Kerosene is heated by hot water in a shell and tube heat exchanger. The kerosene is inside the tubes and the water is outside. The flow is counter current. The average temperature of the kerosene is 110 °F and the average linear velocity is 8 ft/s. The tubes are low-carbon steel-in. OD BWG 16 (thermal conductivity = 26 Btu/ft.h. °F). The heat transfer coefficient on the shell side is 300 Btu/ft².h. °F. The properties of the kerosene at 110 °F are Specific gravity = 0.805 Viscosity = 1.5 CP Specific heat = 0.583 Btu/lb.°F Thermal conductivity = 0.0875 Btu/ft.h. °F a. Calculate the overall heat transfer coefficient based on the outside surface area of the tube.
Kerosene is heated by hot water in a shell and tube heat exchanger. The kerosene is inside the tubes and the water is outside. The flow is counter current. The average temperature of the kerosene is 110 °F and the average linear velocity is 8 ft/s. The tubes are low-carbon steel-in. OD BWG 16 (thermal conductivity = 26 Btu/ft.h. °F). The heat transfer coefficient on the shell side is 300 Btu/ft².h. °F. The properties of the kerosene at 110 °F are Specific gravity = 0.805 Viscosity = 1.5 CP Specific heat = 0.583 Btu/lb.°F Thermal conductivity = 0.0875 Btu/ft.h. °F a. Calculate the overall heat transfer coefficient based on the outside surface area of the tube.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:Kerosene is heated by hot water in a shell and tube heat exchanger. The kerosene is
inside the tubes and the water is outside. The flow is counter current. The average
temperature of the kerosene is 110 °F and the average linear velocity is 8 ft/s. The tubes
are low-carbon steel 2-in. OD BWG 16 (thermal conductivity = 26 Btu/ft.h. °F). The heat
transfer coefficient on the shell side is 300 Btu/ft².h. °F. The properties of the kerosene at
110 °F are
Specific gravity = 0.805
Viscosity = 1.5 CP
Specific heat = 0.583 Btu/lb.°F
Thermal conductivity = 0.0875 Btu/ft.h. °F
a. Calculate the overall heat transfer coefficient based on the outside surface area of
the tube.
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