Tentative Program
  TUESDAY, JULY 4, 2000
8:30-8:45
Opening Ceremony
Merzhanov A.G. (Scientific Council on Combustion and Explosion, Russian Academy of Sciences, Russia),
Roy G.D. (Office of Naval Research, USA),
Tsyganov S.A. (Russian Foundation for Basic Research, Russia).
 
Session 1: Control of Deflagration to Detonation Transition in Gaseous Systems
 
Chairpersons:
Frolov S.M. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia),
Van Tiggelen P. (Universite Catholique de Louvain-la-Neuve, Belgium).
 
8:45-9:30
Invited lecture: 
Control of deflagration to detonation transition in gaseous systems.
Smirnov N.N. (Moscow M.V. Lomonosov State University, Moscow, Russia).
 
9:30-9:55
The role of acoustics in the propagation of a flame starting from the closed end of the tube.
Kerampran S., Desbordes D., Veyssiere B. (ENSMA, Futuroscope, France),
Bauwens L. (University of Calgary, Alberta, Canada).
 
9:55-10:20
Hydraulic resistance, deflagration-to-detonation transition, and multiplicity of detonation regimes.
Sivashinsky G.I. (Tel-Aviv University, Tel-Aviv, Israel),
Brailovsky I. (City College of New York, New York, USA).
 
10:20-10:45
Transition of gas deflagration to detonation in unconfined and partially confined conditions.
Makeev V.I., Bolodian I.A., Ponomarev A.A., Strogonov V.V. (All-Russia Institute for Fire Safety, Balashikha, Russia).
 
10:45-11:05
Coffee Break
 
11:05-11:30
Sensitization of fuel-air mixtures for deflagration to detonation transition.
Higgins A.J., Pinard P., Yoshinaka A., Lee J.H.S. (McGill University, Montreal, Canada).
 
11:30-11:55
Reestablishment of a detonation in the downstream of a reflection nozzle.
Sugimura T., Yamada H. (Meijo University, Nagoya, Japan).
 
11:55-12:20
Active electric-discharge control of slow combustion-to-detonation transition.
Afanasyev V.V., Ilyin S.V (Chuvash State University, Cheboksary, Russia),
Kidin N.I. (Institute for Applied Mechanics, Moscow, Russia).
 
12:20-12:45
The role of energy distribution on the transmission of detonation.
Thibault, P.A. (Combustion Dynamics Limited, Medicine Hat, Canada),
Murray S.B., Zhang F. (Defense Research Establishment Suffield, Medicine Hat, Canada),
Bjerketvedt D. (Telemark Technological Research and Development Center, Porsgrun, Norway),
Sulmistras A. (CDL Systems Limited, Calgary, Canada),
Thomas G.O. (University of Aberystwith, Aberystwith, Wales),
Jenssen A. (Norwegian Defense Construction Service, Oslo, Norway),
Moen I.O. (National Defense Headquarters, Ottawa, Canada).
 
13:00-14:00
Lunch
 
14:00-17:00
Poster Session (to be on display)
 
1. Detonation and combustion waves in charged fractal structures.
Sinkevich O.A. (Moscow Power Engineering Institute, Moscow, Russia).
 
2. A concept of hypersonic detonation ramjet.
Tereshin A.M. (‘Soyus’ Design Bureau, Turaevo, Russia).
 
3. Operation limits of traditional RAM accelerator scheme and some new approaches.
Zaslonko I.S. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia).
 
4. Energy conversion during combustion.
Baev V.K. (Institute for Theoretical and Applied Mechanics, Novosibirsk, Russia).
 
5. Mathematical simulation of ignition and combustion of aluminum particles behind shock waves taking into account peculiarities of oxide accumulation and kinetics.
Malinin V.I., Kolomin E.I., Antipin I.S., Rylov V.L. (‘Most’ R&D Co. Ltd., Perm, Russia).
 
6. Microwave irradiation of propellants as a controlling means of combustion.
Yermilov A.S., Rybakov F.P., Kozlov A.N., Khusainov S.A. (Perm State Technical University, Perm, Russia).
 
7. Porosity as a control factor for detonation initiation in solid explosives.
Rybakov A.P., Djachkin A.N. (Perm Military Institute for Rockets and Missiles, Perm, Russia).
 
8. Numerical studies of combustion-to-detonation transition in porous propellants.
Ischenko A.N., Khomenko J.P., Salganskiy E.A. (Research Institute for Applied Mathematics and Mechanics, Tomsk, Russia).
 
9. Detonation under external forcing.
Tarzhanov V.I. (Russian Federal Nuclear Center, Snezhinsk, Russia).
 
10. The effect of anisotropy of shell properties on detonation initiation in solid fuel at impact and pulse loads.
Radchenko A.V., Krivosheina M.N., Kobenko S.V., Marcenuk I.N. (Institute for Structural Microkinetics, Tomsk, Russia).  
 
11. Underdriven detonation of condensed explosives with heavy inert  additive: Generalized Jouguet condition, detonation and shock wave structure.
Kuznetsov N.M. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia).
 
12. Mathematical model of a supersonic pulsed detonation ramjet.
Alexandrov V.G., Kraiko A.N., Reent K.S. (P.I. Baranov Central Institute of Aviation Motors, Moscow, Russia).
 
13. Efficiency study of a pulse detonation engine based on quasi-one-dimensional calculation of detonation.
Fujiwara T., Fukiba K. (Nagoya University, Nagoya, Japan).
 
14. A continuous spin detonation in liquid fuel sprays.
Bykovskii F.A., Mitrofanov V.V. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).  
 
 
Session 2: Control of Deflagration to Detonation Transition in Heterogeneous Systems
 
Chairpersons:
Fujiwara T. (Nagoya University, Nagoya, Japan),
Vasil’ev A.A. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).
 
14:00-14:45
Invited lecture: 
Kinetics of heat release behind heterogeneous detonation waves.
Borisov A.A. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia).
 
14:45-15:10
Numerical simulation of detonation cell structure in hydrogen-air mixtures loaded by aluminum particles.
Khasainov B.A. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia),
Veyssiere B., Ingignoli W. (ENSMA, Futuroscope, France).
 
15:10-15:35
Structure of cornstarch-oxygen two-phase detonations in a circular tube.
Tsuboi N. (University of Tokyo, Tokyo, Japan), Hayashi A.K. (Aoyama Gakuin University, Tokyo, Japan), Matsumoto Y. (University of Tokyo, Tokyo, Japan).
 
15:35-16:00
On combustion and detonation behind a shock wave propagating over a dust layer.
Korobeinikov V.P., Semenov I.V. (Institute for Computer Aided Design, Moscow, Russia),
Klemens R., Wolanski P., Kosinski P. (Warsaw University of Technology, Warsaw, Poland).
 
16:00-16:20
Coffee Break
 
16:20-16:45
The lean limit of detonation in decane spray.
Tao H.(Institute of Applied Physics and Computational Mathematics, Beijing, People’s Republic of China).
 
16:45-17:10
Numerical simulation of detonation initiation in the cloud of aluminum particles.
Fedorov A.V., Khmel T.A. (Institute for Theoretical and Applied Mechanics, Novosibirsk, Russia).
 
17:10-17:35
Application of “compressible solid” and continuum mixture theory for 1-D numerical simulation of initiation and propagation of shock waves and combustion in oxygen-aluminium mixtures.
Benkiewicz K., Hayashi A. K (Aoyama Gakuin University, Tokyo, Japan).
 
17:35-18:00
Modification of performances of propellant mixtures used in RAM accelerators by addition of solid reactive particles.
Paintendre F., Ingignoli W., Veyssiere B. (ENSMA, Futuroscope, France),
Khasainov B.A. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia).
 
19:00
Welcome Party
 
 
WEDNESDAY, JULY 5, 2000
 
Session 3: Control of Detonation Initiation and Propagation
 
Chairpersons:
Bauwens L. (University of Calgary, Alberta, Canada),
Levin V.A. (Institute of Mechanics, Moscow M.V. Lomonosov State University, Moscow, Russia).
 
8:30-9:15
Invited Lecture:
Ignition and propagation of hydrogen-air detonations and their control system.
Hayashi A.K. (Aoyama Gakuin University, Tokyo, Japan).
 
9:15-9:40
Numerical investigation of transient detonation waves.
Lefebvre M.H. (Royal Military Academy, Brussels, Belgium).
Van Tiggelen P.J. (Universite Catholique de Louvain, Louvain-la-Neuve, Belgium).
 
9:40-10:05
Some gasdynamic methods of control of detonation initiation and propagation.
Achasov O.V., Penyazkov O.G. (Institute of Heat and Mass Transfer, Minsk, Belarus).
 
10:05-10:30
Influence of transport processes on two-dimensional structure of detonation.
Fujiwara T., Fukiba K. (Nagoya University, Nagoya, Japan).
 
10:30-10:50
Coffee Break
 
10:50-11:15
Initiation of combustion and detonation in H2+O2 mixtures by excitation of electronic states of oxygen molecules.
Starik A.M., Titova N.S. (P.I. Baranov Central Institute of Aviation Motors, Moscow, Russia).
 
11:15-11:40
Behavior of  detonation propagation in narrow gaps.
K. Ishii, Y. Shimitsu, T. Tsuboi (Yokohama National University, Yokosuka, Japan),
M. Weber, H. Olivier, H. Groenig (RWTH Aachen, Aachen, Germany).
 
11:40-12:05
Modeling of detonation initiation in ducts by multiple jets.
Borisov A.A., Sumskoi S.I., Barykin A.V., Shamshin I.O. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia).
 
12:05-12:30
Direct initiation of detonation in hydrogen-air mixture by a converging shock wave.
Levin V.A. (Institute of Automation and Control Processes, Vladivostok, Russia),
Markov V.V. (Mathematical Institute, Moscow, Russia),
Zhuravskaya T.A. (Institute of Mechanics, Moscow M.V. Lomonosov State University, Moscow, Russia).
 
12:30-12:55
Influence of the location of detonation initiation in a cloud of a fuel-air mixture and the characteristics of the explosion field: Numerical experiments.
Koren’kov V.V., Obukhov A.S. (‘Bazalt’ State Research and Production Co., Moscow, Russia).
 
13:00-14:00
Lunch
 
Session 3: Control of Detonation Initiation and Propagation (contd.)
 
Chairpersons:
Kailasanath K. (Naval Research Laboratory, Washington, D.C., USA),
Kopchenov V.I. (P.I. Baranov Central Institute of Aviation Motors, Moscow, Russia).
 
14:00-14:25
High-fidelity simulation of traveling detonations by the space-time conservation element and solution element method.
Yu S.T.J. (Wayne State University, Detroit, MI, USA).
 
14:25-14:50
Investigation of propagation of pyrolysis, combustion and detonation waves along laser beams in propane mixtures.
Kozlov G.I. (Institute for Problems in Mechanics, Moscow, Russia).
 
14:50-15:15
Phenomenon of non-self-similarity in unsteady Mach reflection of detonation waves.
Trotsyuk A.V. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).
 
15:15-15:40
Detonation regimes in channels with momentum and heat loss.
Rybanin S.S. (Institute for Problems in Chemical Physics, Chernogolovka, Russia).
 
15:40-16:05
Some numerical estimates of possibility to control the shock induced combustion.
Bezgin L.V., Ganzhelo A.N., Gouskov O.V., Kopchenov V.I. (P.I. Baranov Central Institute for Aviation Motors, Moscow, Russia).
 
16:05-16:25
Coffee Break
 
16:25-16:50
Suppression of gaseous detonations by water sprays.
Buzukov A.A. (Institute for Theoretical and Applied Mechanics, Novosibirsk, Russia).
 
16:50-17:15
Inhibition of acceleration of hydrogen-air ducted flames by alcohol vapors.
Azatyan V.V. (Institute for Structural Macrokinetics, Chernogolovka, Russia),
Shebeko Yu.N., Kopylov S.N., Kalachev V.I. (Institute for Fire Safety, Balashikha, Russia).
 
17:15-17:40
Control of detonation processes in chemically active bubble systems.
Fomin P. A. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).
 
17:40-18:05
Structure of flow with oblique detonation wave in non-equilibrium hydrogen-air mixture.
Berlyand A.T., Svishchyov S.V., Vlasenko V.V. (Central Aerohydrodynamic Institute - TsAGI, Zhukovskii, Russia).
 
19:00
Theatre Performance
 
 
THURSDAY JULY 6, 2000
 
Technical Excursions (to be announced)
Cultural Events (to be announced)
 
 
FRIDAY JULY 7, 2000
 
Session 4: Transient Heat Transfer and Diagnostics of Explosion Processes
Chairpersons:
Roth P. (Gerhard-Mercator Duisburg University, Duisburg, Germany),
Veyssiere B. (ENSMA, Futuroscope, France).
 
8:30-9:15
Invited Lecture:
Transient heat transfer in exploding and detonation systems.
Sarofim A. (University of Utah, Salt Lake City, UT, USA).
 
9:15-9:40
Diode laser-based sensors for pulse-detonation engine flows.
Sanders, S.T., Jenkins, T.P., Baldwin, J.A., Fan, W., Baer, D.S., Hanson, R.K. (Stanford University, Stanford, CA, USA).
 
9:40-10:05
Time-resolved LII soot particle sizing during shock induced pyrolysis of C2H2.
Woiki D., Giesen A., Roth P. (Gerhard-Mercator Duisburg University, Duisburg, Germany).
 
10:05-10:30
Optical diagnostics: Automatic data processing and application in fundamental studies and control strategies of detonations in advanced propulsion systems.
Abrukov V.S.,  Andreev I.V., Koshcheev I.G. (Chuvash State University, Cheboksary, Russia).
 
10:30-10:50
Coffee Break
 
Session 5: Pulsed Detonation Engines
 
Chairpersons:
Murray S.B. (Defence Research Establishment Suffield, Medicine Hat, Canada),
Netzer D. (Naval Postgraduate School, Monterey, CA, USA).
 
10:50-11:35
Invited Lecture:
Pulsed detonations propulsion: Key issues.
Desbordes D. (ENSMA, Futuroscope, France).
 
11:35-12:00
On factors controlling the performance of pulsed detonation engines.
Kailasanath K., Patnaik G., Li C. (Naval Research Laboratory, Washington, DC, USA).
 
12:00-12:25
Status and problems of the development of a pulsed detonation engine.
Ivanov V.V., Khakimov R.A., Remeev N.Kh., Vlasenko V.V. (Central Aerohydrodynamic Institute - TsAGI, Zhukovskii, Russia).
 
12:25-12:50
Evaluation of composition of a binary fuel system for pulse detonation engine applications.
Frolov S.M., Basevich V.Ya. (N.N. Semenov Institute of Chemical Physics, Moscow, Russia),
Vasil’ev A.A. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).
 
13:00-14:00
Lunch
 
14:00-14:25
Detonation of a JP-10/air aerosol for pulse detonation engine applications.
Brophy C., Hofstedt T, Netzer, D. (Naval Postgraduate School, Monterey, CA, USA).
 
14:25-14:50
Mixed compression inlets for pulse detonation engines.
Segal C. (University of Florida, Gainesville, FL, USA).
 
14:50-15:15
Effects of nozzles of different length and shape on propulsive performances of pulsed detonation engines.
Daniau E., Zitoun R., Desbordes D. (ENSMA, Futuroscope, France).
 
15:15-15:40
A new approach to the arrangement of the operation process in a pulse detonation engine.
V.A. Levin, Yu.N. Nechaev, A.I. Tarasov (Institute of Mechanics, Moscow M.V. Lomonosov State University, Moscow, Russia).
 
15:40-16:05
Investigation and implementation of pulse detonation engines.
Jermishin A.V., Fedorets N.V., Porshnev V.A., Fedorets O.N (Aircraft Concern, Saratov, Russia).
 
16:05-16:25
Coffee Break
 
16:25-16:50
On modeling of a pulse detonation engine.
Korobeinikov V.P., Markov V.V., Semenov I.V. (Institute for Computer Aided Design, RAS, Moscow, Russia),
Pedrow P.D., Wojcicki S. (Washington State University, Pullman, WA, USA).
 
16:50-17:15
About a detonation engine with external combustion.
Vasil’ev A.A. (M.A. Lavrentiev Institute of Hydrodynamics, Novosibirsk, Russia).
 
17:15-17:40
Experimental and theoretical investigations of heterogeneous detonation in pulse detonation devices.
Smirnov N.N., Nikitin V.F., Boichenko A.P., Tyurnikov M.V., Kulchitsky A.V. (Moscow M.V. Lomonosov State University, Moscow, Russia),
Legros J.C., Shevtsova V.M. (Free University of Brussels, Brussels, Belgium).
 
 
17:40-18:40
Panel Discussion
 
Moderators:
Roy G.D. (Office of Naval Research, USA),
Tsyganov S.A. (Russian Foundation for Basic Research, Russia).
 
Panel Members: Borisov A.A. (Russia), Desbordes D. (France), Fujiwara T. (Japan), 
Hanson R. (USA), Hayashi A.K. (Japan), Korobeinikov V.P. (Russia), Levin V.A. (Russia), Mitrofanov V.V. (Russia), Murray S.B. (Canada), Netzer D.(USA).
 
19:00
Banquet
 
22:00
Concluding Remarks: Roy G.D.  (Office of Naval Research, USA).
 
Colloquium Adjourn