Office of the Registrar
Faculty of Engineering and Applied Science (2011/2012)
9.6 Academic Term 6 Courses

6003

Ship Structures II

is an introduction to ship structural safety and rational design. Topics include local strength analysis, elastic, plastic and ultimate strength of plating, frames and grillages, buckling of columns and plates and fatigue and fracture in ships.

CR: the former ENGI 7002

LH: at least one 4-hour session per semester

PR: ENGI 5003

6005

Floating Ocean Structures Design

introduces floating structures used in the offshore petroleum industry, along with functional requirements, such as drilling and production, of the platforms. Field development criteria are discussed in the context of platform concept selection and synthesis. Environmental loads are examined, focussing on wave loads and ice loads. Diffraction theory and its application on offshore structures is presented. Offshore safety is discussed in terms of major hazards, risk management, and case studies.

CR: the former ENGI 7005

LH: 1

PR: ENGI 3054

6030

Dynamics and Maneuvering of Ocean Vehicles

examines applications of the linearised equations of motion to ocean vehicle problems with single and multiple degrees of freedom; dynamics and maneuvering of marine vehicles: motions in calm water and in waves; hydrodynamics effects such as added mass, radiation and viscous damping; strip theory; irregular motions; and systems for course keeping and motion control.

PR: ENGI 3054, ENGI 4020

6101

Assessment of Technology

deals with the issues of the impact of technology on society from an economic, environmental and sociological point of view. Public safety as an engineering responsibility will also be covered. Students will be expected to participate in group discussions, write a number of essays and give oral presentations.

6322

Thermal Sciences

examines fundamental concepts associated with thermodynamics, fluid dynamics and heat transfer; first and second laws of thermodynamics; system and control volume analysis; classification of flows; introduction to boundary layers and drag; convection, conduction and radiation heat transfer; thermal insulation and calculation of R-values; and cooling of electrical components.

CR: the former ENGI 4322

PR: ENGI 5312

6602

Offshore Petroleum Geology and Technology

introduces basic concepts in geology and geophysics of the offshore environment. An outline of petroleum geology is presented, following a path from the origins of hydrocarbons through migration in the Earth’s crust, accumulation in reservoirs and the strategies used to discover and to exploit liquids found in the subsurface. Topics include an introduction to the offshore oil and gas industry in harsh environment, type of platforms and structures, exploration phase of offshore oil development, production drilling and completion processes and equipment, and oil and gas transportation system. There are case studies and a project.

PR: completion of Academic Term 5

6631

Chemical Reaction Engineering

will cover the fundamentals of chemical kinetics and reaction rate expressions as well as the types of reactors, homogeneous and heterogeneous (catalytic) reactors, and the interrelation between transport phenomena and reaction engineering as it applies to process design. It also includes non-ideal flow, non-ideal reactors, catalytic reaction system, and multiphase reactors.

LH: at least four 2-hour sessions per semester

PR: ENGI 4621, ENGI 5961

6651

Sustainable Engineering in Processing Industries

will introduce students to sustainable development and its application to processing operations. Areas such as traditional economic growth, materials cycles, methods for measuring environmental impact, life cycle analysis, waste treatment technologies and recycling technologies will be covered. In addition, the concept of industrial ecology will be included.

PR: ENGI 4625, ENGI 5601

6671

Process Equipment Design II

will cover design and operation of equilibrium stage separation processes including distillation, extraction, and leaching. It will also cover advanced concept of equipment design such as heterogeneous system, multiphase system, absorption, and adsorption operation and computer assisted design. Course will use HYSIS and other process equipment design tools.

LH: at least four 2-hour sessions per semester

PR: ENGI 5601, ENGI 5671

6705

Structural Analysis I

examines structure classification and loads, building code provisions, analysis of statically determinate arches and frames, shear and moment diagrams for frames, influence lines for statically determinate structures, approximate analysis of indeterminate trusses and frames, the force method of analysing indeterminate beams and frames, an introduction to slope deflection method, and moment distribution method.

LH: at least five 3-hour sessions per semester

PR: ENGI 5312

6707

Design of Concrete and Masonry Structures

examines design methods for reinforced concrete two-way slabs, two-way slabs supported on walls and stiff beams, design of two-way slab systems, direct design method and equivalent frame method, design of concrete retaining walls and basement walls, engineered masonry, allowable masonry stresses, mortar stress, analysis and design of flexural members, axial load and bending in unreinforced and reinforced walls, columns and masonry shear walls.

LH: 2

PR: ENGI 5706

6713

Hydraulics

examines flow in pipe systems and networks; uniform and non-uniform flow in open channels; hydraulic machinery and associated conduits; design and analysis of culverts; and pipeline/pump system optimization.

LH: at least four 3-hour sessions per semester

PR: ENGI 5713

6718

Environmental Geotechniques

examines soil characteristics; soil mineralogy; soil water interaction; soil contaminant interactions; advection, adsorption and diffusion; non-aqueous phase liquids; geosynthetics; design of landfills; and use of waste materials. Relevant software programs are used.

CR: the former ENGI 7718

PR: ENGI 5723

6749

Construction Planning Equipment and Methods

includes construction equipment selection and utilization; earthmoving including use of explosives; case studies of major civil projects; principles of project planning and control; computer applications to the construction industry.

CR: the former ENGI 8749

PR: completion of Term 5 of the Civil Engineering program

6813

Electromagnetic Fields

is a continuation of the topics started in Engineering 5812, including a review of electrostatics and magnetostatics, Maxwell’s equations, Lorentz force, Poynting's theorem, plane waves, and applications including two-wire transmission lines.

LH: at least three 3-hour sessions per semester

PR: ENGI 5812

6843

Rotating Machines

examines the fundamentals of rotating machines; design of machine windings; polyphase and single phase induction motor theory and applications; synchronous machine theory; stability and control of synchronous generators; control and protection of rotating machines, an introduction to A.C. motor drives, and machines.

LH: at least six 3-hour sessions per semester

PR: ENGI 4841

6855

Industrial Controls and Instrumentation

examines control and instrumentation system components; transducers and signal processing circuits, linear variable differential transformers, power oscillators; electromechanical actuators, solenoids, power drives; A/D and D/A conversion, standard PC interfaces; real-time operating systems; design of discrete-time feedback controllers on a PC platform; system integration, control system tweaking and troubleshooting; programming soft-PLC's using IEC61131.

CR: the former ENGI 7858

LH: at least eight 3-hour sessions per semester

PR: ENGI 5821

6856

Power Electronics

is an overview of power semiconductor switches, an introduction to energy conversion and control techniques and examination of controlled rectifiers; phase-controlled converters; switch-mode dc/dc converters; variable frequency dc/ac inverters; ac/ac converters; design of thyristor commutation circuits, gate and base drive circuits, and snubber circuits; thermal models and heat sink design.

CR: the former ENGI 7846

LH: at least ten 3-hour sessions per semester

PR: ENGI 5854

6861

Computer Architecture

begins with a review of microprocessors and computer organization. Topics include fundamentals of computer design: performance metrics and cost; instruction set architecture; memory hierarchy design: cache, main memory and virtual memory; pipelining: hazards, parallelism; special purpose processors; multiprocessors and thread-level parallelism.

PR: ENGI 4862

6871

Communication Principles

begins with a review of signal representation and analysis and includes distortionless signal transmission, analog modulation (AM, FM and PM), super-heterodyne receiver, sampling theorem, pulse amplitude modulation (PAM), pulse code modulation (PCM), delta modulation, baseband digital transmission, digital modulation techniques (ASK, FSK and PSK).

LH: at least four 3-hour sessions per term

PR: ENGI 4823, ENGI 5420

6876

Communication Networks

is an introduction to communication networks such as the telephone network and the Internet. Topics include flow control and error control; circuit switching; packet switching; local area networks; internetworking; communication architectures and protocols.

PR: ENGI 5420

6892

Algorithms, Complexity, and Correctness

presents fundamental theories and practices for the design of correct and efficient computing systems, including specification of computing systems and their components, correctness with respect to specifications; methods of verification; algorithmic problem solving strategies (such as divide and conquer, dynamic programming, etc.); tractability and intractability of computational problems.

PR: ENGI 4424, ENGI 4892

6901

Heat Transfer I

examines modes of heat transfer; conduction: steady 1-D conduction, thermal resistance, extended surfaces (fins), lumped capacitance analysis, 1-D transient conduction; convection: Newton’s law of cooling, convection heat transfer coefficient, external boundary layer flows, internal flows, natural convection; radiation: principles, properties, exchange factors, black body radiation, and enclosures, radiation shields.

LH: at least one 3-hour session per semester

PR: ENGI 4901

6927

Mechanical Component Design II

is a continuation of the ENGI 5927 course in analysis and synthesis of machinery, including advanced analysis of machine elements such as clutches, brakes, couplings, journal bearings and gears. Advanced machine design concepts are examined, such as reliability, optimization and techniques for stimulating innovative design. A synthesis project involving the machine elements studied is usually included.

CR: the former ENGI 6926

LH: at least ten 3-hour sessions per semester

PR: ENGI 5927

6933

Mechanical Vibrations

examines single degree of freedom systems: free vibration, energy methods, response to harmonic excitation, response to arbitrary inputs, two degree of freedom systems: natural frequencies and mode shapes, dynamic vibration absorber.

CR: the former ENGI 5932

LH: at least four 2-hour sessions per semester

PR: ENGI 3934

6951

Automatic Control Engineering

examines the performance of feedback control systems. The topics covered in the course are: feedback control concept; control system performance; control system stability; nonlinear phenomena. There is a project which makes use of a peripheral interface controller or PIC. There are 3 laboratory exercises. Extensive use is made of MATLAB.

CR: the former ENGI 6925

LH: at least three 1-hour sessions per semester

PR: ENGI 5951

6961

Fluid Mechanics II

examines differential analysis of fluid motion; conservation of mass: continuity equation; conservation of momentum: Navier-Stokes equations; conservation of energy; inviscid incompressible flows; low Reynolds number flows; boundary layer flows; compressible flows.

CR: the former ENGI 5913

LH: at least three 1-hour sessions per semester

PR: ENGI 5961

AR = Attendance requirement; CH = Credit hours are 3 unless otherwise noted; CO = Co-requisite(s); CR = Credit can be retained for only one course from the set(s) consisting of the course being described and the course(s) listed; LC = Lecture hours per week are 3 unless otherwise noted; LH = Laboratory hours per week; OR = Other requirements of the course such as tutorials, practical sessions, or seminars; PR = Prerequisite(s); UL = Usage limitation(s).