Transport Phenomena,9780471999904

Transport Phenomena

by ; ;
Edition: 2nd
ISBN13: 9780471999904
ISBN10: 0471999903
Format: Paperback
Pub. Date: 2000-01-10
Publisher(s): WILEY
List Price: $132.47

Buy New

Usually Ships in 8 - 10 Business Days.
$126.16
Add to Cart

Rent Textbook

Select for Price
Add to Cart
There was a problem. Please try again later.

Used Textbook

We're Sorry
Sold Out

eTextbook

We're Sorry
Not Available

Buy from our Marketplace starting at $34.14

How Marketplace Works:

  • This item is offered by an independent seller and not shipped from our warehouse
  • Item details like edition and cover design may differ from our description; see seller's comments before ordering.
  • Sellers much confirm and ship within two business days; otherwise, the order will be cancelled and refunded.
  • Marketplace purchases cannot be returned to eCampus.com. Contact the seller directly for inquiries; if no response within two days, contact customer service.
  • Additional shipping costs apply to Marketplace purchases. Review shipping costs at checkout.

Summary

* A problem section at the end of each chapter with answers and explanations.

Author Biography

W. J. Beek is the author of Transport Phenomena, 2nd Edition, published by Wiley.

K. M. K. Muttzall is the author of Transport Phenomena, 2nd Edition, published by Wiley.

J. W. Van Heuven is the author of Transport Phenomena, 2nd Edition, published by Wiley.

Table of Contents

Preface to the First Edition ix
Preface to the Second Edition xi
Introduction to Physical Transport Phenomena
1(40)
Conservation Laws
2(9)
Rate of molecular transport processes
11(5)
Microbalances
16(5)
Dimensions and magnitude
21(5)
Dimensional analysis
26(5)
Problems
31(10)
Flow Phenomena
41(108)
Laminar flow
42(20)
Stationary laminar flow between two flat horizontal plates
43(3)
Stationary laminar flow through a horizontal circular tube
46(2)
Stationary laminar flow through a horizontal annulus
48(3)
Flow caused by moving surfaces
51(4)
Flow through pipes with other cross-sections
55(1)
Non-stationary flow
55(3)
Problems
58(4)
Turbulent flow
62(24)
Turbulent flow in pipes
62(5)
Pressure drop in straight channels
67(5)
Pressure drop in pipe systems
72(10)
Problems
82(4)
Flow with negligible energy dissipation
86(18)
Flow of a liquid from an orifice
88(1)
Flow of gases through orifices
89(4)
Flow through weirs
93(2)
Flow meters
95(5)
Problems
100(4)
Flow around obstacles
104(15)
General approach
104(3)
Spherical particles
107(4)
Free fall of droplets
111(1)
Particles in non-stationary flow
112(1)
Rate of sedimentation of a swarm of particles
113(1)
Cylinders perpendicular to the direction of flow
114(1)
Problems
115(4)
Flow through beds of particles
119(9)
Fixed bed
120(2)
Filtration through a bed of particles
122(2)
Fluidized bed
124(1)
Problems
125(3)
Stirring, mixing and residence time distribution
128(21)
Types of stirrer and flow patterns
128(2)
Power consumption, pumping capacity and mixing time
130(3)
Residence time distribution: the F and E functions
133(4)
Simple applications of F and E functions
137(1)
Continuous flow models
138(4)
Dispersion and segregation in flow systems
142(3)
Problems
145(4)
Heat Transport
149(88)
Stationary heat conduction
150(12)
Heat conduction through a wall
151(1)
Heat conduction through cylindrical walls
152(1)
Heat conduction around a sphere
153(1)
General approach for the calculation of temperature distributions
154(2)
Temperature distribution in a cylinder with uniform heat production
156(2)
Problems
158(4)
Non-stationary heat conduction
162(17)
Heat penetration into a semi-infinite medium
163(4)
Heat penetration into a finite medium
167(4)
Influence of an outside heat transfer coefficient
171(3)
Problems
174(5)
Heat transfer by forced convection in pipes
179(12)
Heat transfer during laminar flow in pipes
179(4)
Heat transfer during turbulent flow
183(1)
Partial and total heat transfer coefficients
184(3)
Problems
187(4)
Heat exchangers
191(11)
Determination of mean temperature difference
191(5)
Height of a transfer unit
196(1)
Design of heat exchangers
197(1)
Problems
197(5)
Heat transfer by forced convection around obstacles
202(9)
Flow along a flat plate
202(1)
Heat transfer to falling films
203(1)
Flow around spheres and cylinders
204(1)
Heat transfer in packed beds
205(2)
Heat transfer in fluidized beds
207(1)
Problems
208(3)
Heat transfer during natural convection
211(7)
Natural convection
211(3)
Problems
214(4)
Heat transfer during condensation and boiling
218(7)
Film condensation
218(3)
Dropwise condensation
221(1)
Boiling
221(2)
Heat transfer in evaporators
223(1)
Problems
223(2)
Heat transfer in stirred vessels
225(5)
Problem
229(1)
Heat transport by radiation
230(7)
Problems
234(3)
Mass Transport
237(84)
Stationary diffusion and mass transfer
240(12)
Stationary diffusion
240(4)
Mass transfer coefficients
244(2)
General approach for the calculation of concentration distributions
246(1)
Film model
247(2)
Problems
249(3)
Non-stationary diffusion
252(8)
Problems
255(5)
Mass transfer with forced convection
260(12)
Analogy with heat transfer
260(2)
Mass transfer during laminar flow
262(5)
Mass transfer during turbulent flow
267(1)
Problems
268(4)
Mass exchangers
272(14)
Thermodynamic equilibrium
273(1)
Choice of the apparatus
274(1)
Size determination of the mass exchanger
275(3)
The concept of theoretical plates
278(2)
Problems
280(6)
Mass transfer with chemical reaction
286(28)
Slow homogeneous first-order reactions
288(1)
Fast homogeneous first-order reactions
289(3)
Non-linear homogeneous reactions
292(2)
Homogeneous second-order reactions
294(4)
Mass transfer with heterogeneous chemical reaction
298(4)
Problems
302(12)
Combined heat and mass transport
314(7)
Drying
314(4)
Problems
318(3)
Notation 321(6)
Index 327

An electronic version of this book is available through VitalSource.

This book is viewable on PC, Mac, iPhone, iPad, iPod Touch, and most smartphones.

By purchasing, you will be able to view this book online, as well as download it, for the chosen number of days.

Digital License

You are licensing a digital product for a set duration. Durations are set forth in the product description, with "Lifetime" typically meaning five (5) years of online access and permanent download to a supported device. All licenses are non-transferable.

More details can be found here.

A downloadable version of this book is available through the eCampus Reader or compatible Adobe readers.

Applications are available on iOS, Android, PC, Mac, and Windows Mobile platforms.

Please view the compatibility matrix prior to purchase.