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Undergraduate Engineering 2020-2021

EE1501: ELECTRONICS DESIGN

15 credits

Level 1

Second Sub Session

This course provides an introduction to the design and analysis techniques used within electronic engineering, and to the major active components (diodes and transistors).  The course opens with a description of charges, the forces between charges and the concept of electric fields. The second part of the course deals with semiconductor devices, opening with fundamental properties of doped semiconductors.  

EG1008: PRINCIPLES OF ELECTRONICS

15 credits

Level 1

First Sub Session

The aim of the course is to introduce basic concepts of electrical & electronics within a context of general engineering. The topics covered are kept at an elementary level with the aim of providing the foundational material for subsequent courses at levels 1 and 2. The course adopts the philosophy of application oriented teaching. During each topic the students will be provided with examples of day-to-day devices. Topics covered include dc circuit analysis, electronic amplifiers, digital circuits, optoelectronics, and ac theory.

EG1010: CAD AND COMMUNICATION IN ENGINEERING PRACTICE

15 credits

Level 1

First Sub Session

The course is designed to introduce the students to different methods of communication in the process of interchanging ideas and information. Oral presentation and writing of technical reports are introduced. The importing data from web-based and library-based sources will be integrated through information retrieval and investigative skills training. Professional ethics are covered on plagiarism, copyright and intellectual property. Engineering drawing skills and knowledge of relevant British and International Standards will be developed through intensive training in the use of computer aided design and modelling package, SolidWorks. Standard drawing formats including 3D depiction of stand alone parts and assemblies are covered.  

EG1011: INTRODUCTORY MATHEMATICS

15 credits

Level 1

First Sub Session

This course is aimed at those students who want to build confidence and skills working in mathematics. This is applies to both those who need to build knowledge and those who simply wish to revise and strengthen their existing knowledge.

Mathematics is fundamental tool in Engineering. This course will help develop an understanding of the meaning of the abstract mathematics and this, in turn, helps to improve speed and accuracy working with mathematical notation. Topics covered are listed in the Course Description.

EG1012: FUNDAMENTALS OF ENGINEERING MATERIALS

15 credits

Level 1

First Sub Session

Engineering design depends on materials being shaped, finished and joined together. Design requirements define the performance required of the materials. What do engineers need to know about materials to choose and use them successfully? They need a perspective of the world of materials. They need understanding of material properties. They need methods and tools to select the right material for the job. This course will help you develop knowledge and skills required for the successful selection and use of engineering materials. 

EG1504: ENGINEERING MATHEMATICS 1

15 credits

Level 1

Second Sub Session

The course presents fundamental mathematical ideas useful in the study of Engineering. A major focus of the course is on differential and integral calculus. Applications to Engineering problems involving rates of change and averaging processes are emphasized. Complex numbers are introduced and developed. The course provides the necessary mathematical background for other engineering courses in level 2.

EG1510: FUNDAMENTAL ENGINEERING MECHANICS

15 credits

Level 1

Second Sub Session

Engineering Mechanics is concerned with the state of rest or motion of objects subject to the action of forces.  The topic is divided into two parts:  STATICS which considers the equilibrium of objects which are either at rest or move at a constant velocity, and DYNAMICS which deals with the motion and associated forces of accelerating bodies.  The former is particularly applied to beams and truss structures. The latter includes a range of applications, such as car suspension systems, motion of a racing car, missiles, vibration isolation systems, and so on.

EA2502: SOLIDS AND STRUCTURES

15 credits

Level 2

Second Sub Session

This course provides students with the opportunity to refresh and extend their knowledge to analyse the mechanical behaviour of engineering materials and structures. In particular, mechanical properties of materials, and 2D and 3D stresses and strains are examined, the effects of internal imperfections on the performance of materials under loading, brittle fracture, fatigue and non-destructive testing are discussed. The structural analysis of beams and columns, deflection and buckling, as well as design applications are also considered in the course.

EE2504: ELECTRONIC SYSTEMS

15 credits

Level 2

Second Sub Session

Electronics systems are discussed from basic concepts of digital logic to highlights of embedded microcontrollers. The journey begins with the elementary building blocks of Boolean algebra (logic gates and flip-flops) that are used to design combinatorial/sequential logic circuits, e.g. implementing a simple calculator or a temperature control circuit. The design of complex system is addressed introducing embedded microcontrollers, discussing their core components (e.g. timers, memory) and required programming operations.

Hands-on lab sessions (and relative assignments) include software-based simulations and hardware implementation of systems that allow students to test and deepen their understanding of the subject.

EG2004: FLUID MECHANICS & THERMODYNAMICS

15 credits

Level 2

First Sub Session

The fluid mechanics section of the course begins with the material properties of fluids. This is followed by studying fluid statics and principles of fluid motion. Bernoulli’s equation is used to explain the relationship between pressure and velocity. The final fluids section introduces the students to incompressible flow in pipelines.

The thermodynamics section presents: the gas laws, including Van Der Waals’ equation; the first law of thermodynamics with work done, heat supply, and the definitions of internal energy and enthalpy. The second law is introduced including entropy through the Carnot cycle.

EG2011: PROCESS ENGINEERING

15 credits

Level 2

First Sub Session

A general engineering course that provides insight into the two main conservation principles, mass and energy. Processes are usually described through block diagrams. This language, common to many disciplines in engineering, helps the engineer to look at their processes with an analytical view. Degree of freedom analysis is addressed, emphasising its importance to solve a set of linear equations that model fundamental balances of mass. Practical examples of Energy balances are displayed, bringing Thermodynamics to a practical level. Heat Transfer is introduced. Process control is introduced, explaining basic control techniques and concepts, i.e sensors, feedback, control loops and PID controllers.

EG2012: ENGINEERING MATHEMATICS 2

15 credits

Level 2

First Sub Session

This course follows Engineering Mathematics 1 in introducing all the mathematical objects and techniques needed by engineers.  It  has three parts:

  • Matrices: definitions, operations, inverse and determinant; application to systems of linear equations.
  • Ordinary differential equations: 1st order (linear and separable), 2nd order with constant coefficients, forced oscillations and resonance.
  • Functions of two variables: partial derivatives and extrema, the chain rule, the heat equation and the wave equation.

EG2501: DESIGN & COMPUTING IN ENGINEERING PRACTICE

15 credits

Level 2

Second Sub Session

A general engineering course that provides an insight into the principles of engineering design process, computer programming in MATLAB and its application in parametric study and basic design optimisation, environmental ethics and sustainability in the context of design, and Computer Aided Design (CAD) using Solidworks.  The course also includes hands-on exercises on the manufacture of simple parts using a variety of machine tools and joining processes.

EG2503: ELECTRICAL AND MECHANICAL SYSTEMS

15 credits

Level 2

Second Sub Session

This course provides students with an integrated development of methods for modelling, analysing and designing systems comprising electrical and mechanical components. In doing so it intends to emphasise to the students the similarity in behaviour between electrical and mechanical systems. The course aims to give an introduction to both electrical machines, circuit and systems, transformers, and similar mechanical systems like gearbox, vibrating system and principles of dynamics,  and thus provide the foundation material for several courses at level 3 .

EA3027: GEOTECHNICS 1

15 credits

Level 3

First Sub Session

Aimed principally at students interested in civil engineering, it aims to familiarise students with the fundamental concepts involved in soil mechanics and engineering geology.  The first course in the civil engineering programme that includes the importance of soil mechanics in the structural design.  The main emphasis is understanding the main principles of soil mechanics through the introduction of laboratory tests commonly used to obtain the engineering properties of different types of soil such as sand and clay.  Discussion of the consequences of some soil failures (such as in the case of Tower of Pisa) are also introduced.

EA3518: MECHANICS OF STRUCTURES

15 credits

Level 3

Second Sub Session

The major topic of this course is an introduction to modern methods of elastic structural analysis. In this topic, direct, energy and matrix methods are jointly used to solve, initially, problems of the deformation of simple beams. The theorem of virtual work is introduced in the context of beams and frameworks.

The rigid-plastic analysis of beams is then introduced along with the upper bound theorem and their importance to engineering design.

EA3519: DESIGN OF STRUCTURAL ELEMENTS

15 credits

Level 3

Second Sub Session

This course is an introduction to Structural Design using steel, concrete and composite steel/concrete.

The emphasis is on the design of individual components – the ‘Structural Elements’ – these being members in tension, compression, bending – in either steel or reinforced concrete – and in the bolted and welded connections between steel members.

There is an extensive laboratory exercise testing reinforced and un-reinforced concrete to destruction.

It should be noted that students are also required to do the separate course EA3720, half of which consists of a 9 week Steel Design exercise.

EA3538: STRUCTURAL DYNAMICS

10 credits

Level 3

Second Sub Session

This course introduces the theory of dynamics and the vibration of single and multi-degree of freedom systems.

EA3720: CIVIL ENGINEERING DESIGN AND SURVEYING

10 credits

Level 3

Second Sub Session

This course consists of two quite separate halves.  The first is a 9 week Civil Engineering Design activity, which runs concurrently with the associated course EG3519 (Design of Structural Elements).   Generally there will be two half days of timetabled sessions in each of those 9 weeks.  The second half of the course is a one-week residential Field Surveying and Hydrology field trip, which usually takes place in the first week of the Easter break.  There will be a charge to students to cover the specific transport, food and accommodation costs associated with that field trip.

EE3043: CONTROL SYSTEMS

15 credits

Level 3

First Sub Session

The aim of the course is to provide students with a basic understanding and concepts of control systems. The course starts by introducing basic concepts of feedback control systems using a number of practical examples. Mathematical modelling of physical systems and representing them in block diagrams with transfer functions are presented. Basic control system response characteristics (stability, transient response, steady state response) and analysis and design procedures are introduced using first and second order systems. Analysis of control systems using Routh-Hurwitz criterion, root locus, and Bode plot methods are considered.

EE3053: SIGNALS, SYSTEMS & SIGNAL PROCESSING

15 credits

Level 3

First Sub Session

How can the dynamic behaviour of a mechanical mass-spring-damper system be similar to an electrical resistance-capacitance-inductance circuit? Motivated by this question, this course introduces the signals – systems framework that helps in describing the dynamic behaviour of systems for a variety of inputs (signals).  Useful analysis tools both in the frequency- and the time-domain are also introduced. In the later part of the course, these concepts will be used to understand basic signal processing in the form of both analogue and digital filter design.

EE3093: C/C++ PROGRAMMING

15 credits

Level 3

First Sub Session

C programming is presented with an introduction to methods for the design of well-structured and maintainable computer programs.  The course begins by introducing the syntax and semantics of the C programming language.  This includes the use of structures and of pointers with a view to a later introduction to the C++ language.  Techniques for producing easily maintained and modifiable code are emphasised.  An introduction to elementary data structures (lists, stacks and queues) is included.  Practical activity includes the use of basic software development tools (debugging techniques, version control).  The course concludes with an introduction to the C++ programming language.

EE3557: ELECTRICAL POWER ENGINEERING

15 credits

Level 3

Second Sub Session

The course studies the systems for the generation, transmission and use of electrical energy.  The per-unit notation system is introduced. Basic approaches in the three phase AC systems analysis are introduced.  Three-phase induction and synchronous machines are studied, and a simple equivalent circuit for the machine is derived and used to explore the operating limitations of each type of the machine.  Modern power conversion methods are discussed for conversion between AC and DC.  This discussion includes power electronic switches and the basic topology of rectifiers, DC-DC converters and inverters.  The advantages of switching conversion techniques over traditional circuits are highlighted.

EE3576: COMMUNICATIONS ENGINEERING 1

10 credits

Level 3

Second Sub Session

A short course teaching fundamentals of digital communications engineering. The course focuses on remote control of equipment. It starts with asynchronous data, and use with a GPS device (to identify location and time), then studies the Digital Multiplex (DMX) control bus (a standard in the live entertainment industry) followed by the bi-directional Remote Device Management (RDM) protocol.  It concludes with the synchronous the Controller Area Network (CAN) for industrial/transport applications.

Teaching will be supported by demonstrations of equipment and practical laboratory exercises.  Accessible to students of computer science and electrical/electronic engineering.


EE3579: ELECTRICAL & ELECTRONICS ENGINEERING DESIGN

10 credits

Level 3

Second Sub Session

This course provides design, analysis and control of digital systems (hardware/Software) through practical implementation. This course involves three practical design projects. Each project relates with practical applications encounters in our daily life. The course begins with a discussion of different sensors commonly employed by the industry. The hardware aspects are explained with specific reference to the task of interfacing sensors to a microcontroller; the operation and programming of integrated systems is implemented using C++ code. The elements of writing well-structured software are introduced. Sustainability, environmental issue and ethics considerations are studied for embedded system design.

EE3580: DIGITAL SYSTEMS

15 credits

Level 3

Second Sub Session

Digital systems design principles;
HW implementation of Combinational logic;
Clocked sequential systems and Finite State Machines;
Design, implementation and testing of a synchronous system;
Applications of Digital Systems in communications and robotics.

EG3007: ENGINEERING ANALYSIS AND METHODS 1A

15 credits

Level 3

First Sub Session

Modern engineering analysis relies on a wide range of analytical mathematical methods and computational techniques in order to solve a wide range of problems. The aim of this course is to equip students with the necessary skills to quantitatively investigate engineering problems. Examples applying the methods taught to practical situations from across the full range of engineering disciplines will feature heavily in the course.

EG3599: PROJECT AND SAFETY MANAGEMENT

10 credits

Level 3

Second Sub Session

To course aims to provide students with an awareness of purpose, principals, fundamental concepts and strategies of safety and project management.

EM3015: STRESS ANALYSIS A

15 credits

Level 3

First Sub Session

One of the roles of an engineer is to ensure that engineering components perform in service as intended and do not fracture or break into pieces.  However, we know that sometimes engineering components do fail in service.  Course examines how we determine the magnitude of stresses and level of deformation in engineering components and how these are used to appropriately select the material and dimensions for such component in order to avoid failure. Focus is on using stress analysis to design against failure, and therefore enable students to acquire some of the fundamental knowledge and skills required for engineering design.

EM3019: FLUID MECHANICS

15 credits

Level 3

First Sub Session

The course begins with dimensional analysis and the concept of dynamic similarity applied to fluid flow phenomena.  This is followed by sections on the energy and momentum equations applied to a range of problems in civil, mechanical, chemical and petroleum engineering, including steady flow in pipes, design of pump-pipeline systems, cavitation, forces on bends, nozzles and solid bodies, turbomachinery and propeller theory.  A section on unsteady flow applies inertia and water hammer theory to the calculation of pressure surge in pipes.  The final section deals with flow through porous media such as flow through soils and rocks.

EM3028: ENGINEERING MATERIALS

15 credits

Level 3

First Sub Session

The course focuses, initially, on the major groups of solid materials – metals, ceramics, polymers, and provides an introduction to materials selection. Strengthening mechanisms in these systems and the relationship between microstructure and mechanical properties are highlighted. The main failure and degradation processes of materials in service, fracture, fatigue, creep and corrosion, are considered. The major welding and adhesive bonding processes are introduced, and structural integrity of welded joints is examined. Finally, the course gives a comprehensive introduction to composite materials and motivation for their use in current structural applications. Manufacturing of different types of composites is reviewed.

EM3511: DYNAMICS 1

15 credits

Level 3

Second Sub Session

This course introduces the theory of dynamics and the vibration of single and multi-degree of freedom systems, and dynamics of rotating and reciprocating machinery.

EM3521: ENGINEERING THERMODYNAMICS

10 credits

Level 3

Second Sub Session

The course begins introducing thermodynamic properties and reviewing first and second laws. The material is then taken forward into application in a focused module on production of power from heat which includes: steam power plants; internal-combustion and gas-turbine engines. This is followed by a module on refrigeration and liquefaction. The course continues with a detailed discussion of the applications of thermodynamics to flow processes including: duct flow of compressible fluids in pipes and nozzles; turbines; compression processes. The course concludes with a module on psychrometry which includes: humidity data for air-water systems; humidification & dehumidification systems.

EM3522: DESIGN OF MECHANICAL ELEMENTS

10 credits

Level 3

Second Sub Session

Aimed at students interested in mechanical engineering and aims to equip students with the skills and knowledge required to take a design requirement/concept to a fully implemented product.  It will provide an overview of a multi-stage design methodology followed by procedures for the detailed design of various mechanical elements including gears, shaft and bearings.  These procedures will include design to resist fatigue failure and will be taught using an example product.  The course will include aspects of sustainability and choice of method for manufacture. Assessed through a series of group design exercises.

EP3595: DRILLING AND WELL ENGINEERING

15 credits

Level 3

Second Sub Session

The process of drilling an oil and gas well will be outlined. We will look at the surface equipment, downhole technologies and associated safety issues. Drilling fluids, casing and cementing the well, directional drilling etc. will be investigated

EP3596: RESERVOIR ENGINEERING I-FUNDAMENTALS

15 credits

Level 3

Second Sub Session

This course presents an introduction to the theories that govern the flow of oil and gas through a reservoir rock. The mechanisms that drive the fluid flow through the reservoir and that control hydrocarbon production are described and discussed. Some ways of increasing hydrocarbon production are introduced. The course is intended for students on the honours petroleum engineering degree program and students will require a strong engineering, or physics background (to level 3) and a good grasp of engineering mathematics at level 3 (or equivalent).

EP3597: PETROLEUM ENGINEERING DESIGN

10 credits

Level 3

Second Sub Session

This course provides experience of working in a team by carrying out a practical well engineering design.

The design will draw on theories and concepts from courses previously and/or currently being studied by the student. This course may be accompanied by lectures from practising engineers on professional aspects of petroleum engineering design and practice. Students will be encouraged to attend relevant local meetings of professional engineering societies and institutions.

EP3598: WELL TESTING

10 credits

Level 3

Second Sub Session

This course introduces students to the fundamentals of well fluid and reservoir testing and the implications for reservoir characterisation. The theory of reservoir pressure testing is introduced, testing methods examined and some of the standard analysis techniques are explored using both “hand calculations” and industry standard software.

EX3029: CHEMICAL THERMODYNAMICS

15 credits

Level 3

First Sub Session

The course aims to give a thorough treatment of the real PVT behaviour exhibited by multicomponent, multiphase systems by giving candidates the knowledge required to determine: a) the heat and/or work required to bring about a given change of state; b) the change of state resulting from a transfer of energy in the form of heat and/or work, or as a result of a chemical reaction. To build on the knowledge of process simulation gained in Level 2 and emphasize, in examples and laboratories, the importance of selecting an appropriate fluid package.

EX3030: HEAT, MASS & MOMENTUM TRANSFER

15 credits

Level 3

First Sub Session

This course focuses on applied momentum, heat, and mass transport in engineering problems.  It demonstrates how fundamental design equations can be derived for a wide range of real engineering problems (e.g. nuclear fuel rods, coal combustion, radiation shielding, electrical heaters, toothpaste etc).  This course makes it clear that engineering is the art of applying mathematics to the real world and develops the tools required to tackle a wide range of challenges.

The analytical results of transport phenomena are demonstrated in simple systems before discussing more complex systems, such as multiphase flow, which require the use of semi-empirical correlations to solve.

EX3501: CHEMICAL REACTION ENGINEERING

15 credits

Level 3

Second Sub Session

Starting from previously attained knowledge and understanding of equilibrium, kinetics, thermochemistry and material and energy balancing on reactive processes, the course sets about developing skills in the design and sizing of industrial chemical reactors.  Batch and continuous reactors of different types are covered with design equations being derived from fist principles for a variety of systems with different degrees of complexity.  The course focuses on homogeneous reactions, design for single and parallel reactions, reactor modelling for non-ideal flow, temperature and pressure effects and chemical reaction process safety.  Other elements of chemical reaction engineering are introduced.

EX3502: SEPARATION PROCESSES 1

15 credits

Level 3

Second Sub Session

This course covers the fundamental concepts of equilibrium and rate-based analysis of separation processes, and gives examples of relevant separation processes. It introduces the concept and analysis of a unit operation as applied to separation processes and demonstrates the analysis of relevant separation processes by applying mass and energy balance methods.

EX3503: CHEMICAL ENGINEERING DESIGN

10 credits

Level 3

Second Sub Session

Chemical Engineering Design takes the learning from the first two and a half years of the degree and ties it together whilst formally introducing student to the overall process of chemical engineering design.

Employability and professional attributes are embedded in the course with design engineers (students) being line managed.  Professional attributes such as time management, project management, communication and team working are developed through the course. Within the course, design engineers will also significantly develop

EX3504: PROCESS MODELLING

10 credits

Level 3

Second Sub Session

This course aims to develop students? ability in process simulation, broadly, in two areas: 1) the use of commercially available steady-state process simulation engines; 2) the development of process models and simulations from first principles using other applications such as Matlab, MathCad and Excel. In achieving these aims, the course will allow students to further develop their skillset in Process Thermodynamics, Process Analysis and Chemical Engineering Computer Applications.

EA40JE: GEOTECHNICS 2

10 credits

Level 4

First Sub Session

It aims to equip students with the main concepts of foundation design where the concepts of pile foundations, retaining walls and slope stability are explored.  The course gives a student adequate tools to understand the design approaches associated with different types of soil.  Geotechnical standard code, Eurocode 7 is introduced and discussed.  In addition principles of ground water flow and the main problems related to its sustainable management are discussed.  This course aims for a student to reach an adequate level in soil mechanics and foundation engineering as the basis for the training of a professional civil or structural engineer.

EA40JF: CIVIL ENGINEERING HYDRAULICS

10 credits

Level 4

First Sub Session

The course develops topics in hydraulics of interest to civil engineers.  It demonstrates the link between well-developed theoretical studies and their practical application in river, environmental, offshore and coastal engineering.  The course begins with water wave theory with particular application to coastal and offshore engineering.  This is followed by consideration of boundary layer development over a flat plate and curved surfaces, leading to boundary layer separation and forces on immersed bodies.  These topics are also part of the EM40JJ Fluid Dynamics course.  The second part of the course is mainly concerned with the analysis of open channel and river flows and sediment transport.  The mechanics of open channel flow are first addressed, mainly focussed on steady, rapidly and gradually varied flow problems applied to artificial and natural channels.  This is followed by consideration of fundamental aspects of sediment transport, including threshold criteria and the calculation of bed load and suspended load transport.

EA40JG: ADVANCED STRUCTURAL DESIGN

10 credits

Level 4

First Sub Session

This course is a follow-on course to the Level 3 Course on Design of Structural Elements (EA3519) (and to some extent the Level 3 Civil Engineering Design (EA3720)).  It covers four main areas:

a)       Design of Industrial Buildings in Structural Steelwork

b)       Design of steel-framed multi-storey buildings

c)        Design of domestic buildings using masonry and timber

d)       Design of pre-stressed concrete

EA4526: ADVANCED STRUCTURAL ANALYSIS

15 credits

Level 4

Second Sub Session

Course extends the basic stiffness method of analysis developed in the pre-requisite courses. Fundamental principles of the stiffness method of analysis, with automatic assembly of the stiffness matrix for rigid jointed plane frames and space structures, are presented in some detail. Elastic instability of frames, and the design of continuous steel beams and portal frames using plastic methods will be undertaken. Analysis of flat plates and slabs using yield line theory, and an introduction to shells also covered. The course concludes with a brief outline of the finite element method of analysis, with computer-based applications forming an important practical component.

EA4527: ENVIRONMENTAL ENGINEERING

15 credits

Level 4

Second Sub Session

This course will deal with various aspects related to:

  • Surface Waters: sources of water pollution and their impact on aqueous environment and public health, water quality and water supply, wastewater treatments;
  • Soil and Groundwater: groundwater flow, groundwaters contamination, contaminants' subsurface transport mechanisms, sustainable land-groundwater management;
  • Solid Wastes: sources of solid wastes, characterisation and treatment of solid waste, integrated solid waste management;
  • Air Pollution and Control: air pollutants and sources, air pollution meteorology, pollutant dispersion in the air, air pollution control.

EE4017: SENSING AND INSTRUMENTATION

10 credits

Level 4

First Sub Session

The course introduces sensing and instrumentation for various engineering applications. Major part of the course will consider case studies of sensing and instrumentation for various engineering applications and is suitable for all engineering and non-engineering students to learn about sensing and instrumentation.

EE40FE: ELECTRICAL MACHINES AND DRIVES

10 credits

Level 4

First Sub Session

This course examines the performance and control of electrical machines and drives. Transient performance of various electrical machines (induction, synchronous and DC) is discussed using two-axis-machine theory. Steady state performance is also considered. Simulation techniques are used as appropriate in studying both transient and steady state performance of the electrical machines and drives. Medium and high-performance AC drives are considered, including V/f and vector control drives. Modern AC machine control in rotating DQ co-ordinate frame is studied in some detail. DC machine drives (thyristor-controlled and transistor-controlled drives) are discussed and analysed.

EE40GA: COMPUTER AND SOFTWARE ENGINEERING

10 credits

Level 4

First Sub Session

Course studies the interplay between computer architecture and software design, with the aim to devise efficient systems for a broad range of applications. Processor architecture features (pipeline and cache) are discussed in parallel with the software techniques (for high-level programming or compilation) required to fully exploit the potential of modern hardware.

Hands-on activities include design and execution of small software projects. Alternative software implementations of a target algorithm are compared to understand differences in performance (e.g. execution speed) resulting from the different interactions with the hardware architecture. This allows students to test and deepen their understanding of the subject.

EE4546: COMMUNICATIONS ENGINEERING 2

15 credits

Level 4

Second Sub Session

This course explores the techniques for packet data communication using Internet technologies.  It starts by understanding Ethernet local network standards and how this developed from a cable bus to a switched high-speed network.  It then proceeds to describe the operation of the network and transport layers, using examples from Internet Engineering to explain how a packet switched network can provide services that can be used by applications.  The course is accessible to students of computer science and electronic engineering.

EG4011: ENGINEERING PROJECT ABROAD (BENG)

60 credits

Level 4

Second Sub Session

The course is designed to provide the student with the opportunity to carry out a project in an approved European institution by pursuing a substantial and realistic exercise in the practice of engineering at or near a professional level, and to further enhance the student's critical and communication skills.

EG4013: MENG INDIVIDUAL PROJECT

45 credits

Level 4

Full Year

To provide the student with the opportunity of pursuing a substantial and realistic research project in the practice of engineering at or near a professional level, and to further enhance the student's critical and communication skills. The project will usually be carried out at the University of Aberdeen but may be carried out at industry or other research location.

EG4014: BENG INDIVIDUAL PROJECT

30 credits

Level 4

Full Year

To provide the student with the opportunity of pursuing a substantial and realistic exercise in the practice of engineering at or near a professional level, and to further enhance the student's critical and communication skills. The project will usually be carried out at the University of Aberdeen but may be carried out at industry or other research location.

EG4513: INDIVIDUAL PROJECT ABROAD (MENG)

60 credits

Level 4

Second Sub Session

The course is designed to provide the student with the opportunity to carry out a project in an approved European institution by pursuing a substantial and realistic exercise in the practice of engineering at or near a professional level, and to further enhance the student's critical and communication skills.

EG4578: GROUP DESIGN PROJECT (BENG)

15 credits

Level 4

Second Sub Session

This course is a concentrated design and reporting exercise which requires application of project management and team liaison skills in addition to technical design ability. Specific exercises will include interdisciplinary aspects and will relate to design requirements arising from the professional activities of the School of Engineering or its industrial contacts. Written and oral presentations form part of the course.

EM40JJ: FLUID DYNAMICS

10 credits

Level 4

First Sub Session

The course develops incompressible and compressible flow topics of broad interest to mechanical engineers.  It demonstrates the link between well-developed theoretical studies and their practical application in offshore technology, aeronautics, engine design and fluid machinery.  The course begins with water wave theory with particular application to coastal and offshore engineering.  This is followed by consideration of boundary layer development over a flat plate and curved surfaces, leading to boundary layer separation and forces on immersed bodies.  These topics are also part of the EA40JF Civil Engineering Hydraulics course.  The second part of the course concentrates on compressible flow.  Using the fundamental conservation equations, the characteristics of converging-diverging nozzles and accelerating supersonic flows are examined.  Plane and oblique shock waves, Prandt-Meyer flow and Navier-Stokes equations are then introduced.  The course concludes with a discussion of the behaviour of transonic aerofoils, and the design of supersonic engine inlets.

EM40JM: DYNAMICS 2

10 credits

Level 4

First Sub Session

The course is aimed principally at students interested in mechanical engineering.  It aims to equip students with the analytical and problem-solving skills required to calculate the vibration response of nonlinear systems and engineering components like rods, tensioned cables and beams.  The course includes a mixture of analytical and numerical methods (Matlab) for the solution of these problems.  It also includes an alternative method for generating equations of motions and an overview of instability in dynamic systems with the Tacoma Narrows Bridge used as an example.

EM40JN: HEAT AND MOMENTUM TRANSFER

10 credits

Level 4

First Sub Session

The course focuses on applied momentum and heat transport in engineering problems.  It demonstrates how fundamental design equations can be derived for a wide range of real engineering problems (e.g. nuclear fuel rods, radiation shielding, electrical heaters etc).  The course makes it clear that engineering is the art of applying mathematics to the real world and develops the tools required to tackle a wide range of engineering challenges.

The analytical results of transport phenomena are demonstrated in simple systems before discussing more complex systems, such as boiling and condensation, which require the use of semi-empirical correlations to solve.

EM4529: NONLINEAR MECHANICS

15 credits

Level 4

Second Sub Session

This course provides students with the opportunity to familiarise themselves with the concept of nonlinearity and nonlinear behaviour of engineering systems, structures and materials. In particular, fundamental principles of analytical and computational methods used in nonlinear mechanics are examined, simple nonlinear engineering systems and nonlinear fluid flows (e.g., Newtonian and non-Newtonian flows for various Reynolds numbers) are modelled and analysed using Computational Fluid Dynamics package and Finite Elements software.

EP4015: GEOMECHANICS

10 credits

Level 4

First Sub Session

This course provides students with an understanding of advanced concepts of geomechanics and their application to safe, environmentally friendly and efficient drilling for, and production of, hydrocarbon fluids.  The course has no formal pre-requisites, but is intended for students on the Honours Petroleum Engineering Degree Programme and students will require a strong Engineering, or Physics background (to Level 3), and a good grasp of Engineering Mathematics at Level 3 (or equivalent).

EP4018: PETROLEUM PRODUCTION ENGINEERING & TECHNOLOGY

10 credits

Level 4

First Sub Session

This course provides detailed understanding of the methodologies and relevant engineering science and technology for efficient and safe production of oil and gas.

EP4019: RESERVOIR ENGINEERING II: PERFORMANCE

10 credits

Level 4

First Sub Session

This course provides students with understanding of analytical methods that can be used to assess different improved hydrocarbon recovery methods and identify the principal mechanisms controlling the performance of producing oil and gas reservoirs.

EP4531: FIELD DEVELOPMENT AND PETROLEUM ECONOMICS

15 credits

Level 4

Second Sub Session

This course provides a detailed overview of oil and gas field development from discovery to abandonment with particular focus on the decisions made prior to first production. The roles of uncertainties, economics considerations, safety and environmental impact on the design choices are explored.

ES4071: ENGINEERING PROJECT (NON-GRADUATING)

15 credits

Level 4

Full Year

ES4074: ENGINEERING PROJECT (NON-GRADUATING)

60 credits

Level 4

Full Year

EX4016: BIOCHEMICAL ENGINEERING

10 credits

Level 4

First Sub Session

This course introduces the fundamentals of microbiology and biochemistry, which are necessary for understanding and designing biotechnological processes.  The kinetics of enzymatic reactions and of microbial growth is presented. Focus is given to mass balances for enzymatic reactions and for microbial fermentations in different types of reactors: batch, continuous, fed-batch.  The mass and heat transfer theory developed as part of other courses is applied to biochemical process, with focus on substrate, oxygen and heat transfer.  The design and scale-up of biochemical processes is presented. Some typical biochemical processes are described. 

EX402A: PROCESS SAFETY

10 credits

Level 4

First Sub Session

To build on the introduction to safety provided in previous years and move towards developing a transcendence of knowledge regarding how the core process engineering fundamentals such as material and energy balancing, thermodynamics, heat transfer, mass transfer, fluid flow and reaction engineering underpin process safety from a systems perspective.

EX40HC: PROCESS CONTROL

10 credits

Level 4

First Sub Session

This course focuses on the fundamental principles of control theory and the practice of automatic process control. The basic concepts involved in process control are then introduced, including the elements of control systems, feedback/forward control, block diagrams, and transfer functions. The mathematical techniques required for the analysis of process control are covered, focussing on Laplace Transform analysis. Development to more general situations is made through the study of second order systems and the application of compensation including PID control. The control theory developed is applied to a range of chemical engineering problems using simulation tools.

EX4530: SEPARATION PROCESSES 2

15 credits

Level 4

Second Sub Session

Separation processes are essential to many industries including pharmaceutical and chemical industries, e.g. once the drug molecules are synthesised in a reactor they need to be separated in pure form from other by-products before they can be used.  This course adds breadth to students' curriculum in the core area of separation processes. Familiarises students with particulate solids and characterisation. Further, provides a broad knowledge and understanding of physical separation processes including filtration, sedimentation, centrifugation. By the end students should have a knowledge and understanding of an ability to analyse design a wide variety of physical separation unit operations

EA50JG: OFFSHORE STRUCTURAL DESIGN

15 credits

Level 5

First Sub Session

This course follows on from the Level 3 Design of Structural Elements course and the Level 4 Advanced Structural Design course, extending the earlier concepts into areas relevant to Offshore Structural Design. The course aim is to introduce the student to some specialised fields of conceptual structural engineering design in an offshore context, and to develop confidence in these areas.  The course divides into current main topics of offshore structures and involves hand calculations with the aid of spreadsheets and advanced computational modelling for accurate loading, analysis and design.

EE501T: ADVANCED CONTROL ENGINEERING

15 credits

Level 5

First Sub Session

This is the second course in control engineering which looks at the state-space representation of systems as well as state-space based control design techniques.  The course also introduces basic concepts in System Identification and Nonlinear Control.  Traditional continuous-time as well as sampled-data (digital) systems are covered.


EE5046: OPTICAL SYSTEMS AND SENSING

15 credits

Level 5

First Sub Session

In recent years optical systems have become the centrepiece of many applications in science, engineering and commerce; ranging from optical communications to fibre sensors, holography to 3DTV, spectroscopy of materials to laser welding and cutting, and from precision measurement to laser surgery, to name but a few. The course offers students an overview of the concepts of modern optics, optical systems and sensing applications. A major part involves an introduction to lasers, their operation and incorporation into systems design. A case study approach is adopted to describe a range of sensing and system applications in industry, science and commerce.

EG501P: NON CONVENTIONAL HYDROCARBON ENGINEERING

15 credits

Level 5

First Sub Session

This course examines various natural resource forms which are source of hydrocarbons but its extraction poses an engineering challenge. It analyses the utilisation coal in the form of methane production from its seams and underground coal gasification, hydrocarbon production from shale, oil sands and methane hydrates.  This course encompasses a wider approach from the fundamentals of hydrocarbon placement, retention and transport phenomena in porous media to environmental impact assessment of extraction activities. Resource estimation and reservoir engineering aspects specific to each of the aforementioned resources will be discussed. Case studies of geological basins with successful unconventional hydrocarbon recovery are analysed.

 

EG501S: NUMERICAL SIMULATION OF WAVES

15 credits

Level 5

First Sub Session

Wave equations describe transient phenomena commonly encountered in all areas of engineering. This course covers: (i) elastic waves, such as response of offshore structures to wind or wave loading, earthquakes; (ii) acoustic waves such as water hammer in pipelines, micro-pressure waves in railway tunnels; (iii) electromagnetic waves, such as signals in transmission lines, transient states in DC cables. These phenomena in real world engineering applications are simulated using several numerical methods. Students develop their own simulation codes using Matlab or any other programming language, and run a series of simulations for the problem of their choice.

EG501V: COMPUTATIONAL FLUID DYNAMICS

15 credits

Level 5

First Sub Session

The course aims to provide understanding of main principles and techniques underpinning computational fluid dynamics (CFD) combining numerical methods with practical experience using appropriate software. The course develops a foundation for understanding, developing and analysing successful simulations of fluid flows applicable to a broad range of applications.

EG501W: THE ENGINEER IN SOCIETY

15 credits

Level 5

First Sub Session

Students will examine the societal grand challenges of water, food, medicine and energy (electricity and heat) to thread together the themes of environment, sustainability and ethics.

The course also aims to provide graduates with a versatile framework for evaluating and developing business models which should prove invaluable for both potential entrepreneurs and future senior executives.

EG5099: UPSTREAM OIL AND GAS PROCESSING

15 credits

Level 5

First Sub Session

The aim of the course is to give students a theoretical and practical understanding of the main technologies and unit operations involved in upstream oil and gas processing. The key aspects of process safety are also covered to provide the basis for developing safe and operable systems.

EG50T9: STRUCTURAL VIBRATIONS

15 credits

Level 5

First Sub Session

The need for understanding dynamics in modern structural engineering arises from the fact that structures are often subjected to dynamic loads such as waves, wind, earthquake, blast and impacts. The structural engineer must therefore be able to understand and quantify dynamic loads and their effects. This course reviews the fundamentals of structural dynamics and explains more advanced concepts and methods (including analytical and numerical), as well as their applications to practical design and analysis problems. The theoretical concepts are illustrated by worked examples and numerous tutorial problems and assignments will enable students to gain confidence in their use.

EG551T: MATHEMATICAL OPTIMISATION

15 credits

Level 5

Second Sub Session

Ever wondered how Excel is able to draw an optimal line through a set of points?  This course looks at how typical engineering problems that cannot be described mathematically (or are difficult to do so) can be solved so that the optimal solution is found.  The course contains a range of examples to show how the techniques are applied to real world problems in different engineering disciplines.  The course will show how to develop computational algorithms from scratch, with a fundamental understanding of how the algorithms function, both mathematically and then in real time on a computer.

EG5565: MENG GROUP DESIGN

30 credits

Level 5

Second Sub Session

Real-life contemporary engineering projects and challenges invariably require inputs from, and collaboration amongst, multiple disciplines. Furthermore, legal and economic aspects, as well as safety, team work and project management must also be successfully navigated through. This course enables students to immerse themselves in a realistic, multidisciplinary, multifaceted and complex team design project that will draw on their previous specialist learning and also enable gaining and practicing new skills of direct relevance to their professional career.

EM501Q: ADVANCED COMPOSITE MATERIALS

15 credits

Level 5

First Sub Session

Advanced materials underpin many industry sectors and are viewed as one of the key enabling technologies that can help address environmental, economic and social challenges the society is facing. Lightweight materials such as composites applied to vehicles, structures and devices can help reduce energy consumption and emissions, and increase energy efficiency. The aim of this course is introduce students to the mechanical behaviour of composite materials and the design of structures made of composites.

EX501U: AIR AND WATER POLLUTION CONTROL

15 credits

Level 5

First Sub Session

This course introduces the water cycle and the need for wastewater treatment. Biological wastewater treatment is covered in detail with focus on: activated sludge process for carbon and nitrogen removal and anaerobic digestion. Air pollution control is also covered in detail.  The course focuses on process design based on mass balance, heat balances and kinetics. 

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