Fundamentals of Heat and Mass Transfer
7th Edition
ISBN: 9780470917855
Author: Bergman, Theodore L./
Publisher: John Wiley & Sons Inc
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Textbook Question
Chapter 5, Problem 5.9P
A solid steel sphere (AISI 1010), 300 mm in diameter, is coated with a dielectric material layer of thickness 2 mm and thermal conductivity
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5.10 A steel sphere (AISI 1010), 100 mm in diameter, is
coated with a dielectric material layer of thickness
2 mm and thermal conductivity 0.04 W/mK. The
coated sphere is initially at a uniform temperature of
500°C and is suddenly quenched in a large oil bath for
which T = 100°C and h = 3000 W/m² K. Estimate the
time required for the coated sphere temperature to reach
150°C. Hint: Neglect the effect of energy storage in the
dielectric material, since its thermal capacitance (pcV)
is small compared to that of the steel sphere.
A chip that is of length L = 5.5 mm on a side and thickness t = 2.0 mm is encased in a ceramic substrate, and its exposed surface is
convectively cooled by a dielectric liquid for which h = 150 W/m² K and To
= 20°C.
.
Th
Chip,
q, T₁, P, Cp
The time is
Substrate
In the off-mode the chip is in thermal equilibrium with the coolant (T; = T). When the chip is energized, however, its temperature
increases until a new steady state is established. For purposes of analysis, the energized chip is characterized by uniform volumetric
heating with a = 9 x 106 W/m³. Assuming an infinite contact resistance between the chip and substrate and negligible conduction
resistance within the chip, determine the steady-state chip temperature Tƒ. Following activation of the chip, how long does it take to
come within 1°C of this temperature? The chip density and specific heat are p = 2000 kg/m³ and c = 700 J/kg-K, respectively.
The steady-state chip temperature Tf is i
S.
°C.
A long insulated tube is doped with an exothermic ma-
terial which generates steady and uniform heat at rate
of è [W/m³]. The tube has an inner radius r₁ and outer
radius r₂. The temperature of the outer insulated sur-
face is T₂. This tube is used to heat a liquid flowing
through it.
(a) Write the governing differential equation and
boundary conditions to determine the tempera-
ture distribution inside the tube.
(b) What is the heat flux supplied to the liquid by the
tube?
e (√₂²-1₁²) / 21₁
1
Fluid
Figure 2: Schematic
Insulation
T₂
N
Chapter 5 Solutions
Fundamentals of Heat and Mass Transfer
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- Please show all steps not Ai generated they have been wrong and I need to understand whats goin on. A steel sphere (AISI 1010), 100 mm in diameter, is coated with a dielectric material layer of thickness 2 mm and thermal conductivity 0.04 W/m • K. The coated sphere is initially at a uniform temperature of 500°C and is suddenly quenched in a large oil bath for which To = 100°C and h = 3000 W/m • K. Estimate the time required for the coated sphere temperature to reach 150°C. Hint: Neglect the effect of energy storage in the dielectric material, since its thermal capacitance (pcV) is small compared to that of the steel sphere.arrow_forwardWrite clearly and explain.arrow_forwardB6arrow_forward
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- 1. Saturated steam at 500 K flows in a 0.20 m inside diameter, 0.21 m outside diameter pipe. The pipe is covered with 0.075 m of insulation with a thermal conductivity of 0.10 W/m-K. The pipe's conductivity is 52 W/m-K. The ambient temperature is 300 K. The unit convective coefficients are hi = 18,000 W/m²-K and ho 12 W/m²-K. Determine the heat loss (kJ/min) from 5 m of pipe.arrow_forwardThe temperatures on the faces of a plane wall 20 cm thick are 400 and 90 ℃. The wall is constructed of a special glass with the following properties: k = 0.8 W∙m-1K-1, ρ = 2750 kgm-3, cP = 0.86 kJkg-1K-1. What is the heat flux (q") through the wall at steady-state conditions?arrow_forwardGiven: Plate thickness: 30 mm k = 45 W/m°C Uniform volumetric heat generation: q = 25 MW/m³ Temperature on the right surface: 450K Temperature on the left surface: 390K Determine the following: (i) The equation for t(x). (ii) The maximum temperature and its location. (iii) The heat flow from each surface of the plate.arrow_forward
- A body having a cylindrical shape of length equals to 1.9 m and diameter equals to 400 mm is inside a room where the ambient temperature is equal to 300 K. The initial temperature of the body is equal to 350 K. If the heat convective coefficient is equal to 1.3 W/m^2.K. What condition should the thermal conductivity k verify in order to apply the lumped capacitance method.arrow_forwardCarbon steel (AISI 1010) shafts of 0.1-m diameter are heat treated in a gas-fired furnace whose gases are at 1200 K and provide a convection coefficient of 100 W/m².K. If the shafts enter the furnace at 220 K, use the lumped capacitance model to estimate how long must they remain in the furnace to achieve a centerline temperature of 800 K? Use p = 7832 kg/m³, k = 51.2 W/(mK), c = 541 J/(kg-K) and a = 1.21 x 10-5 m²/s. They must remain in the furnace for i S.arrow_forwardA body having a cylindrical shape of length equals temperature is equal to 300 K. The initial temperature of the body is equal to 350 K. If the heat convective coefficient is equal to 4.2 W/m^2.K. What condition should the thermal conductivity k verify in order to apply the lumped capacitance method. 1.9 m and diameter equals to 400 mm is inside a room where the ambient Select one: a. k is less than 4.2 W/m.K b. k is greater than 1.6 W/m.K O c. k is greater than 3.8 W/m.K O d. k is less than 2.1 W/m.Karrow_forward
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