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Design of Fluid Thermal Systems [平装] |  |
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Design of Fluid Thermal Systems [平装] | |
Dr. William S. Janna is a Professor in the Department of Mechanical Engineering at the University of Memphos. He has served as Department Chair at U of Memphis from 1987-1991. He served also as Associate Dean for Graduate Studies and Research (1999-2003). Previously, he served as Department Chair at the University of New Orleans, where he was employed from 1976 to 1987. Dr. Janna has written three textbooks, as well as several laboratory manuals. He was a member of The American Society for Engineering Education, and currently serves as web master for the Mechanical Engineering Division. He is also a member of ASME. Dr. Janna is committed to improving undergraduate engineering education, and to the sharing of information that will produce better engineers. His current research interests include flow in piping systems, heat and mass transfer from melting ice objects, flow over a sublimating flat plate, and design of fluid-thermal systems. He teaches undergraduate and graduate courses in the areas of thermodynamics, fluid mechanics, and heat transfer.
1. INTRODUCTION
Dimensions and Units.
The Design Process.
The Bid Process.
Approaches to Engineering Design.
Design Project Example.
Project Management.
Summary.
Questions for Discussion.
Show and Tell. Problems.
2. FLUID PROPERTIES AND BASIC EQUATIONS
Fluid Properties.
Measurement of Viscosity.
Measurement of Pressure.
Basic Equations of Fluid Mechanics.
Summary.
Show and Tell.
Problems.
3. PIPING SYSTEMS I
Pipe and Tubing Standards.
Hydraulic Diameter.
Equation of Motion for Flow in a Duct.
Friction Factor and Pipe Roughness.
Minor Losses.
Flow Through Noncircular Cross Sections.
Summary.
Show and Tell.
Problems.
4. PIPING SYSTEMS II
Concepts of Optimization.
Economic Pipe Diameter.
Equivalent Length of Fittings.
System Behavior.
Pipes in Parallel.
Graphical Symbols for Piping Systems.
Support Systems for Pipes.
5. SELECTED TOPICS IN FLUID MECHANICS
Measurement of Flow Rate in Closed Conduits.
Flow in Pipe Networks.
Water Hammer.
Thermal Stresses in Pipes.
Unsteady Draining Tank Problem.
Summary.
Show and Tell.
Problems.
6. PUMPS AND PIPING SYSTEMS
Types of Pumps.
Pump Testing Methods.
Cavitation and Net Positive Suction Head.
Dimensional Analysis of Pumps.
Specific Speed and Pump Types.
Piping System Design Methodology.
Fans and Fan Performance.
Turbines and Compressors.
Summary.
Show and Tell.
Problems.
Group Problems.
7. SOME HEAT TRANSFER FUNDAMENTALS
Conduction of Heat Through a Plane Wall.
Conduction of Heat Through a Cylinder Wall.
Convection Heat Transfer?
The General Problem.
Convection Heat Transfer Problems: Formulation and Solution.
Optimum Thickness of Insulation.
Summary.
Problems.
8. DOUBLE PIPE HEAT EXCHANGERS
The Double Pipe Heat Exchanger.
Analysis of Double Pipe Heat Exchangers.
Effectiveness-NTU Analysis.
Double Pipe Heat Exchanger.
Summary.
Show and Tell.
Problems.
9. SHELL AND TUBE HEAT EXCHANGERS
Shell and Tube Heat Exchangers.
Analysis of Shell and Tube Exchangers.
Increased Heat Recovery in Shell and Tube Heat Exchangers.
Shell and Tube Heat Exchanger.
Optimum Water Outlet.
Show and Tell. Problems.
10. PLATE & FRAME HEAT EXCHANGERS AND CROSS FLOW HEAT EXCHANGERS
The Plate and Frame Heat Exchanger.
Analysis of Plate and Frame Heat Exchangers.
Cross Flow Heat Exchangers.
Summary.
Show and Tell.
Problems.
11. PROJECT DESCRIPTIONS
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