Determine the heat transfer rate per unit width for a 0.9-m long plate with a surface...

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 .

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...

there is a plate with 2ft width, 4ft length and 130°F of the surface temperature. awater...

there is a plate with 2ft width, 4ft length and 130°F of the surface temperature. awater with 50°F of temperature flows on this plate with 9ft/s velocity. Calculate the average heat transfer coefficient and the convective heat loss in this plate. For the calculation please use the following constant properties. heat conductivity(k)=0.36 Btu/(hr ft °F) viscosity=5.14×10^(-4) lbm/(ft s) density=62.11 lbm/(ft^(3)) Pr=5.12 Nu=0.036×Pr^(1/3)×Re^(2/3):laminar flow Nu=0.036×Pr^(1/3)×(Re^(0.8)-23200):turbulent flow

A 0.100 m horizontal square plate has a constant surface heat flux. The back side is...

A 0.100 m horizontal square plate has a constant surface heat flux. The back side is insulated, so all of the heat is dissipated from the side exposed to the flow of water over one side. Water at a free stream temperature of 10.0° C. and a free stream velocity of 3.00 m/s flows over one side of the plate. Find the heat flux possible if the plate temperature cannot exceed 80.0 ° C at any point.

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.

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,...

Dry air at 35°C and a velocity of 20 m/s flows over a wetted plate of...

Dry air at 35°C and a velocity of 20 m/s flows over a wetted plate of length 500 mm and width 150 mm. An embedded electrical heater supplies power to maintain the plate surface temperature at 20°C. What is the evaporation rate (kg/h) of water from the plate? What electrical power is required to maintain steady-state conditions? Determine the evaporation rate of water from the plate, in kg/h Determine the electrical power is required to maintain steady-state conditions, in W

71 mm thick horizontal plate made of an opaque material of thermal conductivity k= 25 W/m-K....

71 mm thick horizontal plate made of an opaque material of thermal conductivity k= 25 W/m-K. At the bottom, water flows at a temperature of T∞,w = 25C, whereas air flows at the top of the plate at T∞,a = 710 C having convection coefficient of ha= 71 W/m2-K. Assuming a diffused top of the plate that receives an irradiated flux of 7100W/m2, of which 30% is reflected back. The top and bottom surface temperatures are maintained at 43 C...

10. Air is to be heated by passing it over a bank of 2.8-m-long tubes inside...

10. Air is to be heated by passing it over a bank of 2.8-m-long tubes inside which steam is condensing at 90ºC. Air approaches the tube bank in the normal direction at 20ºC and 1 atm with a mean velocity of 5.2 m/s. The outer diameter of the tubes is 1.6 cm, and the tubes are arranged staggered with longitudinal and transverse pitches of SL = ST= 4 cm. There are 30 rows in the flow direction with 10 tubes...

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area...

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area that is not protected against the winds. Determine the rate of heat loss from the pipe per unit of its length when the air is at 1 atm pressure and 7°C and the wind is blowing across the pipe at a velocity of 47 km/h. The properties of air at 1 atm and the film temperature of (Ts + T∞)/2 = (90 + 7)/2...