A cube of iron of side length 10 cm is insulated from its base and at...
A cube of iron of side length 10 cm is insulated from its base and at initial uniform temperature of 300 c suddenly heat is generated in the cube body by the rate of 10^5 w/m^3 and the heat transfer from its five surface by convection with heat transfer coefficient of 25 w/m^2 and temperature of 25 c find the temperature of the body after 1200 s and 3600 s with and without heat generation
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A cube of iron of side length 10 cm is insulated from its base
and at...
Consider the base plate of a 1200-W household iron that has a thickness of L =...
Consider the base plate of a 1200-W household iron that has a thickness of L = 0.5-cm, base area of A= 300-cm', and thermal conductivity of k = 15-W/m-C". The inner surface of the base plate is subjected to a uniform heat flux generated by the resistance heaters inside, and the outer surface losses heat to the surroundings at T = 20°C by convection. Taking the convection heat transfer coefficient to be h = 80-W/m--°C obtain an expression for the...
2. A3 inch thick Fireclay brick plane wall is well insulated on its left side. The...
2. A3 inch thick Fireclay brick plane wall is well insulated on its left side. The wall is initially at a uniform temperature of 80°F. The right side of the wall is suddenly exposed to combustion gasses at a temperature of 2000°F with a convective heat transfer coefficient of 10 BTU/hrft?R. Determine: a. The time required for the centerline temperature of the wall to reach a temperature of 1200°F. The minimum temperature in the wall at this time. C. The...
Consider two blocks A and B that are insulated from all sides except the right side....
Consider two blocks A and B that are insulated from all sides except the right side. There is internal heat generation (qa= 104 W/m²) in block A but not in block B. Block B which is in perfect thermal contact with block A is exposed to a fluid at temperature Ta=25C and heat transfer coefficient h= 10 W/m²C. The thickness of block B is LB= 20cm and that of block Ais La=10cm. The thermal conductivity of block B is 5...
A large wall made of 10-cm-thick solid brick (k = 0.8 W/m.K, p 2000 kg/m3, and p 800 J/kg.K) is o...
Heat transfer question.
A large wall made of 10-cm-thick solid brick (k = 0.8 W/m.K, p 2000 kg/m3, and p 800 J/kg.K) is originally at a uniform temperature of 30°C. The wall is adiabatic (well insulated) on one side as shown in the figure. The other surface is suddenly exposed to convection air flow at 10°C, resulting in a heat transfer coefficient h=40W/m2.K. Fluid (4.1) Determine the temperature of both surfaces Gr 0 and x 10 cm) after 5 hr...
3. In a heat treatment process, a metal cube of side 2 cm, density 6000 kg/m²,...
3. In a heat treatment process, a metal cube of side 2 cm, density 6000 kg/m², and specific heat 300 J/kg.K is heated by convection from a hot fluid at temperature T, = 220 °C. The initial temperature of the cube is T; = 20 °C. If the temperature T within the cube may be taken as uniform, write down the equation that governs the temperature as a function of time t. Obtain the general form of the solution. If...
(8 marks) The heat generated from power dissipation of a silicon chip is transferred by convection...
(8 marks) The heat generated from power dissipation of a silicon chip is transferred by convection heat transfer from top and bottom of the chip. Top surface of the chip is covered by a 4-mm thick aluminum cover (k = 240 W/m.k) which is subjected to convection heat transfer on its top surface. Bottom surface of the chip is directly subjected to convection. Convection heat transfer coefficient of fluid is h = 1000 W/m²K and To = 25 °C. The...
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...
Water enters through a thick-walled tube having inner and outer diameters of 19 and 38 mm and 20 m long
Water enters through a thick-walled tube having inner and outer diameters of 19 and 38 mm and 20 m long The inlet temperature is Tmi=17℃ and outlet temperature is Tmo = 50°C. The outer surface of the tube is well Insulated, and electrical heating within the wall provides for a uniform generation rate of q = 8X105 W/m3. If the inner surface temperature of the tube Ts = 60 °C at the outlet what is the local convection heat transfer...
The heat that is conducted through a body must frequently be removed by other heat transfer...
The heat that is conducted through a body must frequently be removed by other heat transfer processes. For example, the heat generated in an electronic device must be dissipated to the surroundings through convection by means of fins. Consider the one-dimensional aluminum fin (thickness t 3.0 mm, width 20 cm, length L) shown in Figure 1, that is exposed to a surrounding fluid at a temperature T. The conductivity of the aluminum fin (k) and coefficient of heat convection of...
QUESTION 4 For the convection heat transfer problem shown in the following figure, (a) write the finite element m...
QUESTION 4 For the convection heat transfer problem shown in the following figure, (a) write the finite element model related to cach of the four rectangular elements, (b) write the finite clement algebraic equation for the unknown nodal temperatures at Node 5, Assume that the thermal conductivity of the material is k-5 W(m.C), the convection heat transfer coefficient on the left surface is -28 W/(m C), and the internal heat generation is zero. (25 pts) Use the following sense and...
Consider the base plate of a 1200-W household iron that has a thickness of L = 0.5-cm, base area of A= 300-cm', and thermal conductivity of k = 15-W/m-C". The inner surface of the base plate is subjected to a uniform heat flux generated by the resistance heaters inside, and the outer surface losses heat to the surroundings at T = 20°C by convection. Taking the convection heat transfer coefficient to be h = 80-W/m--°C obtain an expression for the...
2. A3 inch thick Fireclay brick plane wall is well insulated on its left side. The wall is initially at a uniform temperature of 80°F. The right side of the wall is suddenly exposed to combustion gasses at a temperature of 2000°F with a convective heat transfer coefficient of 10 BTU/hrft?R. Determine: a. The time required for the centerline temperature of the wall to reach a temperature of 1200°F. The minimum temperature in the wall at this time. C. The...
Consider two blocks A and B that are insulated from all sides except the right side. There is internal heat generation (qa= 104 W/m²) in block A but not in block B. Block B which is in perfect thermal contact with block A is exposed to a fluid at temperature Ta=25C and heat transfer coefficient h= 10 W/m²C. The thickness of block B is LB= 20cm and that of block Ais La=10cm. The thermal conductivity of block B is 5...
Heat transfer question.
A large wall made of 10-cm-thick solid brick (k = 0.8 W/m.K, p 2000 kg/m3, and p 800 J/kg.K) is originally at a uniform temperature of 30°C. The wall is adiabatic (well insulated) on one side as shown in the figure. The other surface is suddenly exposed to convection air flow at 10°C, resulting in a heat transfer coefficient h=40W/m2.K. Fluid (4.1) Determine the temperature of both surfaces Gr 0 and x 10 cm) after 5 hr...
3. In a heat treatment process, a metal cube of side 2 cm, density 6000 kg/m², and specific heat 300 J/kg.K is heated by convection from a hot fluid at temperature T, = 220 °C. The initial temperature of the cube is T; = 20 °C. If the temperature T within the cube may be taken as uniform, write down the equation that governs the temperature as a function of time t. Obtain the general form of the solution. If...
(8 marks) The heat generated from power dissipation of a silicon chip is transferred by convection heat transfer from top and bottom of the chip. Top surface of the chip is covered by a 4-mm thick aluminum cover (k = 240 W/m.k) which is subjected to convection heat transfer on its top surface. Bottom surface of the chip is directly subjected to convection. Convection heat transfer coefficient of fluid is h = 1000 W/m²K and To = 25 °C. The...
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...
The heat that is conducted through a body must frequently be removed by other heat transfer processes. For example, the heat generated in an electronic device must be dissipated to the surroundings through convection by means of fins. Consider the one-dimensional aluminum fin (thickness t 3.0 mm, width 20 cm, length L) shown in Figure 1, that is exposed to a surrounding fluid at a temperature T. The conductivity of the aluminum fin (k) and coefficient of heat convection of...
QUESTION 4 For the convection heat transfer problem shown in the following figure, (a) write the finite element model related to cach of the four rectangular elements, (b) write the finite clement algebraic equation for the unknown nodal temperatures at Node 5, Assume that the thermal conductivity of the material is k-5 W(m.C), the convection heat transfer coefficient on the left surface is -28 W/(m C), and the internal heat generation is zero. (25 pts) Use the following sense and...
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