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Geotechnical Engineering with Structural Engineering
Master of Engineering
Course Details
Course Code | SG_EGTEC_M09 |
---|---|
Level | 9 |
Duration | 1 Year |
Credits | 90 |
Method of Delivery | On-campus |
Campus Locations | Sligo |
Mode of Delivery | Full Time |
Course Overview
The MEng in Geotechnical Engineering with Structural Engineering and the MEng in Structural Engineering with Geotechnical Engineering are one-calendar year full-time postgraduate programmes for Honours/Level 8 degree qualified professional and graduate Civil Engineers who require up-skilling and higher education in the areas of Geotechnical and Structural Engineering. The programmes are also attractive to experienced Civil Engineers who are seeking to move from a different area of expertise into the Geotechnical and /or Structural Engineering domains.
The MEng in Geotechnical Engineering with Structural Engineering is for students who would like to conduct their research thesis in Geotechnical Engineering and the MEng in Structural Engineering with Geotechnical Engineering for students wishing to conduct their research thesis in Structural Engineering. The taught modules on both programmes are the same.
Graduates of these programmes can work as design or site engineers in the areas of Geotechnical / Structural Engineering at a level of responsibility appropriate to the increasingly complex and technical roles currently required by industry.
The programme has two primary aims:
To provide upskilling to existing civil engineers working or intending to work in the Geotechnical / Structural Engineering domains,
To provide a means for graduate engineers to meet the educational requirement for Chartered Engineer membership of Engineers Ireland, while at the same time developing advanced skills in Geotechnical and Structural Engineering. This is particularly relevant to Level 8 Civil Engineering graduates already in employment who wish to become Chartered Engineers.
Engineers Ireland will only accredit programmes once the first group of students has completed the programme. This is a new programme and IT Sligo will be seeking accreditation for this programme immediately after the first class has graduated in 2022. Engineers Ireland is a signatory to the Washington Accord, thus facilitating mutual recognition of accredited programmes among signatory countries.
The programme is delivered full-time over one calendar year (September – September).
Semester one of both programmes consists of six 5 ECTS taught modules, delivered between September and December. The taught modules examine key aspects of Geotechnical and Structural Engineering. A particular focus of the taught modules is the design of Geotechnical and Structural Engineering assets using numerical and analytical methods, combined with detailed consideration of soil – structure interaction. Click on the Course Format tab to review details of the modules delivered in semester one.Semester two, which runs from January to September, consists of a 60 ECTS research dissertation which is designed to develop a real and tangible research project, relevant to academic requirements, the students career aspirations and/or their employers needs. Students will be able to propose their own project areas, subject to agreement with their supervisor. Industry-related projects are encouraged, again, subject to agreement with their supervisor.
Examples of project thesis in Geotechnical Engineering:
Numerical analysis of vibrations from sheet piling.
A study on the use of geosynthetic reinforcement in integral bridge construction to reduce the impact of cyclic induced deformations.
Examples of project thesis in Structural Engineering:
An investigation into the impact of a concrete core on the ability of a modular steel building to resist progressive collapse.
A study of the transverse behaviour of masonry arch bridges through numerical modelling.
This a sister programme to the MEng in Structural Engineering with Geotechnical Engineering. Semester one is common to both programmes. In the MEng in Geotechnical with Structural Engineering the research thesis completed in semester two is primarily focused on Geotechnical Engineering, whereas the research thesis on the MEng in Structural Engineering with Geotechnical Engineering is primarily focused on Structural Engineering.
OTHER PROGRAMME OPTIONS IN GEOTECHNICAL & STRUCTURAL ENGINEERING
The MEng can also be undertaken online part-time over two-three academic years: MEng in Geotechnical/Structural Engineering Joint Programme.
The online part-time Level 9 Certificate in Geotechnical & Structural Engineering is a one academic year (September – May) programme consisting of the taught modules (Stage one) from the MEng. Graduates from the Certificate are eligible to progress to the thesis component of the MEng.
Course Details
Year 1
Semester | Module Details | Credits | Mandatory / Elective |
---|---|---|---|
1 |
Geotechnical Engineering IThe module examines aspects of geotechnical engineering including: Site investigations, fill materials and compaction, asset management strategies, overall stability of geotechnical structures, embankments on poor ground, temporary works and selection of appropriate geotechnical parameters for use in design. Learning Outcomes 1. Create a specification for, and evaluate the findings of, a site investigation. 2. Construct a ground model and determine suitable design soil parameters based on the analysis and evaluation of site investigation data. 3. Appraise the suitability of materials and follow good construction practice in earthworks, while recognising the physical constraints on site. 4. Identify and propose solutions for potential geotechnical engineering issues associated with infrastructure assets. 5. Analyse and design embankments on problematic soils and slopes associated with earthworks. |
05 | Mandatory |
1 |
Soil – Structure InteractionGeotechnical and structural engineers approach soil – structure interaction differently. Geotechnical engineers focus on the soil, while structural engineers focus on the structural elements. In reality, it is necessary to create models that take into account the real behaviour of both the soil and the structure. This module examines numerical modelling and soil – structure interaction, ranging from the simple to the complex. At the end of this module geotechnical and structural engineers should have a better understanding of soil – structure interaction and be better able to apply numerical techniques to soil – structure problems. Learning Outcomes 1. Select an appropriatesoil – structure interaction model for a given application 2. Synthesis data from testing and determine appropriateparameters for use in soil – structure interaction models 3. Develop solutions to soil – structure interaction applications 4. Validate solutions obtained from commercially available software packages 5. Compare and contrast discrete spring and continuum models for soil – structure interaction applications |
05 | Mandatory |
1 |
Design of Building StructuresThe module develops the learner's knowledge in a number of key topics in the field of advanced building structures design and engineering including the conceptual and preliminary design of buildings, and detailed design methodologies. The application of advanced structural analysis using computer software packages and appropriate hand calculation validation procedures will be incorporated into the design calculations. Learning Outcomes 1. Analyse and design structural elements and buildings, including considerationof buckling and second-order effects. 2. Analyse and assess the stability of structural buildings and frames, including the effects of structural dynamics. 3. Developand validatestructural models, including the validationof solutions obtained from commercially available software packages 4. Interpret the ill-defined requirements of a client’s proposal, and generate and evaluate structural solutions for theparticular ill defined problem 5. Effectively collaborate and communicate, including using BIM protocols where applicable, with others in the selectionand justification ofa particular structural scheme. |
05 | Mandatory |
1 |
Geotechnical Engineering IIGeotechnical Engineering II focuses on the analysis and design of geotechnical engineering related structures and the preparation of Geotechnical Engineering related design documentation. Learning Outcomes 1. Develop a geotechnical design report, incorporatingBIM protocols where appropriate,for the analysis and design of Geotechnical Engineering related structures. 2. Analyse and design gravity and cantilever soil retaining systems 3. Evaluate foundation systems, with particular reference to bridge structures 4. Develop solutions for soil structure interaction problems associated with bridge abutments 5. Evaluate axially loaded piles using insitu testing and by calculation. |
05 | Mandatory |
1 |
Design of Bridge StructuresThe module develops the learner's knowledge in a number of key topics in the field of bridge design and engineering including the conceptual and preliminary design of bridges, bridge aesthetics, bridge analysis, and detailed design methodologies. Learning Outcomes 1. Develop appropriate bridge solutions given planning, site, functional and aesthetic constraints. 3. Evaluate and implement appropriate structural analysis tools for the modelling of bridges. 4. Evaluate and develop appropriate durability and protection details for bridge structures. |
05 | Mandatory |
1 |
Research MethodsThis module will provide the learner with the necessary research skills to undertake a level 9 research project. The learner will: Study the different paradigms and methodologies of the research study. Study the different methods of data collection and data analysis associated with the chosen approach. Learn how to analyse research publications. Disseminate research in terms of reports and journal publications. Effectively communicate their research outcomes. Learning Outcomes 1. Critically evaluate existing knowledge and its application to the student’s chosen research area. 2. Develop a critical awareness of current problems and/or new insights, generally informed by the forefront of research in their chosen area. 3. Analyse paradigms of research enquiry and explicate where chosen paradigms fit within their research area of interest. 4. Expertly identify, discuss and propose a range of data collection and analysis tools and techniques relevant to their study. 5. Demonstrate a critical understanding of appropriate project management skills to ensure successful completion of level 9 research project. 6. Communicate effectively their research outcomes. |
05 | Mandatory |
2 |
MEng Research Thesis, Mode 3 Full-timeIn this module the learner will undertake an individual research thesis in a core area of the programme. The learner is required to demonstrate their ability in advanced research, designing and executing experiments/ numerical analysis/ analytical analysis, concept development and reporting. The learner will disseminate the research work and outcomes through an oral presentation, poster presentation, interview and submission of a dissertation. Learning Outcomes 1. Develop a research methodology and project plan for a research project. |
60 | Mandatory |
Progression
Graduates of this programme may apply for admission to PhD programmes at ATU Sligo or another Higher Education Institute.
Download a prospectus
Entry Requirements
The minimum entry requirements are a second class honours (2.2) award in a professionally accredited Honours degree (Level 8) in Civil or Structural Engineering. Other suitable applicants may be accepted on completion of a Recognition of Prior Learning (RPL) process.
Professional accredited refers to accreditation of an honours degree by a recognised national engineering accreditation body. Ideally this would be a signatory organization to the Washington Accord. Applications from non-Washington Accord signatory countries would be reviewed on a case-by-case basis.
Fees
Total Fees EU: €9000
Total Fees Non-EU: €14000
Subject to approval by ATU Governing Body (February 2025).
Further information on feesCareers
Graduates of the programme work as design and site engineers in the area of Geotechnical / Structural Engineering at a level of responsibility appropriate to the increasingly complex and technical roles currently required by industry.
Further Information
Contact Information
Admissions Office
T: 353 (0) 71 915 5379
E: admissions@itsligo.ie