Article

Heat and Mass Transfer and Physical Gasdynamics
2001. V. 39. № 6. P. 860–873
Vasilevskii ?.B., Dombrovskii L.A., Mikhatulin D.S., Polezhaev Yu.V.
Heat transfer in the neighborhood of the stagnation point under conditions of hypersonic heterogeneous slip flow past bodies
Annotation
This paper integrates extensive experimental and theoretical data on heat transfer on the surface of blunt bodies subjected to hypersonic heterogeneous flow. The value of the Mach number of the carrier gas flow is varied from $2.4$ to $6$, and those of the Reynolds number calculated by the diameter of the body subjected to flow, from $10^4$to $10^6$. The mass concentration of solid impurities in the flow does not exceed $3\%$. When the particle diameter varies from $0.15$ to $160\mu$m, the rate of particle collisions with the body surface varies from zero to $1350$ m/s. An analysis of the experimental data helps develop the phenomenological model of heat transfer on the surface of a blunt body in a hypersonic heterogeneous flow.
Article reference:
Vasilevskii ?.B., Dombrovskii L.A., Mikhatulin D.S., Polezhaev Yu.V. Heat transfer in the neighborhood of the stagnation point under conditions of hypersonic heterogeneous slip flow past bodies, High Temp., 2001. V. 39. № 6. P. 860