Wastewaters Purification
Fomina N.M., Stolyarenko G.S.
Cherkassy state technological university, Cherkassy, Ukraine

3. Wastewaters Purification Plant and Equipment for Neutralization of the Running Water
Luk’yanov V.I. 1, Tyukin V.N. 1, Luk’yanov E.V. 2
1Vologda State Technical university, Vologda,
2OAO OK “Luzhniki”, Moscow

4. Ozone Application for Drinking Water Purification in Waterworks MGUP “Mosvodokanal”
Shemyakin Yu. V., Serov A.P.
Rublyovo Waterworks MGUP “Mosvodokanal”

5. Ozone Application for Environmental Safety Enhancement of Manufacturing in Bereznyaki OAO “Nitrogen”
Danilov N.F. 1, Krasavin A.P. 1, Storozhenko Yu.V. 1, Starodumov A.P. 2, Zai’nullin Yu.A. 2, Suhanov A.I.2, Cheremisinov S.D.
1 FGUP MNIIECO TEK, Perm’
2 Bereznyaki OAO “Nitrogen”, Perm’ region

 

June 8

Plenary session

1. Bogolitsin K.G., Skrebets T.E.
Perspectives of Ozone Technologies related to Chemical Wood Processing
Arhangel’sk state technical university, Arhangel’sk

2. L.P. Draginskii' V.L., Alekseeva
Role of Ozonization from the Standpoint of New Requirements to Drinking Water Quality
Institute of Communal Water Supply and Water Purification, Moscow

In connection with the new guidelines planned to be put as the Federal law in force - a special technical regulations "On the drinking water and the drinking water supply" in many instances the deep water purification should be necessary. The problem could be solved by the optimal application of the reagents as well as by the modernization of the waste disposal plants constructions. At that the role of water ozonization is growing the importance. This method combined with the traditional way, sorption and membrane technologies will secure the fulfillment the requirements of the new guidelines.
Numerous investigations on water purification were carried out. The data on the purification of water from the different sources of various regions of Russia allowed establishing the possibility of ozone application to remove a number of organic and inorganic impurities which have native as well as antropogenic origin (phenol, ammonia, mineral oil, iron, manganese, etc.)

3. Yu. M. Luzhkov 1, Yu. S. Solomonov, 2 N.V. Karyagin, 2 V.M. Kulyukin2
Development and Design of Native High Power Ozonation Devices based on Module –Container Scheme.
Peculiarities of projection, manufacturing and exploitation. Fields of application
1 Moscow government, 2 Federal State Unitary Enterprise “Moscow Teplotechnik Institute”

4. Kozlov K.V.
Modern Insight to Mechanism of Barrier Discharge in Oxygen – Nitrogen Mixtures
M.V. Lomonosov Moscow State University, Moscow

A review of the results of experimental investigations of the spatio-temporal structure of the microdischarges of barrier discharges in air and in N2/O2 mixtures at atmospheric pressure carried out by the techniques of cross-correlation spectroscopy and gated ICCD-camera is presented in this report. The mechanism of electrical breakdown development between the dielectrics is considered, and its influence upon the plasma-chemical synthesis efficiency in the microdischarge channel is discussed.


Section 1

Synthesis and analysis of ozone, ozonizers configurations, processes and apparatus. Ozonation plant design.

1. Recent tendencies related to engineering of industrial ozonizers
Samoilovich V.G. 1, Panin V.V. 2, Krylova L.N. 2
1 M.V. Lomonosov Moscow state university, Chemistry department, Moscow
2 Moscow State Institute of Steel and Alloys,

2. Ozonizer based on barrier-surface discharge occurring in dielectric tube equipped by metal spiral
Smirnova Yu.G.
K. Tynyctanov Issyk-kul state university, Karakol, Issyk-kul region, Kyrgyzstan

3. High Frequency Ozonizer with Adiabatic Cooling (by Joule – Thomson Method)
Shapiro S.V., Amirkhanov A.Sh.
Ufa state service institute, Ufa.

4.Corona Discharge Generation in Set-up with Expanded Ionization Zone; Analysis of Ozone Yield when the Front Edge of the Voltage Impulses is as Sharpened or Unsharpened.
Boi’ko N.I., Bortsov A.V., Ivan’kina A.I.
Scientific and design institute “Molniya “ of National technical university “Kharkov polytechnic institute”, Kharkov, Ukraine.

5. KBA Devices Elaborated by OOO “AGT” for Air Sorting.
Romanov A.N.1, Step G.H.1, Udut V.N.2, Bogdanov V.M.3, Petrishenko K.B. 1, Ovchinnikova N.M. 1 Îâ÷èííèêîâà Í.Ì. 1.
1OOO ”ADSORPTION GAS TECHNOLOGIES”, Protvino
2OAO “NPO Helii’mash”, Moscow,
3OAO experimental-technological plant, Protvino, Moscow region.

6. Air Sorting Devices with Short Cyclogram Adsorption. Using of Device for Ozonization System.
Nikiforov Yu.V.1, Smorodin A.I. 2
1N.E.Bauman Moscow state technical university, Moscow
2OAO cryogenic enjineering, Balashiha.

7. Air or Oxygen Usage for Industrial Ozone Production. “PRO ET CONTRA”
Samoilovich V.G. 1 , Abramovich L.Yu2
1M.V. Lomonosov Moscow state university, Chemistry department, Moscow 2V.I. Lenin Russian electrotechnical institute, Moscow

8. Designing of Ozonation Plants with Productivity from 5 g/h to 20 Kg/h on the Base of Series of Mono-block Ozone Generators
Frolov A.I., Chepurnov A.V.
OOO “Ozoniya”, Nizhnii’ Novgorod


Section 2

Scientific elaboration and ozone technologies

1. Ozonolysis in Chemistry of Chromanols
Odinokov V.N.
Institute of petrochemistry and catalysis, RAN, Ufa

2. Ozonation as a Tool of Investigation of Unsaturated Polymer Structure (The example of chlorinated polyisoprene caoutchouc)
Pavlov Yu. V. 1, Malahov A.O. 2, Khei’fets L.I. 1
1 M.V. Lomonosov Moscow state university, Chemistry department, Moscow
2 Institute of petrochemical synthesis, Moscow

3. Destruction of Chemolithotrophic Iron- and Sulfur Oxidizing Bacterium by Ozonation
Pivovarova T.A. 1, Krylova L.N. 2, Voronin D.Yu. 2, Karavai’ko G.I. 1
1 Vinogradskii’ institute of microbiology RAN, Moscow
2Moscow State Institute of Steel and Alloys

4. Application to Copper Leaching from Sulfide Concentrates
Samosii’ D.A., Adamov E.V., Panin V.V., Krylova L.N. Áóäòîâ Â.Ï. 2, Ðàçóìîâñêèé Ñ. Ä. 3, Äæåìèëåâ Ó.Ì 1
Moscow State Institute of Steel and Alloys,

5. Water Soluble Ozonides, Polycetones, Polyethers, and Epoxides as Primary Stable Products of Chemiluminescent reaction of ozone with Fullerenes C60 and C70.
Bulgakov R.G. 1, Ponomareva Yu.G. 1, Nevyadovskii’ E.Yu. 1, Antipina S.V. 1, Budtov V.P. 2, Pazumovskii’ S.D. 3, Dzhemilev U.M.
1 Institute of petrochemistry and catalysis, RAN,
2 Institute of high-molecular compounds RAN,
3 N.M. Emanuel Institute of Biochemical Physics, RAN

6. Quasi heterogeneous catalytic ozonation
Yakobi V.A.
“Closed joint-stock company Eltstroi’ ”, Moscow

7. Ozonation of Birdseed for Good Layer related to Marketable Eggs Production
Fedukina R. I., Lisovskaja T.A.
OOO “Loza”


Section 3

Ozone application related to ecology. Water preparation, wastewaters and exhaust gases purification.

1. Quantitative Evaluation of Kinetics and Effectiveness of Water Ozonation Processes
Rogozhkin G.I.
Moscow state architecture institute, Moscow

2. Ozone Application for Intensification of Purification of Native and Wastewaters
Alekseev S.E.
Moscow state building institute, Moscow

3. Ozone Application in cleaning sewerage systems of Mogilev-town
Chepurnov A.V., Frolov A.I.
OOO “Ozoniya“ , Nizhnii’ Novgorod

4. Ozone Application for Drinking Water Preparation in Regions of Intensive Water-use Failing Alternative Sources of Water-Supply
Florovskii’ K.L1,. Domninskii’ O.A. 1, Panchenko P.K. 1, Smirnov A.D. 2
1 M.V, Khrunitchev GKNPC,
2 GNC RF NII VODGEO

5. Barrier Discharge in Water-Air Media. Application for Water purification Technology
Kornev Ya. I., Yavorovskii’ N.A., Khakselberg M.B., Khryapov P.A., Chen B.N.
NII of high voltage of Tomsk polytechnic university, Tomsk

6. Gopthalume catalysts of volatile organic compounds oxidation in the absence of ozone as well as in ozone addition
Tkachenko S.N. 1, Lunin V.V. 1, Voblikova V.A. 1, Egorova G.V. 1, Sabitova L.V. 1, Burenkova L.N. 1, Tkachenko I. S. 1, Golosman E.Z. 2
1M.V. Lomonosov Moscow state university, Chemistry department, Moscow
2Novomoskovsk institute of Nitrogen industry, Novomoskovsk.

 

June 9

Plenary session


Section 1

Synthesis and analysis of ozone, ozonizers configurations, processes and apparatus. Ozonation plant design.

1. Structure of Barrier Discharge and Ozone Synthesis
Pichugin Yu.P.
Chuvash state university , Cheboksary

2. Experimental Investigation of Barrier Discharge Structure
Pichugin Yu.P.
Chuvash state university , Cheboksary

3. 3. Study of Ozone Synthesis Effectiveness in Streamer Discharge under Atmospheric Pressure of N2-O2 Mixtures
Pugatch S.G., Golota V.I., Zavada L.M., Kadolin B.B., Pashenko I.A., Polyakov A.V., Minaeva E.M.
National scientific centre “Kharkov physical-technical institute”, Kharkov

4. Barrier Surface Discharge on Twin-core
Borombaev M.K., Sharshenbiev K.A., Malutina O.A.
Issik-kul state university. Karakol, Kirgizstan

5. Some Aspects of Engineering Solution of Ozonizer and Ozone Sensor
Vorohobov V.G., Kleperis Ya
Institute of solid body physics, Latvia

6. Modeling of Ozone Dynamics in the Surface Discharge under Negative Voltage Polarity
Tkachenko I.S., Gibalov V.I., Lunin V.V.
M.V. Lomonosov Moscow state university, Chemistry Department


Section 2

Scientific elaboration and ozone technologies

1. Ozone-radical Intensification Method of Gaseous Fuel Burning
Stolyarenko G S., Vyazovik V.M., Gromyko A.V.
Cherkassy state technological university, Cherkassy, Ukraine

2. Chemiluminescence Testing of Secondary Ozonides of Fullerens C60 and C70 in Reactions of Hydrolysis and Thermolysis.
Bulgakov R.G.1, Ponomareva Yu, G. 1, Nevyadovskii’ E.Yu. 1, Fazulov R. V. 1, Fazulov S.V. 1, Galimov D.I. 1, Budtov V.P. 2, Razumovskii’ S.D.3, Dzhemilev U.M. 1
1Institute of petrochemistry and catalysis AN Bashkortostan and Ufa scientific centre of RAN,
2Institute of high-molecular compounds RAN, ,
3N.M. Emanuel Institute of Biochemical Physics, RAN

3. Catalytic Oxidation of Methylbenzenes in Acetic Acid Solutions
Galstyan A.G., Andreev P.Yu, Lisak V.V.
V. Dal’ West-Ukraine national university, Rubezhanskii’ branch, Rubezhnoe, Ukraine

4. Methylbenzenes Oxidation by Ozone in Acetic Anhydride Medium
Galstyan A.G., Sedih A.A., Samoilov S.I.
V. Dal’ West-Ukraine national university, Rubezhanskii’ branch, Rubezhnoe, Ukraine

5. Experimental Finding of Products of Ozone Reaction with Chloride-ions in acid water solutions
Kuskov I.V., Levanov A.V., Antipenko E.E., Lunin V.V
M.V. Lomonosov Moscow state university, Chemistry Department


Section 3

Ozone application related to ecology. Water preparation, wastewaters and exhaust gases purification.

1. Generation of Ozone-Hydroxyl Mixture and its Application
Piskarev I.M. 1, Aristova N.A. 2
1 D.V. Skobel’tsin NII of nuclear physics of M.V. Lomonosov Moscow state university (NIIYaPh MSU), Moscow
2 Nizhnii’ Tagil technological unstitute of Ural state technical university (NTI UGTU), Nizhnii’ Tagil

2. Disinfection of Hard –to-Reach Equipment of Confectionary Manufacturing Using Ozonization
Trotskaya T.P., Rachkovskaya A.I., Litvinchuk A.A., Khil’ko E.B.
RUP Byelorus’ scientific institute of food-stuffs, Minsk, Byelorus’

3. Ozonation of Indoors Air. PRO ET CONTRA
Budovich V.P., Polotnyuk E.B.
OOO Bureau of analytical instrument-making KHROMDET-ECOLOGIYA, Moscow

4. Removal of Microbiological Objects from Polymers Surfaces under Impulse Gaseous Discharge in Air at Atmospheric Pressure.
Elinson V.M., Lyamin A.N., Nemets E.A.
1«MATI» K.E. Tsiolkovskii’ Russian state technological university,
2 State centre on study biomaterials GU NII of transplantology and artificial organs MZ RF, Moscow

Plenary session

Lihterova N.M1, Lunin V.V.2, Torhovskii’ V.N.1, Fionov A.V.2 , Tret’yakov V.F. 1
Role of Ozone in relation to Processing of Heavy Petroleum Raw Materials by Ionizing Irradiation

1 M.V. Lomonosov Moscow state academy of fine chemical technology (MITHT), Moscow,
2M.V. Lomonosov Moscow state university, Chemistry Department

2. Chelibanov V.P., Kozakov S.A., Lebedev S.G., Ryabtsev S.V., Turenko A.A.
Improvement Reference and Equivalent Equipment and Procedures to Measure Ozone in Gas Phase

Russian Insrtrument-making firm OPTEK, Saint-Petersburg.

Posters

Section 1

1. Investigation of microscopic characteristics of microsecond impulse periodic barrier discharge
Buranov S.N., Gorohov V.V., Karelin V.I., Repin P.B.
RFYC – VNIIEF, Sarov, Nizhnii’ Novgorod region

2. Tendencies of development of drinking water ozonation plants as well as industrial and domestic wastewater ozonation stations
Isakov V.D.
Federal state unitary enterprise “ Scientific institute of engineering industry”

3. Catalysts of residual ozone decomposition
Kireev S.G.1, Tkachenko S.N. 2 Kireev A.S. 3, Klushin V.N.3, Muhin V. M. 1, Lunin V.V. 2
1 FGUP ENPO”Neorganika”, Elektrostal’, Moscow region
2 M.V. Lomonosov Moscow State University, Moscow
3 D.I.Mendeleev RCHTU, Moscow

4. Optimization of ozone synthesis by means of special dielectric covering and high-frequency current
Voblikova V.A., Shabrova E.A., Shabrova E.B., Lunin V.V.
M.V. Lomonosov Moscow State University, Moscow

5. 5. Titanum alloys filters and dispersants production by the method of powder metallurgy
Novikov N.P.
VILS, Moscow

6. 6. Ozone synthesis in combined discharge equipped by inductive electrode
Lelevkin V.M., Tokarev A.V., Makhambaev A.Yu.
Kyrgyzstan-Russian slavonic university


Section 2

1. Effective Oxo-functionalization of taraxasterilacetate from ONOPORDUM ACANTIUM L. by means of ozone.
Ahmetova V.R., Shakurova E.R., Halilova A.Z., Halilov L.M.
Institute of petrochemistry and catalysis RAN, Ufa.

2. Ozonolysis of verbenon
Zvereva T.I., Dorofeev G.B.
Bashkortostan state university, Ufa

3. Reductive ozonolysis of syndiotactic 1,2,-polybuthadiene
Kayumova M.A., Gai’nullina T.V., Kukovinets O.S., Abdullin M.I.
Bashkortostan state university, Ufa

4. Synthesis of omega-functionalized 2- substituted chromans and nafto[[1,2-B]-3,4 dihydro-2H-piranes using ozone.
Knyshenko O.V., Spivak A.Yu., Odinokov V.N.
Institute of petrochemistry and catalysis RAN, Ufa

5. Synthesis of optical active acyclic isoterpenoids on the base of chlorophyll ozonolysis
Mallyabaeva M.I., Spivak A.Yu., Odinokov V.N.
Institute of petrochemistry and catalysis RAN, Ufa

6. Ozonolys of exdisterone derivatives during synthesis of ponasterone A and 20- hydroxiecdizone analogues.
Savchenko R.G., Afon’kina S.R., Shafikov R.V., Odinokov V.N.
Institute of petrochemistry and catalysis RAN, Ufa

7. Photosynthesis of oxygen-containing radicals and their quenching by nitrogen oxide (II)
Stolyarenko G.S., Korzhik L.V.
Cherkassy state technological university, Cherkassy, Ukraine

8. Ozone reactions in supercritical carbon dioxide
Timofeev V.V. 1, Lemenovskii’1, Yurin S.A. 1, Dyadchenko V.P. 1, Lunin V.V., Popov V.K. 2, Bagratashvili V.N. 1,2
1 M.V. Lomonosov Moscow State University, Chemistry Department , Moscow .
2 Institute of laser and information problem technologies RAN, Troitsk, Moscow region

9. Chemical modification of ethylene-propylene- dicyclopentadien copolymer
Khalimov A.R., Akhmetova V.R., Abdullin M.I.
Bashkortostan state university, Ufa

10. Formation of ferrates (VI) by means of ozone
Benko E.M., Nikolaev A.A., Pankratov D.A., Perfil’ev Yu.D.
M.V. Lomonosov Moscow State University, Chemistry Department , Moscow

11. Ozone solubility in water electrolyte solutions at ðÍ 0.03 – 10.6
Egorova G.V., Voblikova V.A., Sabitova L.V., Tkachenko S.N., Lunin V.V.
M.V. Lomonosov Moscow State University, Chemistry Department , Moscow

12. Ozone application for lignin modifying
Khudoshin A.G., Mamleeva N.A.,Mitrofanova A.N., Lunin V.V.
M.V. Lomonosov Moscow State University, Chemistry Department , Moscow

13. Mathematical modeling of ozone decomposition in water solutions in the presence of organic compounds
Ignat’ev A.N. 1, Simonenko V.A. 2, Pryakhin A.N. 1, Lunin V.V. 1
1M.V. Lomonosov Moscow State University, Chemistry Department , Moscow,
2Korolev college on cosmos technologies and engineering, Korolev, Moscow region

14. Ozonation as a method of modifying the porous structure of carbon materials
Emel’yanova G.I. 1, Gorlenko G.I. 1, Lunin V.V. 1, Yankovska A.2, Rozhkova N.N. 1
1 M.V. Lomonosov Moscow State University, Chemistry Department , Moscow
2 Vrotslav polytechnic university, Poland

15. Ozone application for cellulose bleaching
Skrebets T.E., Bogolitsin K.G., Syrkova T.S.
Arkhangel’sk state technical university, Arkhangel’sk


Section 3

1.Water cleaning by corona discharge
Vereshagin N.M., Orlov S.V., Rudelev S.A.
Ryazan’ state radiotechnical academy, Ryazan’

2. Ozone-peroxide-electrochemical water treatment
Potapova G.F., Klyuchikhin V.L., Putilov A.V., Kasatkin E.V., Kozlova N.V.
L.Ya.Karpov scientific physical and chemical institute, Moscow

3. Development of water treatment ozone technology for modelling native water properties
Sabitova L.V. 1, Voblikova V.A. 1, Egorova G.V. 1, Sabitov D.I. 1, Tkachenko S.N. 1, Tkachenko I.S. 1, Lunin V.V. 1, Poloptnyuk O.Ya. 2, Goncharenko B.I. 3, Karyagin N.V. 3
1M.V. Lomonosov Moscow State University, Chemistry Department,
2Institute of applied mechanics, RAN, Moscow,
3ZAO “Moskovskie ozonatory”, Moscow

4. Ozone application for artesian well water purification
Voblikova V.A. 1, Tkachenko S.N. 1, Egorova G.V. 1, Sabitova L.V. 1, Tkachenko I.S. 1, Lunin V.V. 1, Rtisheva N.V. 1, Ufimkin D.P. 2, Kovalenko D.P. 2
1 M.V. Lomonosov Moscow State University, Chemistry Department,
2 “Lianozovo milk plant”, Moscow

5. Complete oxidation of methane on cement-containing catalysts
Burenkova L.N., Voblikova V.A. , Sabitova L.V. , Egorova G.V., Tkachenko S.N., Zosimov A.V., Lunin V.V
M.V. Lomonosov Moscow State University, Chemistry Department,

6. Electro-catalytic ozone-radical method for conditioning smoke gases
Stolyarenko G.S., Galenko M.V.
Cherkassy state technological university, Cherkassy, Ukraine

7. Elaboration of ozone-osmotic treatment of water from artesian sources of Moscow region
Tkachenko S.N. 1, Sverdlikov A.A. 2, Khakhanov S.A., Tumasov P.V. 3, Tkachenko I.S. 1, Dyavlyatarova R.A.2, Lunin V.V. 1
1M.V. Lomonosov Moscow State University, Chemistry Department,
2FGUP GNC RF “NII VODGEO”, Moscow,
3 OAO “Lianozovo milk plant” Moscow

8. Container-type designing of ozone-osmotic sorption water treatment stations
Sverdlikov A.A.1, Tkachenko S.N.2, Svetlanov N.G. 3, Puzenkov E.M.4, Dyavlyatarova R.A.1 , Tkachenko I.S. 2, Smirnov A.D. 1
1FGUP GNC RF “NII VODGEO”, Moscow,
2M.V. Lomonosov Moscow State University, Chemistry Department,
3 GP” Soyuzvodokanalproekt”, Moscow
4 OAO “Lianozovo milk plant” Moscow

9. Ozone application in technology of water deironing
Trotskaya T.P., Khil’ko E.B., Rachkovskaya A.I., Litvinchuk A.A.
RUP Byelorus’ scientific institute of food-stuffs, Minsk, Byelorus’


 

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