Please note - Swinburne University of Technology
Please note - Swinburne University of Technology
Please note - Swinburne University of Technology
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
~ ~ 4 9 1 Biochemical Engineering<br />
No. <strong>of</strong> hours. per week (including practical work):<br />
four hours for two semesters<br />
Assessment: by examination<br />
A subject in the Graduate Diploma in Chemical Engineering.<br />
Subject aims<br />
To give students a grounding in the theory and practice <strong>of</strong><br />
biological processes used in engineering.<br />
Subject description<br />
Requirements for growth in biological material; variations in<br />
micro-organisms; fermentation pathways. Enzyme reaction<br />
kinetics and absolute reaction rate theory; continuous<br />
fermentation, aeration and agitation. Mass transfer theories.<br />
Bubble and mechanical aeration; scale up; operational and<br />
control. Biological water treatment - BOD, COD.<br />
Mathematical modelling for the design <strong>of</strong> activated sludge<br />
plants, trickling filter and sludge digesters. Nitrification,<br />
eutorphication and river modelling.<br />
References<br />
Aiba, 5. et a/. Biochemical Engineering. 2nd ed, New York: Academic<br />
Press, 1973<br />
Bailey, J.E. and Ollis, D.F. Biochemical Engineenng Fundamentals. 2nd<br />
ed. New York: McGraw-Hill. 1986<br />
Metcalf and Eddy Inc. Wastewafer Engineering: Collection, Treatment,<br />
Disposal. New York: McGraw-Hill, 1972<br />
EE181 Engineering Science - Electronics and<br />
Computing<br />
No. <strong>of</strong> hours per week: four hours for two<br />
semesters<br />
A first-year subject in all degree courses in engineering.<br />
Subject aims<br />
To introduce the principles <strong>of</strong> electrical circuits and<br />
electronics to engineering students and to make links<br />
between electrical and other engineering disciplines.<br />
To introduce fundamental concepts <strong>of</strong> computing, familiarity<br />
with personal computers and some pr<strong>of</strong>iciency in the use <strong>of</strong><br />
the PASCAL language for constructing solutions to<br />
engineering problems.<br />
Syllabus (Semester 1)<br />
ldeal circuit elements (electronics and circuits)<br />
SI units in electrical engineering<br />
Resistance, inductance, capacitance, voltage sources, current<br />
sources, energy storage and energy dissipation.<br />
Linear circuit analysis (electronics and circuits)<br />
Kirch<strong>of</strong>f's Voltage Law (KVL), Kirch<strong>of</strong>f's Current Law (KCL).<br />
Voltage and current division. Circuit analysis using Mesh and<br />
nodal equations. Thevenin and Norton theorems.<br />
Superposition theorem.<br />
Sinusoidal circuit analysis - Part I (electronics and<br />
circuits)<br />
Reason for emphasis upon sinusoidal analysis. Peak, rms,<br />
average values. Response to sinusoidal excitation <strong>of</strong> resistive,<br />
inductive and capacitive elements. The phasor representation<br />
and the phasor diagram.<br />
Digital electronic concepts (electronics and circuits)<br />
Electrical representations <strong>of</strong> numerical data. Binary, octal and<br />
hexadecimal number systems. General number systems<br />
conversions. Basic logic gates. Boolean algebra. De Morgan's<br />
theorems. Truth tables. Combinatorial logic circuits including<br />
sum <strong>of</strong> products (SOP) and product sums (POS) realisations.<br />
Simple Karnaugh map. Simple flip-flop.<br />
Computing Part I<br />
Brief history <strong>of</strong> computing.<br />
lntroduction to computer systems including the disk<br />
operating system (DOS) and the Turbo Pascal development<br />
environment.<br />
Introductory Pascal including syntax diagrams, control<br />
structures, elementary types, continuing Pascal including<br />
subrange types, arrays, procedures, functions, variable and<br />
value parameters, predefined functions, identifier scope,<br />
enumerated types, sets, records, with statements, text files.<br />
Elementary inputloutput interfacing techniques using Pascal.<br />
Syllabus (Semester 2)<br />
Computing Part II<br />
Sinusoidal circuit analysis - Part 2 (electronics and<br />
circuits)<br />
Review <strong>of</strong> complex numbers. Concepts <strong>of</strong> reactance and<br />
impedance and admittance, conductance and susceptance.<br />
Series and parallel combination <strong>of</strong> elements. Application <strong>of</strong><br />
linear circuit laws to AC circuits (include Thevenin and<br />
Norton theorems).<br />
Resonance. Introduction to frequency response.<br />
Analogue electronic circuits (electronics and circuits)<br />
Models for ideal amplifiers. Linear amplifier circuit analysis<br />
using Kirch<strong>of</strong>f's Laws. ldeal operational amplifiers. Linear<br />
applications <strong>of</strong> op-amps. Op-amp integrators and<br />
differentiators. Power gain and voltage gain.<br />
Power calculations (electronics and circuits)<br />
Instantaneous and average power. Real power, reactive<br />
power, apparent power and power triangle. Power factor and<br />
power factor correction. Complex power. Power<br />
measurement.<br />
Transformers (electronics and circuits)<br />
lntroduction to magnetic fields. EMF equation. ldeal<br />
transformer including voltage and current ratios, power<br />
transfer, impedance reflection/referral. Maximum power<br />
transfer, impedance matching.<br />
Text books<br />
Bishop. J.M Turbo Pascal Precisely: Addison-Wesley, 1992<br />
Carlson, A.B. and Gisser, D.G. Electrical Engineering Concepts and<br />
Applications. 2nd ed, Reading, Mass.: Addison-Wesley, 1990<br />
EE188 Administrative and Resource Package. <strong>Swinburne</strong>. 1994<br />
EE188 (Computing) R~SOUK~ Package. <strong>Swinburne</strong>, 1994 (compulsory)<br />
K<strong>of</strong>fman, E.B. Turbo Pascal: Problem Solving and Programme Design.<br />
3rd ed, Addison Wesley, 1991<br />
References<br />
Ashley, R. and Fernandez, J. PCDOS: A Self Tmching Guide. 3rd ed,<br />
New York: Wiley. 1990<br />
Bobrow, L.S. Fundamentals <strong>of</strong> Electrical Engineering. Forhrvorth, Tex.:<br />
Holt, Rinehart and Winston. 1985<br />
Borland. Turbo Pascal User's Guide. Version 5.0 or 5.5<br />
Borland. Turbo Pascal Reference Guide. Version 5.0 or 5.5<br />
Carmody, L.A. and Holliday, R.L. A First Course in Computer Science<br />
with Turbo Pascal. Computer Sciences Press, 1991<br />
Cogdell, J.R. Foundations <strong>of</strong> Electrical Engineereing. Englewood Cliffs,<br />
N.J.: Prentice-Wall, 1990<br />
Del Toro, V. Electrical Engineering Fundamentals. 2nd ed. Englewood<br />
Cliffs. N.J.: Prentice-Hall, 1986<br />
Di Elsi, J. Turbo Pascal 6.0: The Nuts and Bolts <strong>of</strong> Program<br />
Construction. McGraw-Hill, 1991<br />
Dos Reference Manual<br />
Dos Technical Reference<br />
Duntemann, 1. Complete Turbo Pascal. 3rd ed, Scott, Forsman. 1989<br />
Leestma. S.C. and Nyh<strong>of</strong>f. Turbo PascaCProgramming and Pmblem<br />
Solving. New York: Maxwell Macmillan, 1990<br />
Maratek, S.M. Turbo Pascal. Wiley, 1991