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Experimental Techniques for Studying Condensation
Homogeneous Condensation of Gases in Thermodynamic
3 other sections not shown
adiabatic approximation axis calculated cluster combustion chamber combustion products component condensation nuclei considered const constant cooling rate corresponding decrease defined degrees of freedom density dependence determining parameters dewpoint diffusion chambers droplet energy expansion experimental data Figure flow rate flows with nonequilibrium formation of nuclei formula frozen flow fuel function gas flows gasdynamic parameters gases gradients heterogeneous condensation homogeneous condensation humid increase initial isentropic Itkin liquid Mach number maximum method of characteristics mixture molecules monomers nondimensional nonequilibrium condensation nozzle nozzle flows nucleation obtained one-dimensional p-T diagram particles phase transitions Prandtl-Meyer flows prechamber presented in Fig Pressure distribution process of condensation radius rarefaction rarefaction wave rate of formation reaction relaxation saturation curve shock tubes shock wave solution solving stationary flows subsonic supercooling supersaturation system of equations temperature theory thermodynamic values velocity vibrational degrees water vapor water-vapor condensation water-vapor supercooling Wilson cloud chambers Wilson curves Wilson point