- 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