Homework Answers
Answer
1. Water flow through a fire hose from a hydrant
Forced internal convection over internal walls of the pipe.
2. Heat transfer from a clothes iron sitting on an ironing board
Free convection to air from iron surface
3. Heat transfer from a climber trapped at the peak of Mount Everest
Free Convection to air from climber's body.
4. Heat transfer from an astronaut on a spacewalk
No heat transfer due to convection.
5. Heat transfer from a submarine on patrol
Forced convection to water from submarine body.
6. Heat transfer to a hot dog in 90 deg pot of water.
Free convection from water to hot dog surface in contact( imagining that the hot dog will be floating)
7. Heat transfer from a heating element on an electric stove.
No heat transfer due to convection, it is a case of conduction.
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Question 1: Identify the classification of the following heat transfer (convective flow) problems: *Note that there...
Help mee!! Q1. Heat conduction & convection (38 pt). Hot water flows in a steel pipe...
Help mee!!
Q1. Heat conduction & convection (38 pt). Hot water flows in a steel pipe of 0.1 m inside diameter at a flow rate of 0.2 m/h and at an average temperature of 70 °C. The pipe length is 2.5 m and the inside pipe wall temperature is 60 °C Assume that the pipe thickness is small and the steel heat conductivity is high enough so that the thermal resistance of the pipe wall is negligible. Calculate: (a) The...
Problem 3 (25 points) In an experiment to find the convective heat transfer coefficient, an internally...
Problem 3 (25 points) In an experiment to find the convective heat transfer coefficient, an internally heated cylindrical electric heater is placed in the path of a cross-flow of air. The air is at 27C moving with a velocity of 10m/s. The heater has dimensions of diameter 15mm, length-90mm, and dissipates a power of 50W. The average surface temperature of the heater is 127°C. Determine: a) The convective heat transfer coefficient using the data provided. b) The convective heat transfer...
Heat Transfer 1 Problem 1 During a cold winter day, wind at 55 km/h is blowing...
Heat Transfer 1 Problem 1 During a cold winter day, wind at 55 km/h is blowing parallel to a 4-m-high and 10-m-long wall of a house. If the air outside is at 5°C and the surface temperature of the wall is 12°C, determine (a) friction coefficient at the center of the wall (b) heat transfer coefficient at the center of the wall (c) drag force on the wall (d) the rate of heat loss from on the wall Use Table...
Use the integral method for boundary layer flow and convective heat transfer over a flat plate he...
Use the integral method for boundary layer flow and convective heat transfer over a flat plate heated by maintaining a constant heat flux q"w, for the case of very low Prandtl number, Pr0. Assume that the free stream velocity of the fluid, U, and free stream temperature, T-do not vary with x. Using the integral form of energy equation, show that under these conditions: (a) the temperature profile, (T- T) is given by, 41 2 CT-T oa (b) the wall...
heat and mass transfer (20 points) Air at 25°C cools a 2170 cylindrical battery (with a diameter of 21 mm and a length of 70 mm) with a cross flow velocity of 6 m/s. a) Determine the average conv...
heat and mass transfer
(20 points) Air at 25°C cools a 2170 cylindrical battery (with a diameter of 21 mm and a length of 70 mm) with a cross flow velocity of 6 m/s. a) Determine the average convective heat transfer coefficient. (b) If the battery's internal heat generation is 5W and its thermal conductivity is 0.6 w/m-k, the determine the battery surface temperature and the maximum temperature in battery
(20 points) Air at 25°C cools a 2170 cylindrical battery...
Please provide a step-by-step solution to this problem. Heat Transfer 1. The material should be f...
Please provide a step-by-step solution to this problem. Heat
Transfer 1. The material should be from the textbook (Fundamentals
of Heat and Mass Transfer) or similar
3. The annular pipe arrangement shown in the figure below is made of stainless steel and the outer surface is insulated. Air flows through the central pipe with a mass flow rate, ma0.026 kg/s. Water flows through the annular region with a mass flow rate, mw 0.58 kg/s. At the given position along the...
1. Heat transfer analysis of a special-purpose panel is to be performed. The temperatures at the...
1. Heat transfer analysis of a special-purpose panel is to be performed. The temperatures at the inner and outer surfaces of the panel measure 30°C and 22°C, respectively. The dimension of the panel is 2.9 m wide, 1.3 m high and 0.40 cm thick. Its thermal conductivity is 0.13 W/m·°C. Heat is lost from the outer surface by convection and radiation. The convective heat transfer coefficient is 23 W/m2 ·°C and an ambient temperature measures 13°C. Determine (a) the fraction...
4. Mixed-Mode Heat Transfer - A transistor capsule is roughly spherical with a 1 cm diameter,...
4. Mixed-Mode Heat Transfer - A transistor capsule is roughly spherical with a 1 cm diameter, covered by a very thin dielectric coating with radiation emissivity E 0.85 The transistor surface is at 60 °C and the surrounding air is at 30°C. The transistor is contained by the black walls of a spherical case with temperature 35 °C, where the case walls are located at a distance H 10 cm from the transistor capsule wall. a) Find the rate of...
ASSIGNMENT 1 BMM35131920/1 QUESTION 3 [10 Marks] a) Briefly discuss the following terms in heat transfer:...
ASSIGNMENT 1 BMM35131920/1 QUESTION 3 [10 Marks] a) Briefly discuss the following terms in heat transfer: i. Blackbody ii. Absorptivity iii. Convection iv. Specific heat v. Thermal conductivity (5 Marks) b) An industrial galvanized pipe (Figure Q3) that carries SiO2 nanofluid as cooling liquid passes through a factory in which the air is at 27°C. The outside diameter of the pipe is 75 mm, and its surface temperature and emissivity are 200 °C and 0.8, respectively. If the coefficient associated...
Solve the following problem using theories from heat transfer. On a cold winter day, the inside...
Solve the following problem
using theories from heat transfer.
On a cold winter day, the inside of a window of a heated building is colder than the inside surrounding air. Natural convection results from this temperature difference. (a) Imagine this window as a vertical surface where T; < Ta, sketch the resulting boundary layer that forms. Also sketch the velocity profile of the air through the boundary layer. (b) What are the key differences between the velocities in this boundary...
Help mee!!
Q1. Heat conduction & convection (38 pt). Hot water flows in a steel pipe of 0.1 m inside diameter at a flow rate of 0.2 m/h and at an average temperature of 70 °C. The pipe length is 2.5 m and the inside pipe wall temperature is 60 °C Assume that the pipe thickness is small and the steel heat conductivity is high enough so that the thermal resistance of the pipe wall is negligible. Calculate: (a) The...
Problem 3 (25 points) In an experiment to find the convective heat transfer coefficient, an internally heated cylindrical electric heater is placed in the path of a cross-flow of air. The air is at 27C moving with a velocity of 10m/s. The heater has dimensions of diameter 15mm, length-90mm, and dissipates a power of 50W. The average surface temperature of the heater is 127°C. Determine: a) The convective heat transfer coefficient using the data provided. b) The convective heat transfer...
Heat Transfer 1 Problem 1 During a cold winter day, wind at 55 km/h is blowing parallel to a 4-m-high and 10-m-long wall of a house. If the air outside is at 5°C and the surface temperature of the wall is 12°C, determine (a) friction coefficient at the center of the wall (b) heat transfer coefficient at the center of the wall (c) drag force on the wall (d) the rate of heat loss from on the wall Use Table...
Use the integral method for boundary layer flow and convective heat transfer over a flat plate heated by maintaining a constant heat flux q"w, for the case of very low Prandtl number, Pr0. Assume that the free stream velocity of the fluid, U, and free stream temperature, T-do not vary with x. Using the integral form of energy equation, show that under these conditions: (a) the temperature profile, (T- T) is given by, 41 2 CT-T oa (b) the wall...
heat and mass transfer
(20 points) Air at 25°C cools a 2170 cylindrical battery (with a diameter of 21 mm and a length of 70 mm) with a cross flow velocity of 6 m/s. a) Determine the average convective heat transfer coefficient. (b) If the battery's internal heat generation is 5W and its thermal conductivity is 0.6 w/m-k, the determine the battery surface temperature and the maximum temperature in battery
(20 points) Air at 25°C cools a 2170 cylindrical battery...
Please provide a step-by-step solution to this problem. Heat
Transfer 1. The material should be from the textbook (Fundamentals
of Heat and Mass Transfer) or similar
3. The annular pipe arrangement shown in the figure below is made of stainless steel and the outer surface is insulated. Air flows through the central pipe with a mass flow rate, ma0.026 kg/s. Water flows through the annular region with a mass flow rate, mw 0.58 kg/s. At the given position along the...
4. Mixed-Mode Heat Transfer - A transistor capsule is roughly spherical with a 1 cm diameter, covered by a very thin dielectric coating with radiation emissivity E 0.85 The transistor surface is at 60 °C and the surrounding air is at 30°C. The transistor is contained by the black walls of a spherical case with temperature 35 °C, where the case walls are located at a distance H 10 cm from the transistor capsule wall. a) Find the rate of...
ASSIGNMENT 1 BMM35131920/1 QUESTION 3 [10 Marks] a) Briefly discuss the following terms in heat transfer: i. Blackbody ii. Absorptivity iii. Convection iv. Specific heat v. Thermal conductivity (5 Marks) b) An industrial galvanized pipe (Figure Q3) that carries SiO2 nanofluid as cooling liquid passes through a factory in which the air is at 27°C. The outside diameter of the pipe is 75 mm, and its surface temperature and emissivity are 200 °C and 0.8, respectively. If the coefficient associated...
Solve the following problem
using theories from heat transfer.
On a cold winter day, the inside of a window of a heated building is colder than the inside surrounding air. Natural convection results from this temperature difference. (a) Imagine this window as a vertical surface where T; < Ta, sketch the resulting boundary layer that forms. Also sketch the velocity profile of the air through the boundary layer. (b) What are the key differences between the velocities in this boundary...
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