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CHE1110

Introduction to chemical processing systems

4 points * 26 lectures, 22 tutorials, 4 laboratory classes * First/Second semester * Clayton

Objectives The student is expected to acquire a basic understanding of the following: conservation and general balance equations with regard to accumulation, convective and non-convective transfer and generation; use of the general balance equation for total mass, species mass, total energy and linear momentum; chemical reaction leading to generation; non-convective transfer of energy leading to heat transfer; non-convective transfer of momentum leading to shear stress via Newton's law of viscosity; formulation of dimensionless groups.

Synopsis Application of mass, total energy and linear momentum conservation to the following processes: steady continuous processes with and without reaction; unsteady flow from a tank and behaviour of continuous mixing vessels; batch and steady flow energy transfer with specific reference to power generation; rate of heat transfer by conduction and by convection in plane and cylindrical geometries using Fourier's law and heat transfer coefficients; concentric pipe heat exchangers in co-current and counter current flow; log mean temperature difference; steady pipe flow and the significance of the Reynolds number.

Assessment Examinations: 70% * Laboratory/assignments: 30%

Prescribed texts

Uhlerr P H T and Sridhar T Introduction to chemical processing systems Dept Chemical Engineering, Monash U, latest edition


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Published by Monash University, Clayton, Victoria 3168
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Authorised by the Academic Registrar December 1996