EFFECT OF A SUPERSONIC COUNTERFLOW JET ON BLUNT BODY HEAT TRANSFER RATES FOR ONCOMING HIGH ENTHALPY FLOW
Vinayak Kulkarnia and K. P. J. Reddyb UDC 536.25 Heat transfer reduction studies, in the presence of a supersonic counterflow jet from the stagnation point of a 60-deg apex angle blunt cone, are conducted in a free piston driven hypersonic shock tunnel, HST3, to verify the effectiveness of this technique for high enthalpy flows. For flow of Mach number 8 with stagnation enthalpy of 5 MJ/kg, it has been observed that the heat transfer rate at some location decreases initially with increase in the injection pressure ratio until the critical injection pressure ratio is reached. A forty-five percent reduction in heat transfer rate near the stagnation point has been measured for the critical injection pressure ratio, equal to 14.91. A further increase in the injection pressure ratio reduces the overall percentage heat transfer reduction. The dependence of fluidic spike length on percentage heat transfer reduction has been confirmed. Keywords: hypersonic flow, drag reduction, free piston shock tunnel. aDepartment of Mechanical Engineering, Indian Institute of Technology Guwahati, Guwahati, India 781039; email: laser@aero.iisc.ernet.in bDepartment of Aerospace Engineering, Indian Institute of Science, Bangalore, India 560012. Published in Inzhenerno-Fizicheskii Zhurnal, Vo. 82, No. 1, pp. 3-7, January-February, 2009. Original article submitted June 28, 2008.