Air is flowing at a Mach number of M = 0.8 and a temperature of 35...

What is the velocity of the air at degree 70C flowing at Mach 2.00?

What is the velocity of the air at degree 70C flowing at Mach 2.00?

Air is flowing in a duct in steady, frictionless, adiabatic flow. At the place in the...

Air is flowing in a duct in steady, frictionless, adiabatic flow. At the place in the duct where Mach number is 0.5 the temperature is 20 o C, the pressure is 20 psia and the density 0.102 Ibm /ft3 . Compute the temperature, pressure, and the density at the point where Mach numbers is 2. K= Cp/Cv = 1.4, MW = 29 g/mol

Consider atmospheric air at 25oC and a velocity of 20 m/s flowing over both surfaces of...

Consider atmospheric air at 25oC and a velocity of 20 m/s flowing over both surfaces of a 1-m-long flat plate that is maintained at 100oC. Determine the rate of heat transfer per unit width from the plate for 5 values of the critical Reynolds number corresponding to 5x10 .

There is an air compressor. The air temperature and pressure flowing into the compressor are 20℃...

There is an air compressor. The air temperature and pressure flowing into the compressor are 20℃ and 80kPa. At the outlet of the compressor, the pressure is 800 kPa and the temperature is 200℃. When the required power of the compressor is 400kW, find the heat rate (Q)[kW]. Compressor outlet inner diameter is 10cm, flow speed is 20m/s.

Air at freestream velocity U∞=16 ms, and free steam temperature      T∞=50℃ is flowing over a plate...

Air at freestream velocity U∞=16 ms, and free steam temperature      T∞=50℃ is flowing over a plate surface that is at temperature Ts=100℃. The velocity and thermal boundary layers developing on the surface have been shown in the figure. Also shown are the tangents to the velocity and temperature profiles at the surface y=0. If the density of air is ρ∞=1.1 kgm3, viscosity μ=1.963×10-5kgm∙s, and thermal conductivity k=0.0274Wm∙K then, calculate (a)        the wall shear stress, τw (b)       coefficient of skin friction,...

Air flows over a plate. The temperature of the air is 85 ° C and the...

Air flows over a plate. The temperature of the air is 85 ° C and the speed is 3.5 m / s. The length of the plate is 1.7 m and at a constant temperature of 25 ° C across the surface. According to this, a.) Calculate the speed and temperature boundary layer thickness at the end of the plate. b.) Find the local heat transfer coefficient and heat flux at the end of the plate. c.) Find the average...

An evacuated 150-L tank is connected to a line flowing air at room temperature, 25oC, and...

An evacuated 150-L tank is connected to a line flowing air at room temperature, 25oC, and 8 MPa pressure. The valve is opened, allowing air to flow into the tank until the pressure inside is 6 MPa. At this point the valve is closed. This filling process occurs rapidly and is essentially adiabatic. The tank is then placed in storage, where it eventually returns to room temperature. What is the final pressure and the amount of heat exchanged with the...

hot flue gases at 373oC is flowing theough a circular chimney, 1.2 m outer radius made...

hot flue gases at 373oC is flowing theough a circular chimney, 1.2 m outer radius made from brick with thickness 20 cm. the ambient air is at 27oC. calculate the heat transfer from hot flue gas to ambient air. take convective heat transfer coefficient for the flue gas and ambient air as 50 and 15W/m^K respectively. given chimney height 20 m. tale conductivity of brick wall 10W/mK

An aircraft flies with a Mach number Ma1=0.921 at an altitude of 7021 m where the...

An aircraft flies with a Mach number Ma1=0.921 at an altitude of 7021 m where the pressure is 42.1 kPa and the temperature is 242.1 K. Calculate the stagnation properties (static temperature, pressure, density), cross-section areas A1 and A2=? at the inlet and outlet of the diffuser. The diffuser at the engine inlet has an exit Mach number of Ma2=0.3. For a mass flow rate of 32.1 kg/s, determine the static pressure rise across the diffuser and the exit area....

Air enters a rectangular duct measuring 40 cm by 50 cm with a velocity of 8.5...

Air enters a rectangular duct measuring 40 cm by 50 cm with a velocity of 8.5 m/s and a temperature of 50 degree Celsius. The flowing air has a thermal conductivity 0.03 W/m K, kinematic viscosity (16.95*10^-6) m2/s and from empirical correlations the Nusselt number has been approximated to be 425. find the convective heat flow coefficient.