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Chemical Engineering Thermodynamics
8:30 - 9:20 AM
2:00 – 4:00 PM (common CHE discussion section)
Engineering North 515
School of Chemical Engineering
Oklahoma State University
423 Engineering North
Open door policy after 3:00 PM.
Use e-mail to schedule appointments
earlier in the day.
Email protocol: Include CHE 3473 in the subject line of all emails (to insure bypassing the
Include your name at the end of every email.
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have entered your email address in the “Reply to” field on the D2L/My
Prerequisites for ChE 3473
Introduction to Chemical Process Engineering
or by permission of instructor.
Introduction to Chemical Engineering Thermodynamics, 7
, J.M. Smith, H.C. Van
Ness, and M.M. Abbott, McGraw-Hill, 2005, ISBN 0-07-310445-0.
Upon completion of this course, you should be able to:
Apply steady state mass, energy and entropy balances to engineering problems based
on concepts learned from previous courses (ENGS 2213 and CHE 2033);
Calculate advanced thermodynamic properties (including but not limited to U, H, S,
of industrial importance
using empirical and theoretical methods;
Apply steady state mass, energy and entropy balances in concert with advanced
property calculation methods from Objective 2 to solve problems of industrial
Apply the fundamental principles of phase equilibria, and determine the properties of
phases in equilibrium for vapor-liquid systems;
Apply the fundamental principles of chemical equilibria and determine the
equilibrium properties of single and multiple phase chemical equilibrium systems;