VIth All-Russian Scientific Conference
"Thermophysics and Physical Hydrodynamics"
School for young scientists "Thermal physics and physical hydrodynamics:
modern challenges"(TPHMC2021)
Sevastopol, Republic of Crimea, 22-29 August 2021
CONTACTS

Maksim Sergeevich Makarov

+7(383) 330-6044

+7(952) 916-0827

Dmitry Vladimirovich Smovzh

+7(913) 921-9555

tph@itp.nsc.ru

Evgeniya Simakova (“MKS” Ltd.)

+7(985) 045-7465 WhatsApp & Viber

sevastopol2021@mkcongress.ru

Scientific directions


The conference themes are:

1. Heat transfer and hydrodynamics in single phase flows
  • natural and forced convection
  • turbulence
  • subsonic, transonic and supersonic flows
  • vortex and swirling flows
  • non-Newtonian liquids, foams and suspensions
2. Hydrodynamics and heat and mass transfer in multiphase flows
  • gas-liquid flows
  • dispersed flows
  • bubble cavitation
  • surface phenomena, liquid films and droplets
  • gas and liquid filtration in porous media
  • structural nozzles, fluidized beds
3. Phase transitions
  • boiling, evaporating, condensation, distillation
  • melting, crystallization
4. Reacting flow dynamics, detonation processes
  • chemical reactions and combustion in homogeneous and heterogeneous systems системах
  • high-speed and pulse processes in reacting media
  • gaseous, condensed and multiphase medium detonation
5. Numerical methods in thermophysics and physical fluid and gas dynamics
  • classical approaches in numerical thermophysics and hydrodynamics
  • molecular dynamics method, Lattice Boltzmann method and smoothed particle hydrodynamics method
6. Methods and techniques of thermophysical and fluid and gas dynamic experiment
  • optical flow diagnostic techniques (PIV, LIF, IRT, CARS, etc.)
  • X-ray, synchrotron and electrophysical diagnostic techniques
7. Thermophysical properties of substances and new materials
  • basic thermophysical properties of pure metals and alloys, pure gases of their mixtures, pure liquids, mixtures and solutions
  • thermal conductivity and thermal diffusivity of solid materials
  • calorific value of fuels
  • emissivity, degree of blackness
  • melting point and boiling point of various substances
8. Heat transfer and hydrodynamics on micro- and nanoscales
  • flow and heat transfer in micro- and nanocannels
  • heat and mass transfer in the phase transition in ultrathin liquid films
  • heat pipes and microreactors
  • self-organization on micro- and nanoscales
9. Electrophysical phenomena in gaseous and liquid media
  • low-temperature plasma
  • impact ionization
  • processes of heat and mass transfer in gas discharges
  • ion transport in membranes and fuel cells
10. Heat transfer and hydrodynamics in industrial processes and environment protection
  • ecological aspects of energy
  • building thermophysics
  • gas analysis