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Tracer Technology

by Levenspiel, Octave.
Authors: SpringerLink (Online service) Series: Fluid Mechanics and Its Applications, 0926-5112 ; . 96 Physical details: XII, 148 p. online resource. ISBN: 1441980741 Subject(s): Engineering. | Chemical engineering. | Hydraulic engineering. | Engineering. | Engineering Fluid Dynamics. | Industrial Chemistry/Chemical Engineering. | Fluid- and Aerodynamics.
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E-Book E-Book AUM Main Library 620.1064 (Browse Shelf) Not for loan

The Tracer Method -- The Mean and Variance of a Tracer Curve -- The E and the F Curves -- Two Ideal Flow Models - Plug Flow and Mixed Flow -- Compartment Models -- The Dispersion Model -- Intermixing Between Flowing Fluids -- The Tanks-in-Series Model -- Convection Model for Laminar Flow in Pipes -- Batch Systems -- The Stirred Tank - Mixing Time and Power Requirement -- Meandering Flow and Lateral Dispersion.

A vessel’s behavior as a heat exchanger, absorber, reactor, or other process unit is dependent upon how fluid flows through the vessel.  In early engineering, the designer would assume either plug flow or mixed flow of the fluid through the vessel.  However, these assumptions were oftentimes inaccurate, sometimes being off by a volume factor of 100 or more.  The result of this unreliable figure produced ineffective products in multiple reaction systems.   Written by a pioneering researcher in the field of chemical engineering, the tracer method was introduced to provide more accurate flow data.  First, the tracer method measured the actual flow of fluid through a vessel.  Second, it developed a suitable model to represent the flow in question.  Such models are used to follow the flow of fluid in chemical reactors and other process units, like in rivers and streams, or solid and porous structures.  In medicine, the tracer method is used to study the flow of chemicals—harmful  and harmless—in the bloodstreams of humans and animals.   Tracer Technology – Modeling the Flow of Fluids discusses how tracers are used to follow the flow of fluids, and how a variety of models are developed to represent these flows.   Octave Levenspiel is Professor Emeritus of Chemical Engineering at Oregon State University.  His primary interest is chemical reaction engineering, focusing largely on applying chemical reaction kinetics and physics to the design of chemical reactors.  His work has been recognized with awards that include the R.H. Wilhelm award (AIChE), the W.K. Lewis award (AIChE), and the P.V. Danckwerts award (IChemE).  His previous books, including Chemical Reaction Engineering, The Chemical Reactor Omnibook, and Engineering Flow and Heat Exchange, are widely used in industry and teaching, and have been translated into 12 foreign languages.

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