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Civil Engineering by Apprenticeship
Bachelor of Engineering
Course Details
Course Code | SG_ECIVA_B07 |
---|---|
Level | 7 |
Duration | 3 Years |
Credits | 180 |
Method of Delivery | Blended |
Campus Locations |
Sligo
Galway City – Dublin Road |
Mode of Delivery | Full Time |
Course Overview
With a minimum of 3,000 new civil engineers needed to ensure the successful delivery of Project Ireland 2040, the National Development Plan, the Climate Action Plan 2019, Housing for All & Active Travel investment, the Civil Engineering Consortium was formed to develop formal qualifications in this space by way of apprenticeship and thus increase the uptake of Civil Engineering as a profession.
Launched in 2023, this exciting programme creates an alternative career path to the Civil Engineering profession in Ireland. The civil engineering apprenticeship programme is transformational, and over time, will bridge the shortfall in supply of engineers in Ireland, providing those skills critical to the delivery of Ireland’s bold infrastructural plans.
On successful completion of this three-year apprenticeship, you will hold an NFQ Level 7 BEng in Civil Engineering.
Apprentices attend online lectures one day per week (fixed day each semester) and an additional day per month on campus (for labs and workshops). The other three/four days per week will see the apprentices in the workplace learning ATU ‘on the job’. Apprentices will get hands-on experience of the modules they are studying while in their workplace, giving them a deeper understanding of what they are doing and why they are doing it.
There are 3 semesters each year (Semester 1: September – December. Semester 2: January – May. Semester 3: June – August). During semesters 1 & 2 apprentices attend lectures and workshops as above. Apprentices complete their work-based learning and on-the-job training during semester 3. Further information for both prospective apprentices and employers can be obtained by contacting civilapprenticeships.sligo@atu.ie
Further information can be found at Generation Apprenticeship
The recorded briefing here gives a valuable opportunity to hear from our existing apprentices and gain an insight into our programmes and take the next step towards a successful career.
Course Details
Year 1
Semester | Module Details | Credits | Mandatory / Elective |
---|---|---|---|
Year |
Introduction to Civil Engineering & Health and Safety (A)This Module aims to: Excite and motivate new engineering students about their chosen field of study. Demonstrate that problem solving can be fun, educational and enriching. Instil an eagerness for independent and reflective learning. Introduce the learner to the techniques used in the control and construction of civil engineering projects. Review Safety, risk assessment and management techniques. Learning Outcomes 1. Demonstrate that problem solving is fun, educational and enriching 2. Contribute as a positive, cooperative and complementary team member in the planning andimplementationof projects and problem solving exercises. 3. Identify the various types of contract and methods of measurement used in the Civil Engineering industry 4. Identify and describe the duties of the various parties under current Safety, Health and Welfare at Work Legislation. 5. Reflect on their learning practice and process over theyear. |
05 | Mandatory |
1 |
Surveying 101 (A)The learner will gain an understanding of how to use surveying equipment to carry out topographical surveys and set out works. The learner will also know how to produce site survey plans and sectional drawings for construction projects. Also covered are surveying related calculations such as levels and gradients, areas and volumes. Learning Outcomes 1. Carry out fundamental surveying calculations, read and scale off plans, calculate gradients, convert areas, apply corrections. 2. Operate an automaticlevel tocarry out surveys and set out levels, calculate levels and gradients, recognise and mitigate against sources of error and apply corrections using standardised procedures. 3. Use Total Stations & GPS to carry out a topographicalsurvey, import to 3D BIM compatible softwareand produce the site plan, and set out works on site 4. Read and produce longitudinal and cross sectional drawings for works and services 5. Calculate areas and volumes of site/construction project earthworks. |
05 | Mandatory |
1 |
Engineering Mechanics & Physics 101(A)The student will learn how to analyse simple systems of forces, graphically and analytically and perform simple calculations involving stress and strain and determine centres of gravity of various figures. Learning Outcomes 1. Explanation & understanding of the fundamental and derived units in engineering and applying these in engineering problems[Length, mass, time, force, temperature, density, volume] 2. Understanding Newtons Laws of Motion and applying these 3 laws in various engineeringproblems 3. Analyse systems of concurrent, coplanar forces using graphical and analytical methods 4. Compute relevant parameters relating to simple stress and strain 5. Compute centres of gravity for regular and irregular figures using graphical and analytical methods |
05 | Mandatory |
1 |
Mathematics 101(A)This module will provide learners with a solid mathematical foundation relevant to a civil engineer. The module will develop problem-solving skills necessary for an engineer in various areas of engineering. Learners will cover arithmetic, algebra, functions and trigonometry. Learning Outcomes 1. Perform numerical calculations competently with emphasis on accuracy 2. Rearrange and solve algebraic equations, including quadratics 3. Use set notation, identify and plot functions and graphs 4. Solve a system ofthree of more simultaneous linear equations using Gaussian elimination 5. Solve trigonometric equations |
05 | Mandatory |
1 |
Engineering Graphics and Computer Aided Design (A)This module provides students with a broad introduction to 2-dimensional and 3-dimensional computer-aided drafting, design and modelling. The overall aim of this module is to introduce students to the engineering drafting and design process and to provide them with the basic techniques required to produce models and drawings of individual engineering parts using a 3D CAD system. Students will also learn to read and interpret engineering drawings and communicate through technical documentation. Learning Outcomes 1. Read and interpret 2D and 3D drawings, and communicate through drawing documents. 2. Produce orthographic and multiview 2D drawings from 3D models. 3. Demonstrate an understanding of the design process. 4. Apply engineering graphics standards and produce drawings which conform to national and/or international standards. 5. Produce freehand engineering sketches. |
05 | Mandatory |
2 |
Surveying 102(A)In this module the learner will develop previously acquired surveying techniques to a more advanced level. The emphasis is on development of skills in advanced surveying techniques and equipment. Production of site layout drawings. Data will be collected in the field using total stations and GPS instruments, downloaded and processed using BIM compatible 3D software. Instruments will be used for setting out proposed works. Learning Outcomes 1. Operate surveying instruments such as total stations and GPS to carry out accurate surveys and setting out works on site. 2. Use Civil 3D software to create siteplans, sites and plots, sections, carry out grading & volumes analysis, road corridors, pipe networks and profiles and road cross sections. 3. Carry out computations for coordinate calculation, traverse & adjustment, intersecting surfaces, curves. 4. Discuss uses of GIS for construction, infrastructure and BIM projects. 5. Set out construction works on site. 6. Read and produce Mass Haul diagrams for earthworks planning and control oncivil engineering projects. |
05 | Mandatory |
2 |
Engineering Mechanics & Physics 102(A)The student will learn how to analyse two-dimensional framed structures using graphical and analytical means. In addition, the student will learn how to analyse simple beams and draw shear force and bending moment diagrams. Learning Outcomes 1. Calculate reactions for simple statically determinate beams and frames 2. Analyse simple framed structures usinggraphical and analytical methods 3. Analyse simple beams carrying point loads and uniformly distributed loads 4. Draw and dimension shear force and bending moment diagrams for simple beams |
05 | Mandatory |
2 |
Mathematics 102(A)This module will provide learners with an introduction to linear algebra, calculus, statistics and probability relevant to civil engineering. Learning Outcomes 1. Add and subtract vectors and find the scalar multiple of a vector. Calculate the length and unit vector of a vector. 2. Add, subtract and multiply matrices. Find the scalar multiple of a matrix. Become familiar with the Zero and Identity matrix and their properties. Invert 2×2 matrices. Solve a system of linear equations with matrices. 3. Differentiate polynomial, trigonometric, exponential and logarithmic functions. Differentiate using first principles. Differentiate using the product, quotient and chain rules. Calculate the equation of a tangent to a curve. Find the maxima and minima of a function. Calculate rates of change. Calculate velocities and accelerations. 4. Calculate the mean, median, mode, standard deviation, range and variance of data. Plot a cumulative frequency polygon 5. Use the normal distribution to calculate the probability of events |
05 | Mandatory |
2 |
Building Information Modelling (A)This module is intended to develop the learners knowledge and skills in BIM. It covers Building information Management theory (ISO 19650) and Building Information Modelling software for producing deliverables for BIM projects and collaborating with other industry professionals on projects in a BIM environment. The focus is on developing the learners skills in using the software and developing their knowledge of the standard to enable them to assume roles on a BIM project. Learning Outcomes 1. Describe how to implementinformation management using BIM to ISO 19650. 2. Create BIMproject deliverables using 3D modelling software for buildings and civil engineering structures 3. Prepare construction detailing and schedulingfor concrete and steel structures 4. Produce time lined simulations (4D), quantification and clash reports using BIM software. 5. Collaborate on aBIM project and use a Common Data Environment (CDE) |
05 | Mandatory |
Year |
Work Based Learning 1(A)The work-based learning (WBL) module is an integral component of the Civil Engineering Apprenticeship Programmes. The module is designed to provide apprentices with the opportunity to demonstrate their ability to transfer and apply classroom learning to the workplace. The integration of the academic theories with the professional work setting enables the apprentice to gain a wider breadth of application for the academic theories and positions covered in the classroom setting. Individual experiences in the workplace environment will vary from apprentice to apprentice. The workplace learning element of the programme is designed in a flexible manner to ensure that each apprentice is given the opportunity to apply the knowledge, skills and competencies gained in the academic modules into a real-life workplace context. Learning Outcomes 1. Comply with company’s procedures and policies, and describe the company’s guidelines relating to the workplace, customers and the environment. 2. Integrate in the company work place, communicating and contributing as an individual and team member, and describe the company’s organisational structure. 3. Identify and describethe key issues associated with the Civil Engineering Profession 4. Apply theoretical knowledge gained from academic modules to the Civil Engineering Profession 5. Use problem solving techniques to address professional issues in the workplace 6. Demonstrate an ability to reflect on and analyse relevant themes throughout the academic session 7. Communicate complex and multi-faceted issues both in oral and written form |
15 | Mandatory |
Year 2
Semester | Module Details | Credits | Mandatory / Elective |
---|---|---|---|
Year |
Professional Practice in Engineering(A)The aim of this module is to develop the learners knowledge, awareness, skills and competencies in a broad range of areas of professional practice. It is designed to give the learner an appreciation of the importance of inter and intrapersonal communication and to foster engagement with life long learning opportunities. Learning Outcomes 1. Identify why we communicate, be able to recognise a persons ego state, and if necessary be able to use the appropriate conflict resolution technique. 2. Apply EI Code of Ethics to any given situation whilst understanding the underlying ethical principles. 3. Investigate civil engineersplay in deploying innovative, sustainable, and nature-based solutions beyond the traditional engineering practices to overcome global issues and deliver Sustainable Development Goals (SDG’s). 4. Contributeeffectively and professionally in a team environment. 5. Reflect on their learning practice and process over the year. |
05 | Mandatory |
1 |
Civil Engineering Materials(A)The student will learn about the key material properties, behaviour and performance of aggregates, concrete, wood and metals which are important to their successful application in civil engineering works. Learning Outcomes 1. Describe the constituent materials in concrete and evaluate how their properties influence the behaviour and performance of the resulting concrete 2. Specify & perform quality assurance testing on the concrete in the fresh and hardened state. 3. Describe types, production methods, properties and performance of metals and timber 4. Perform as a team member in the execution, compilation and analysis of laboratory experiments 5. Compile and report, in both written and oral form, the results and conclusions of laboratory work |
05 | Mandatory |
1 |
Mathematics 201 (A)This module will allow learners to develop their mathematic skills. In this module they will use differentiation and integration techniques and perform calculations using complex numbers. Learning Outcomes 1. Use the remainder theorem and the factor theorem 2. Find partial fractions 3. Apply differentiation and integration techniques to algebraic, exponential, logarithmic, trigonometric and inverse trigonometric functions 4. Solve optimisation, area and volume problems using calculus 5. Apply De Moivres Theorem to find the powers of complex numbers |
05 | Mandatory |
1 |
Structural Mechanics (A)This module explains how statically determinate beams carries load and outlines the fundamentals of stress analysis for statically determinate structural elements. Learning Outcomes 1. Determine how a statically determinate beam carries load (via shear force and bending moment diagrams) 2. Determine the internal loadings in structural members 3. Calculate section properties 4. Analyse structural cross-sections to determine the stresses resulting from axial load, bending, shear force and torsional loadings 5. Perform laboratory practicals and report findings |
05 | Mandatory |
1 |
Environmental Engineering 201: Water Management and TreatmentThis module provides the learner with theoretical and applied knowledge relating to water management and potable water treatment. The module covers standard water treatment plant processes and also laboratory testing for process design and for determining raw and treated water quality. Learning Outcomes 1. Distinguish between various types of water pollutants anddemonstrate a knowledge of various water management practices used to protect water resources and habitats including the regulatory framework. 2. Describe various unit treatment operations within a water treatment plant. 3. Describe and operate laboratory equipment for evaluating and testing waters for various parameters as defined by relevant directives/regulations/legislation. 4. Discuss and carry out basic design calculationsfortreatment processesas part of awater treatment works. 5. Compile and report on the use of various scientific instruments, monitoring equipment and computer control systems in water treatment plants. |
05 | Mandatory |
2 |
Structural Design 202(A)This module introduces the learner to the design and detailing of simple elements in reinforced concrete. Learning Outcomes 1. Appreciate the process to design reinforced concrete elements in accordance with the relevant design codes 2. Distinguish between ultimate and serviceability limit states 3. Design reinforced concrete simply supported beams and one-way spanning slabs 4. Perform and present design calculations in a clear and logical fashion 5. Prepare reinforcement detail drawings and prepare the associated reinforcement bending schedules |
05 | Mandatory |
2 |
Hydraulics 202(A)The student will be able to define and manipulate the theoretical concepts which underlie hydrostatics and fluid dynamics. Learning Outcomes 1. Define, quantify,manipulate and formulate the concepts which underliebasic fluid properties, pressure, hydrostatic and buoyancy. Apply principles to solving problems involving same. 2. Define, quantify and formulate the concepts of fluid flow using the principles defined in the basic flow equations. Apply principles to solving problems involving same. 3. Introduce concepts of flow measurement and carry out analysis of basic engineering problems. 4. Define, quantify and formulate the concepts of pipe flow. Apply principles to solving problems involving same. 5. Uses standard hydraulic engineering equipment to perform experiments in teams, observe and record data and experimental evidence.Compile and report in a clear concise manner the findings and results of laboratory experiment. |
05 | Mandatory |
2 |
Environmental Engineering 202: Wastewater Management and TreatmentThis module provides the learner with theoretical and applied knowledge relating to the design and operation of the processes associated with municipal and industrial wastewater treatment, namely preliminary, primary, secondary and tertiary treatment. The module includes practical activities such as laboratory experiments, visits to modern wastewater treatment plants and experience with the operation of pilot scale wastewater treatment equipment. Learning Outcomes 1. Describe the basic principles and practices associated with surface water management and the impact they have on wastewater management. 2. Determinethe source, characteristics and quantities of municipal (public) and industrial (private) wastewater for collection and treatment prior to discharge to the environment. 3. Describe the fundamental design ofthe physicalandbiological processes of preliminary, primary, secondary and tertiary treatment of municipal and industrial wastewater. 4. Appraise physical and biological treatment processes for a conventional public wastewater treatment plant to comply withthe requirements of licencing, Irish and EU regulationsand Directives. 5. Optimise the operation, performance, and maintenance of wastewater treatment plants, recognise thecauses of plant malfunction and poor performance, and assess solutions to improve performance. |
05 | Mandatory |
2 |
Soil Mechanics and Engineering Geology (A)This module is an introduction to Soil Mechanics and Geology. During the course of this module the apprentice will learn to describe the formation and origin of rocks and the processes which result in the formation of soil. The apprentice will then learn how these processes influence soil behaviour due to external loading or the flow of fluid through the soil. In this module the apprentice will establish and define the basic principles of the theory of soil mechanics and geology, illustrating their application to practical situations, and upon completion, will be able to identify and apply these basic principles to the geotechnical design process. Learning Outcomes 1. Identify main categories of soil and rock occurring in Ireland and define the engineering properties of soil/rock. 2. Identify and classify soils and rocks and calculate their phase relations and the stresses in soils under various loading conditions 3. Specify the essential features and requirements of a site investigation. 4. Compute coefficients of permeability from standard laboratory tests and compute critical hydraulic gradients. 5. Demonstrate competence in practical work, recording and analysing the results and presenting them in standard report form. |
05 | Mandatory |
Year |
Work Based Learning 2 (A)The work-based learning (WBL) module is an integral component of the Civil Engineering Apprenticeship Programmes. The module is designed to provide apprentices with the opportunity to demonstrate their ability to transfer and apply classroom learning to the workplace. The integration of the academic theories with the professional work setting enables the apprentice to gain a wider breadth of application for the academic theories and positions covered in the classroom setting. Individual experiences in the workplace environment will vary from apprentice to apprentice . The workplace learning element of the programme is designed in a flexible manner to ensure that each apprentice is given the opportunity to apply the knowledge, skills and competencies gained in the academic modules into a real-life workplace context. Learning Outcomes 1. Describe and communicate how the regulatory constraints affect the operations of the company, and how ethical considerations affect their conduct as a technician 2. Select the appropriate tools, methodologies and techniques to solve Civil Engineering problems, and design and implement solutions 3. Communicate findings to stakeholders and management, and work effectively as a team member 4. Apply management skills within their occupation as a technician 5. Analyse, measure performance and continuously improve company processes with innovative technical solutions 6. Demonstrate an ability to reflect on and analyse relevant themes throughout the academic session 7. Apply theoretical knowledge gained from academic modules to the Civil Engineering Profession |
15 | Mandatory |
Year 3
Semester | Module Details | Credits | Mandatory / Elective |
---|---|---|---|
Year |
Civil Engineering Management and Finance(A)This module will provide the apprentice with theory and practice in the planning, coordination and control of Construction and Engineering projects. Learning Outcomes 1. Evaluate appropriate cost planning and cost management techniques for alternative Construction and Engineering Projects. 2. Apply project logic to tasks, estimate durations, use project management software to manage time and cash flow on Construction and Engineering projects. 3. Describe the procedures in European Public Procurement Directives 4. Demonstrate an understanding of the Management concepts that underpin effective Construction and Engineering Project Management. 5. Reflect on their learning practice and process over the year. |
05 | Mandatory |
1 |
Structures 301 (A)This module details elementary theory and techniques used in the analysis of statically determinate and statically indeterminate structural systems for shear, moment and deflection. Stress analysis and fundamental strut instability topics are also covered. This module also details and applies the principles and methods used in the design of structural concrete to EN1992, with reference to sustainability in design. Learning Outcomes 1. Analysecontinuous beamsand other statically indeterminate structures using the moment distribution method, including the calculation ofreactions, shear forces and bending moments. 2. Derive and apply equations for analysing composite beams in bending and beams subjected to unsymmetrical bending. 3. Analyse the buckling of columns and the reactions, shear forces and bending moments in statically determinate frames. 4. Select an appropriate scheme design for a reinforced concrete building, consider sustainability challenges, defend design decisions, and present findings orally and in written form. 5. Design and detail structural elements in reinforced concrete, and communicate the design in an appropriate manner. |
05 | Mandatory |
1 |
Mathematics 301 (A)In this module learners will further develop their mathematical skills through the introduction of ordinary differential equations and Laplace transforms. Learning Outcomes 1. Solve separable andfirst order linear differential equations. 2. Solve firstorder differential equations using Laplace transforms. 3. Solve second order differential equations using Laplace transforms. 4. Solve second order linear differential equations using the complementary function. 5. Solve second order linear differential equations using the particular integral. |
05 | Mandatory |
1 |
Road and Transport Engineering 301 (A)Upon successful completion of this module the learner shall be able to perform and organise transport surveys and assessments, design and evaluate road alignments and cross-sections and junctions based on current safety and design standards, and determine the characteristics of road pavements and drainage systems. They shall be able to design and specify requirements for sustainable mobility, shared spaces and active travel on urban and rural road networks and places to current Irish standards and guidelines and using current computer software. They shall have knowledge of the principles of sustainable transport planning, modelling and demand studies, including the use of public and stakeholder consultation, environmental impact assessment and requirements under current climate action plans and sustainable development goals. Learning Outcomes 1. Describe the roles and responsibilities of Irish roads authorities, the road classification system, and the requirements for themanagement and operation of the public road network, and appraisal of road and transport plans andschemes. 2. Evaluate, analyse and design geometric urban and rural road alignments, road junctions and road crosssectional elements in 3. Describe and specify the material and technical requirements for flexible and rigid highway pavements and road drainage systems. 4. Perform in teams and describe traffic surveys and the collection and analysis of road traffic data, sustainable and active transport facilities,and production of topographic mapping, road alignment andjunction analysis and layout assessment to current standards, and using software packages. 5. Describe, compile and report on the findings of road and transportsurveys, road design evaluation practical work, and transport research project workusing both oral and written communication techniques. |
05 | Mandatory |
1 |
Geotechnical Engineering 301 (A)This module aims to apply basic principles of soil mechanics to the geotechnical design process. Its focus is on the analysis and design of earth-retaining structures, shallow and deep foundations and earthworks. The module is structured so that apprentices can apply this design knowledge to a practical engineering situation. Learning Outcomes 1. Describe mechanisms by which failure occurs in earthretaining structures and analyse cantilever and gravity retaining walls for stability 2. Calculate bearing resistance of shallow foundations underdrained and undrained conditions 3. Calculate the resistance of displacement and replacement piles subject to vertical actions 4. Perform in teams and communicate appropriately and effectively in both oral and written form to facilitate collaborative structural and geotechnical design of structures 5. Prepare geotechnical reports giving due regard to the design assumptions and selection of soil parameters |
05 | Mandatory |
2 |
Structures 302 (A)This module deals with elementary theory and techniques used in the analysis of statically determinate, statically indeterminate structural systems and stress transformation for general sections. This module also details the principles and methods used in the design of structural steelwork to EN1993, with reference to sustainability in design. Learning Outcomes 1. Derive and formulate equations for the analysis of principal stresses and maximum shear stress. 4. Select an appropriate scheme design for astructural steelworkbuilding, consider sustainability challenges, defend design decisions and present findings both orally and in written form. 5. Design and detail structural elements in structural steelwork to EN1993,and communicate the design in an appropriate manner. |
05 | Mandatory |
2 |
Hydraulics 302(A)The student will be able to interpret requirement, carry out analyses of water supply and drainage systems. The student will also be able to define, quantify and formulate the concepts of flow measurement and survey drainage catchments. Learning Outcomes 1. Understand the concepts of open channel flow. Analyse and solve various flow problems. 2. Understand the concept of pipe flow. Analyse and solve various flow problems. 3. Identify and understand the concept of hydraulic structures. Analyse various hydraulic structure designs. 4. Introduction to the concept of Sustainable Drainage Systems (SuDS). Analysis engineering problems relating to same. 5. Compile and report in clear concise manner the findings and results of laboratory experiments and water supply/drainagedesign project.Use standard hydraulic engineering equipment to perform experiments in teams. Observe and record data and experimental evidence. |
05 | Mandatory |
2 |
Environmental Engineering 302: Sustainable EngineeringThis module provides the learner with theoretical and applied knowledge relating to the sources and control of noise and air pollution, sustainable development and construction practices, renewable energy and waste management and the circular economy. Learning Outcomes 1. Identify, analyse and describethe main sources andthe scientific and engineering concepts relating to air and noise pollution and the control of theireffects on the environment and public health 2. Describe and interpret the relevant Irish and EU legislation, regulations, andframework directivespertaining to air and noise pollution and review the implementation of related programmes. 3. Analyse the principles and interpret the application oftechnologies for the production of renewable and sustainable energy for building heating and energy production. 4. Evaluate the principles, scientific concepts and procedures associated with sustainable development and practice, low and passive energy building technology, andgreen building certification. 5. Classify, define and apply the scientific and engineering concepts relating to the generation, collection, recovery and treatmentof solid waste materials from households, commercial and industrial sources, and circular economy concepts. |
05 | Mandatory |
2 |
Geotechnical Engineering 302 (A)The aim of this module are to develop the apprentices ability to use applied mathematical solutions to solve geotechnical engineering problems. Upon completion of the module the apprentice will recognise structured methodologies used in the solution of geotechnical engineering problems and will be able to apply these to optimise the engineering characteristics of existing soils for use in engineering works. Learning Outcomes 1. Explain consolidation and settlement theories and evaluate the effect on various soil types 2. Ascertain the stability of a slope using different analysis methods 3. Assesscontaminated and marginal land; contaminates and remediation. 4. Demonstrate a command of a range of geotechnical and analytical skills by producing laboratoryand project reports. |
05 | Mandatory |
Year |
Work Based Learning 3 (A)The work-based learning (WBL) module is an integral component of the Civil Engineering Apprenticeship Programmes. The module is designed to provide apprentices with the opportunity to demonstrate their ability to transfer and apply classroom learning to the workplace. The integration of the academic theories with the professional work setting enables the apprentice to gain a wider breadth of application for the academic theories and positions covered in the classroom setting. Individual experiences in the workplace environment will vary from apprentice to apprentice . The workplace learning element of the programme is designed in a flexible manner to ensure that each apprentice is given the opportunity to apply the knowledge, skills and competencies gained in the academic modules into a real-life workplace context. Learning Outcomes 1. Lead technical projects and design and implement technical solutions under quality systems and procedures 2. Participate in process planning according to company quality policies and system 3. Compile and report on a Student selected Civil Engineering project in relation to the contract details, claims, costs and time of completion of the project 4. Select and Evaluatethe processes of Project Management and their applications in a Civil Engineering Context. 5. Research the underlying science and engineering behind a particular aspect of civil engineering 6. Design and execute an experimental study, case study, design study, computer program analysis or other analysis method to investigate a civil engineering problem 7. Compile and report in a clear and concise manner a review of relevant literature, the findings and results of laboratory work, case studies, surveys and design studies 8. Communicate effectively, in a variety of formats and using appropriate technology, the findings and results of their research |
15 | Mandatory |
Recommended Study Hours per week
Examination and Assessment
On-Campus Attendance Requirement
Progression
Atlantic Technological University is currently developing a Level 8 Honours degree and Level 9 Master’s in Civil Engineering by way of apprenticeship. This will complete a suite of civil engineering programmes by way of apprenticeship providing progression pathways from Level 6 to Level 9.
You may also use the qualification to progress within the sector and/or to higher education programmes.
It is envisaged that advanced entry onto the Level 8 Apprenticeship programme will be available to candidates who hold a Level 7 in Civil Engineering.
For further information and to register your interest, please email civilapprenticeships.sligo@atu.ie
Download a prospectus
Entry Requirements
To become an apprentice in Ireland you must be hired by an employer. Apprenticeship employers are formally approved by SOLAS in advance of employing apprentices. Apprentices will get a formal contract of employment as part of their apprenticeship.
To undertake this apprenticeship you must:
Be at least 18 years of age
Have a QQI Level 5 (or equivalent).
Have a Pass Grade in Maths at Level 5 (or Equivalent).
Non-Standard Entry
In the case where an applicant does not meet the educational requirements specified above, acceptance on a case by case basis will be based on an interview process to determine previous experiential learning, the student’s suitability to the subject area and their commitment to achieving the minimum intended programme learning outcomes.
To find an apprenticeship, you can search for apprenticeship vacancies on the Apprenticeship Jobs Page (Generation Apprenticeship). You can search for vacancies by location and by apprenticeship.
Below is a list of current SOLAS approved employers for this apprenticeship.
Testimonial
“After completing my Leaving Certificate, I received a CAO offer to study engineering at university however, after careful consideration, I decided to take the apprenticeship route instead. I knew that hands on experience in the construction industry was highly rated and I chose to do the BEng in Civil Engineering by Apprenticeship because it is focused on giving students the skills needed for industry.
Having job security and a consistent salary, as well as the high employment rate from the programme really appealed to me.
As part of the apprentice programme, I enjoy working with new people and constantly learning. I have received great support from the university, colleagues at work and from the other apprentices on the course. To do an apprenticeship you need to be determined and self-motivated. I highly recommend this programme.”
Kate Gaffrey , Civil Engineering Apprenticeship
If your employer is paying this contribution directly, please contact civilapprenticeships.sligo@atu.ie for further information.
Careers
You may choose to work as a civil engineer in the following sub-sectors of the construction industry:
Government Agencies & Local Authorities – the clients responsible for commissioning projects and managing assets
Consulting – supporting clients to design and manage construction projects
Contractors – constructing the assets e.g. buildings, bridges, reservoirs etc.
Suppliers – providing specialist materials and products to contractors.
Projects include the design and construction of civilian infrastructure from buildings such as hospitals and schools to transportation and utilities networks.
Further Information
Who Should Apply?
In addition to the entry requirements, applicants should have:
An interest in Civil Engineering and the built environment.
An interest in Mathematics and problem solving.
Solid literacy, verbal, and numeracy skills.
Ability to plan and prepare work.
Good analytical and problem-solving skills.
Good computer skills.
Good interpersonal skills.
Be safety focused.
Ability to work independently and as part of a team.
To find an apprenticeship, you can search for apprenticeship vacancies on the Apprenticeship Jobs Page (Generation Apprenticeship). You can search for vacancies by location and by apprenticeship.
Contact Information
Further information for both prospective apprentices and employers can be obtained by contacting civilapprenticeships.sligo@atu.ie
Further information can be found at Generation Apprenticeship