University of Aberdeen
Master of Engineering in Civil and Environmental Engineering
The Master of Engineering in Civil and Environmental Engineering in Engineering and Technology is offered by University of Aberdeen.
Program Length: 5 YEARS.
Master of Engineering in Civil and Environmental Engineering offered by the University of Aberdeen
Civil and Environmental Engineering is a hugely relevant degree for today. The environment is a major consideration for local, national and international companies and governments, but never more is this true than when it comes to engineering projects of all sizes. Greater consideration has to be given to a range of environmental factors and this degree will go some way to making students aware of them.This Honours degree programme follows a similar structure to the straight MEng Civil Engineering degree. The major difference is the compulsory requirement to study the Environmental Engineering course in year 4. This particular course deals with various aspects related to:
- surface water: sources of water pollution and their impact on aqueous environment and public health, water quality and supply, wastewater treatment;
- soil and groundwater: groundwater flow, groundwater contamination and pollution, subsurface contaminants transport mechanisms, sustainable land-groundwater management;
- solid waste: sources of solid waste, characterisation and treatment of solid waste, solid waste management;
- air pollution and control: air pollutants and sources, air pollution meteorology, pollutant dispersion in the air, air pollution control.
Students will develop a greater understanding of the environmental challenges and considerations required as part of major civil engineering projects, how to manage these challenges and implement effective solutions.
What you'll study
The first two years cover general Engineering, with elements of Chemical, Mechanical, Petroleum and Electrical/Electronics, as well as Civil. In the later years you specialise, following your chosen discipline in greater depth. You do not need to finalise your choice of specialisation until you begin third year.It is possible to move between MEng and BEng and this can be accomplished at any point until the second half session of fourth year. Successful BEng candidates will be offered the chance to change to the MEng and there is no quota, meaning that if grade requirements are met that transfer is guaranteed.
Year 1Compulsory CoursesGetting Started at the University of Aberdeen (PD1002)Principles of Electronics (EG1008)CAD and Communication in Engineering Practice (EG1010)Fundamentals of Engineering Materials (EG1012)Engineering Mathematics 1 (EG1504)Fundamental Engineering Mechanics (EG1510)
Optional CoursesSelect a further 45 credit points from courses of choice
Year 2Compulsory CoursesFluid Mechanics & Thermodynamics (EG2004)Process Engineering (EG2011)Engineering Mathematics 2 (EG2012)Solids and Structures (EA2502)Design & Computing in Engineering Practice (EG2501)Electrical and Mechanical Systems (EG2503)
Optional CoursesSelect a further 30 credit points from courses of choice
Year 3Compulsory CoursesGeotechnics 1 (EA3027)Engineering Analysis and Methods 1 (EG3007)Stress Analysis A (EM3015)Fluid Mechanics (EM3019)Mechanics of Structures (EA3518)Design of Structural Elements (EA3519)Structural Dynamics (EA3538)Civil Engineering Design and Surveying (EA3720)Project and Safety Management (EG3599)
Year 4Compulsory CoursesMEng Individual Project (EG4013)Geotechnics 2 (EA40JE)Civil Engineering Hydraulics (EA40JF)Advanced Structural Design (EA40JG)Environmental Engineering (EA4527)
Optional CoursesSelect a further 30 further credit points from courses of choice
Year 5Compulsory CoursesNumerical Simulation of Waves (EG501S)The Engineer in Society (EG501W)Structural Vibrations (EG50T9)MEng Group Design (EG5565)Remediation Technology (SS5500)
Optional CoursesSelect one of the following:Offshore Structural Design (EG50JG)Computational Fluid Dynamics (EG501V)
Plus, select one of the following:Marine and Wind Energy (EG552U)Mathematical Optimisation (EG551T)Pipelines and Soil Mechanics (EG55F2)Riser Systems and Hydrodynamics (EG55F9)Engineering Risk and Reliability Analysis (EG55P6)Offshore Structural Design (EA50JG)Computational Fluid Dynamics (EG501V)Mathematical Optimisation (EG551T)Pipelines and Soil Mechanics (EG55F2)Engineering Risk and Reliability Analysis (EG55P6)Marine and Wind Energy (EG552U)Riser Systems and Hydrodynamics (EG55F9)