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3.1 The height, length, and thickness of a longitudinal fin of 6061 aluminum are 3.2 cm,...
3.7 The height and diameter of a pin fin made of 3003 aluminum are 2.3 cm...
3.7 The height and diameter of a pin fin made of 3003 aluminum are 2.3 cm and 0.35 cm, respectively. A fin- base temperature of 65°C is maintained while 10°C air flows around the pin fin, producing a heat-transfer coef- fieient of 35 W/m2·K. Find the heat transfer from the fin.
Question 14 A radial fin made of 2024 aluminium; inside and outside radii of 3.1 cm...
Question 14 A radial fin made of 2024 aluminium; inside and outside radii of 3.1 cm and 4.9 cm, respectively, and the fin thickness is 0.75mm. The fin experiences the heat transfer coefficient is 85 W/m2K. Find the heat transfer from the fin if the base temperature of the fin is measured 175C. a flow of 30C air, in which
wall with a base A long fin (square in cross-section, 2 mm on one side) projects...
wall with a base A long fin (square in cross-section, 2 mm on one side) projects from a temperature of 80°C. The fin is aluminum, with k 200 W/m-K. At a length of 2 cm, the temperature is measured and found to be 50°C. The surrounding air is at 25°C What is the convective heat transfer coefficient?
Consider a very long aluminum fin (k = 237W/m-K) fin
Consider a very long aluminum fin (k = 237W/m-K) fin, with the temperature at the end of the fin essentially that of the surrounding air. This fin has a diameter of lcm, and is attached to a surface at 80°C. The surface is exposed to ambient air at 22°C with a heat transfer coefficient of 15W/m2-K. Estimate: a) The fin temperature at a distance of 5cm from the base; b) The rate of heat loss from the entire fin; c) The effectiveness of...
6. Problem 3 (20 points): A Steam in a heating system flows through tubes whose outer...
6. Problem 3 (20 points): A Steam in a heating system flows through tubes whose outer diameter is 3 cm and whose walls are maintained at a temperature of 120°C. Circular aluminum alloy fins (k = 180 W/m.) of outer diameter 6 cm and constant thickness t 2 mm are attached to the tube, as shown in the figure below. The space between the fins is 3 mm, and thus there are 200 fins per meter length of the tube....
A pin fin is made of an Aluminum (k=235W/m K) rod length 68 cm and diameter...
A pin fin is made of an Aluminum (k=235W/m K) rod length 68 cm and diameter 10 mm. If the heat transfer coefficient is 10 W/m2 K, calculate the fin efficiency. a. 27% b. 46% c. 35% d. 56% e. 97% f. None of them A 2-m-high, 3-m-wide, and 120-cm-thick wall of a house has a thermal resistance of 0.0124 ºC/W. The thermal conductivity of the wall is a. 0.72 W/mºC b. 1.1 W/mºC c. 1.6 W/mºC d. 16 W/mºC...
QUESTION 3 Consider a very long rectangular fin attached to a flat surface such that the...
QUESTION 3 Consider a very long rectangular fin attached to a flat surface such that the temperature at the end of the finis essentially that of the surrounding air, le 10°C its width is 10 cm; thickness is 2 mm: thermal conductivity is 150 Wim K and base temperature is 100'C. The heat transfer coefficient is 20 W/ m K Estimate (a) the fin temperature at a distance of 5.0 cm from the base in c to the nearest degree...
Steam in a heating system flows through tubes whose outer diameter is D1 =3 cm and...
Steam in a heating system flows through tubes whose outer
diameter is D1 =3 cm and whose walls are maintained at a
temperature of 120oC. Circular aluminum fins (k = 180
W/m.oC) of outer diameters D2 = 6 cm and
constant thickness t = 2mm are attached to the
tubes. The space between the fins is 3 mm. Heat is
transferred to the surrounding air at
T∞ = 25 oC, with a
convection heat transfer coefficient of h = 60
W/m2.oC.
Determine the...
please show derivation of the nodal equations and how to create the graphs. A straight fin...
please show derivation of the nodal equations and how to create
the graphs.
A straight fin of uniform cross section is fabricated from a material of thermal conductivity 50 W/m*K, thickness w 6mm, and length L-48mm, and is very long in the direction normal to the page. The convection heat transfer coefficient is 500 W/m2 *K with the ambient air temperature of T-30C. The base of the fin is maintained at Tb = 100C, while the fin tip is will...
a rectangular fin (k= 235w/m*K) is attached to a wall and has a length of 5...
a rectangular fin (k= 235w/m*K) is attached to a wall and has a length of 5 cm, a width of 10 cm, and a thickness of 5 mm. the surface temperature of the wall is 350 degrees Celcius and the ambient air is 25 degrees celcius. what is the efficiency, the heat transfer rate, and the fin effectiveness? assume an adiabatic fin tip condition and a convection heat transfer coefficient of 154 W/m^2 * K
3.7 The height and diameter of a pin fin made of 3003 aluminum are 2.3 cm and 0.35 cm, respectively. A fin- base temperature of 65°C is maintained while 10°C air flows around the pin fin, producing a heat-transfer coef- fieient of 35 W/m2·K. Find the heat transfer from the fin.
Question 14 A radial fin made of 2024 aluminium; inside and outside radii of 3.1 cm and 4.9 cm, respectively, and the fin thickness is 0.75mm. The fin experiences the heat transfer coefficient is 85 W/m2K. Find the heat transfer from the fin if the base temperature of the fin is measured 175C. a flow of 30C air, in which
wall with a base A long fin (square in cross-section, 2 mm on one side) projects from a temperature of 80°C. The fin is aluminum, with k 200 W/m-K. At a length of 2 cm, the temperature is measured and found to be 50°C. The surrounding air is at 25°C What is the convective heat transfer coefficient?
6. Problem 3 (20 points): A Steam in a heating system flows through tubes whose outer diameter is 3 cm and whose walls are maintained at a temperature of 120°C. Circular aluminum alloy fins (k = 180 W/m.) of outer diameter 6 cm and constant thickness t 2 mm are attached to the tube, as shown in the figure below. The space between the fins is 3 mm, and thus there are 200 fins per meter length of the tube....
QUESTION 3 Consider a very long rectangular fin attached to a flat surface such that the temperature at the end of the finis essentially that of the surrounding air, le 10°C its width is 10 cm; thickness is 2 mm: thermal conductivity is 150 Wim K and base temperature is 100'C. The heat transfer coefficient is 20 W/ m K Estimate (a) the fin temperature at a distance of 5.0 cm from the base in c to the nearest degree...
Steam in a heating system flows through tubes whose outer
diameter is D1 =3 cm and whose walls are maintained at a
temperature of 120oC. Circular aluminum fins (k = 180
W/m.oC) of outer diameters D2 = 6 cm and
constant thickness t = 2mm are attached to the
tubes. The space between the fins is 3 mm. Heat is
transferred to the surrounding air at
T∞ = 25 oC, with a
convection heat transfer coefficient of h = 60
W/m2.oC.
Determine the...
please show derivation of the nodal equations and how to create
the graphs.
A straight fin of uniform cross section is fabricated from a material of thermal conductivity 50 W/m*K, thickness w 6mm, and length L-48mm, and is very long in the direction normal to the page. The convection heat transfer coefficient is 500 W/m2 *K with the ambient air temperature of T-30C. The base of the fin is maintained at Tb = 100C, while the fin tip is will...
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