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Problem 1 (35 pts) An object with surface temperature Ts = 380 K and characteristic length...
Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity...
Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m2. Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x), in °C, and the local convection coefficient, hx(x ), in W/m2.K. at x = 0.2 m. (b) Calculate the...
-/25 !!! Current Attempt in Progress Air at atmospheric pressure and a temperature of 25°C is...
-/25 !!! Current Attempt in Progress Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m². Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x). in °C, and the local convection coefficient, hx(x), in W/m².K. at x =...
As a means of preventing ice formation on the wings of a small, private aircraft, it...
As a means of preventing ice formation on the wings of a small, private aircraft, it is proposed that electric resistance heating elements be installed within the wings. To determine representative power requirements, consider nominal flight conditions for which the plane moves at 100 m/s in air that is at a temperature of-23 oC. If the characteristic length of the airfoil is L-2m and wind tunnel measurements indicate an average friction coefficient of Cf=0.0025 for the nominal conditions, what is...
ro ri = 0.05m 1 A pipe with surface temperature T1 = 380 K is wrapped...
ro ri = 0.05m 1 A pipe with surface temperature T1 = 380 K is wrapped with 0.09 m of glass fiber pipe insulation. The outer surface temperature of the insulation, T2 is equal to 354 K and its emissivity is equal to 0.74. The insulation is also subject to natural convection with a bulk fluid temperature of 298 K and h = 1W/m2-K. For a pipe length of 100 m, and assuming that the room temperature is similar to...
Your Initials ). Convection external flow An array of silicon chips, each of length L 10 mm and width w 10 mm on a side, is insulated on one surface and cooled on the opposite surface by atmospheric...
Your Initials ). Convection external flow An array of silicon chips, each of length L 10 mm and width w 10 mm on a side, is insulated on one surface and cooled on the opposite surface by atmospheric air in parallel flow with T. 24 C and u40 m/s. When in use, the same electrical power is dissipated in each chip, maintaining a uniform heat flux over the entire cooled surface. Assume properties for air are v 184 10 m...
Problem 3: (35pts) Atmospheric air enters the heated section of a circular tube at a flow...
Problem 3: (35pts) Atmospheric air enters the heated section of a circular tube at a flow rate of 0.005 kg/s and a temperature of 30°C. The tube is of diameter D =60mm, and fully developed conditions with h = 30W/m2K exist over the entire length of L-4m. Take cp-1015 /kg.K 2 (a) (10pts) For the case of uniform surface heat flux at q"-1000W/m, determine the total heat transfer rate q and the mean temperature of the air leaving the tube...
3. A thermocouple is used to measure the surface temperature of an object. The center of a thermocouple bead of diameter D-100 μm is positioned at a distance 10 μm from the surface of interest. The t...
3. A thermocouple is used to measure the surface temperature of an object. The center of a thermocouple bead of diameter D-100 μm is positioned at a distance 10 μm from the surface of interest. The two thermocouple wires, each of diameter d = 1 mm and length L-250 mm, are held by a large manipulator that is at a temperature of Tm-25 °C. The thermal conductivities of the Nicrosil and Nisil thermocouple wires are Kvic respectively. We can neglect...
Air at a temperature of 300 K flows over one side of a flat plate of...
Air at a temperature of 300 K flows over one side of a flat plate of width 1 m at a velocity of 20 m/s. The plate has a constant surface temperature of 350 K. Assume Re(x,c)=5x10^5. a) What is the velocity boundary layer thickness at the end of the plate if L=0.25 m? What if L=1 m? b) Calculate the drag on the plate if L=0.25 m. What is the drag if L=1 m? c) Find the heat transfer...
Question 2 of 4 < > - / 25 View Policies Current Attempt in Progress Air...
Question 2 of 4 < > - / 25 View Policies Current Attempt in Progress Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m2. Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x). in °C, and the...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidi...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidity9 . Calculate the solar insolation at 12h00 noon assuming the season is winter eg. 21 December and the latitude is 18°N (at Puerto Rico), with the equation: 5 m/s 22 С 26 C 15 g/kg 20 g/kg Ta Ts Qs-(sin(d)(S) (insolation fraction) where S is the solar constant 1370 W m-2 d is the sun angle (90 deg latitude -season), and dividing for time...
Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m2. Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x), in °C, and the local convection coefficient, hx(x ), in W/m2.K. at x = 0.2 m. (b) Calculate the...
-/25 !!! Current Attempt in Progress Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m². Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x). in °C, and the local convection coefficient, hx(x), in W/m².K. at x =...
As a means of preventing ice formation on the wings of a small, private aircraft, it is proposed that electric resistance heating elements be installed within the wings. To determine representative power requirements, consider nominal flight conditions for which the plane moves at 100 m/s in air that is at a temperature of-23 oC. If the characteristic length of the airfoil is L-2m and wind tunnel measurements indicate an average friction coefficient of Cf=0.0025 for the nominal conditions, what is...
ro ri = 0.05m 1 A pipe with surface temperature T1 = 380 K is wrapped with 0.09 m of glass fiber pipe insulation. The outer surface temperature of the insulation, T2 is equal to 354 K and its emissivity is equal to 0.74. The insulation is also subject to natural convection with a bulk fluid temperature of 298 K and h = 1W/m2-K. For a pipe length of 100 m, and assuming that the room temperature is similar to...
Your Initials ). Convection external flow An array of silicon chips, each of length L 10 mm and width w 10 mm on a side, is insulated on one surface and cooled on the opposite surface by atmospheric air in parallel flow with T. 24 C and u40 m/s. When in use, the same electrical power is dissipated in each chip, maintaining a uniform heat flux over the entire cooled surface. Assume properties for air are v 184 10 m...
Problem 3: (35pts) Atmospheric air enters the heated section of a circular tube at a flow rate of 0.005 kg/s and a temperature of 30°C. The tube is of diameter D =60mm, and fully developed conditions with h = 30W/m2K exist over the entire length of L-4m. Take cp-1015 /kg.K 2 (a) (10pts) For the case of uniform surface heat flux at q"-1000W/m, determine the total heat transfer rate q and the mean temperature of the air leaving the tube...
3. A thermocouple is used to measure the surface temperature of an object. The center of a thermocouple bead of diameter D-100 μm is positioned at a distance 10 μm from the surface of interest. The two thermocouple wires, each of diameter d = 1 mm and length L-250 mm, are held by a large manipulator that is at a temperature of Tm-25 °C. The thermal conductivities of the Nicrosil and Nisil thermocouple wires are Kvic respectively. We can neglect...
Question 2 of 4 < > - / 25 View Policies Current Attempt in Progress Air at atmospheric pressure and a temperature of 25°C is in parallel flow at a velocity of 5 m/s over a 1-m-long flat plate that is heated from below with a uniform heat flux of 1250 W/m2. Assume the flow is fully turbulent over the length of the plate. Evaluate properties at 325 K. (a) Calculate the plate surface temperature, Ts(x). in °C, and the...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidity9 . Calculate the solar insolation at 12h00 noon assuming the season is winter eg. 21 December and the latitude is 18°N (at Puerto Rico), with the equation: 5 m/s 22 С 26 C 15 g/kg 20 g/kg Ta Ts Qs-(sin(d)(S) (insolation fraction) where S is the solar constant 1370 W m-2 d is the sun angle (90 deg latitude -season), and dividing for time...
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