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

A square plate of 0.5 m length is heated to temperature of 383 K. Air at...

A square plate of 0.5 m length is heated to temperature of 383 K. Air at 293 K and 1 atm flows over the plate at 15 m/s. Calculate the total heat transferred. Determine the convection heat transfer coefficient, thermal boundary layer, and the velocity boundary layer at the trailing edge of the plate.

Air at a pressure of 1 atm and a temperature of 15C is in parallel flow...

Air at a pressure of 1 atm and a temperature of 15C is in parallel flow at a velocity of 10 m/s over a 3-m long flat plate that is heated to a uniform temperature of 140 C. (a) What is the average heat transfer coefficient and heat transfer rate for the plate? (b) What is the local heat transfer coefficient and heat flux at the midpoint of the plate? (c) Plot the variation of the heat flux with distance...

Carbon dioxide at 90 C and atmospheric pressure flows over a square horizontal plate at 60...

Carbon dioxide at 90 C and atmospheric pressure flows over a square horizontal plate at 60 m/s. The side lengths are 60 cm, and the plate is maintained at a constant uniform temperature of 10 C. (a) What is the total heat transfer? (b) What is the boundary layer thickness at the center of the plate?

Air at free-stream velocity of 9 m/s flows over a thin flat plate of length 3...

Air at free-stream velocity of 9 m/s flows over a thin flat plate of length 3 m and width 1.5 m. A laminar boundary layer develops from the leading edge of the flat plate. At Rex = 500 000, the boundary layer becomes a turbulent boundary layer where x is the distance from the leading edge. ρair = 1.2 kg/m3 , μair = 1.8 x 10-5 kg/m.s (a) Estimate the length of the laminar boundary layer. (b) Estimate the drag...

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,...

Liquid water at velocity of 2 m/s and temperature of 15 °C flows over a flat...

Liquid water at velocity of 2 m/s and temperature of 15 °C flows over a flat plate. The plate has a width of 1 m, length of 0.4 m and surface temperature of 37 °C. Determine: (a) the average heat transfer coefficient. (b) the convection heat transfer rate from the top surfacc of the platc.

A hot plate with a temperature of 60 ° C will be cooled by adding 50...

A hot plate with a temperature of 60 ° C will be cooled by adding 50 triangular profile needle blades (k = 243 W / mK) with a length of 93 mm and 10 mm. According to the ambient temperature 20 C and the heat transfer coefficient on the surface 20 W / m ^ 2 K; a-) Wing efficiency, b-) Total heat transfer rate (W) from the wings, c-) Calculate the effectiveness of a wing.

The air at 20 ° C flows at a speed of 5 m / s on...

The air at 20 ° C flows at a speed of 5 m / s on a plate of 4 m length, 3 m width and a temperature of 80 ° C. What is the heat transfer rate of the surface from the laminar flow zone? (For air, take k = 0.02735 W / m. ° C, Pr = 0.7228, v = 1.798x105 m² / s.)

Water at 60°F flows over the top surface of the plate. If the free-stream velocity is...

Water at 60°F flows over the top surface of the plate. If the free-stream velocity is 1.0 ft/s, determine the boundary layer disturbance thickness and momentum thickness at the back end of the plate

A boiler made from a polished brass plate, operate at a surface temperature of 135˚C, is...

A boiler made from a polished brass plate, operate at a surface temperature of 135˚C, is used to boil saturated water at 2.455 bars (2.04229 atm.): Estimate the operating heat flux for this boiler. Calculate the heat transfer coefficient. Show that the boiling is nucleate. If the boiler material is changed to polished copper (other conditions are the same), what will be the required operating flux for this new boiler?