Introduction to Heat Transfer
6th Edition
ISBN: 9780470501962
Author: Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine
Publisher: Wiley, John & Sons, Incorporated
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Textbook Question
Chapter 1, Problem 1.51P
Three electric resistance heaters of length
- If the heaters are activated, each dissipating
- If the natural convection coefficient is given by an expression of the form
- If the heaters are inadvertently activated when the tank is empty, the natural convection coefficient associated with heat transfer to the ambient air at
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6. 1
- J:
Water is passed through a 3 cm internal diameter, 8 m long tube is heated
from 15 °C to 75°C . The tube is equipped with an electric resistance heater,
which provides uniform heating throughout the surface of the tube. The
outer surface of the heater is well insulated, so that in steady operation all
the heat generated in the heater is transferred to the water in the tube. If
the system is to provide hot water at a rate of 8 L/min, determine the power
rating of the resistance heater. Also, estimate the inner surface
temperature of the pipe at the exit.
L
3
p= 990.1kg/m?
k = 0.637 W/m.°C
v = u/p=0.602 x10-6 m²/s
C, = 4180 J/kg.°C
Pr = 3.91
Question 2
Water flows through a pipe at an average temperature of T = 50°C. The inner and outer radii of
the pipe are ri = 6 cm and r2 = 6.5 cm, respectively. The outer surface of the pipe is wrapped with
a thin electric heater that consumes 300 W per m length of the pipe. The exposed surface of the
heater is heavily insulated so that the entire heat generated in the heater is transferred to the pipe.
Heat is transferred from the inner surface of the pipe to the water by convection with a heat transfer
coefficient of h = 55 W/m2 . °C. Assuming constant thermal conductivity and one-dimensional
heat transfer, express the mathematical formulation (the differential equation and the boundary
conditions) of the heat conduction in the pipe during steady operation and obtain temperature
distribution in pipe.
A mass of 300kg of oil is cooled in 1 hour from 70 celcius to 35 celcius in a cooler consisting of a bank of tubes through which hot oil passes. Cooling water circulates around the outside of the tubes. Calculate the mass of cooling water required per hour if the water temp increases by 21 degrees celcius .
Specific Heat of Oil - 2.0 kJ/kg deg C
Specific Heat of Water - 4.186 kJ/kg deg C
Chapter 1 Solutions
Introduction to Heat Transfer
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