Bachelor of Engineering (Honours) in Building Engineering

3 Years On Campus Bachelors Program

Technological University Dublin

Program Overview

The Building Engineering (TU825) at Technological University Dublin is an advanced honours degree designed for students who want to specialise in designing energy-efficient, sustainable buildings and complex engineering systems such as HVAC, electrical, and environmental solutions. It suits those aiming for high-level technical and design roles in the built environment, combining engineering, sustainability, and digital modelling.

📚 Curriculum Structure

Year 1 (Engineering General Entry – TU805)
Your first year builds a strong engineering foundation through modules like Engineering Mathematics, Engineering Computing, and Engineering Drawing & Design. You’ll develop core analytical and problem-solving skills while gaining exposure to engineering systems and materials used in construction.

Year 2 (Core Building Engineering Systems)
In second year, you begin focusing on building engineering systems with modules such as Thermodynamics, Fluid Mechanics, and Energy & Building Systems Engineering. You’ll also study Electro-Mechanical Engineering and Manufacturing Automation, helping you understand how building systems operate and integrate.

Year 3 (Design & Applied Engineering)
Your third year focuses on applied design and system integration. You’ll study modules like Heating Systems Engineering, Water Services Engineering, and Air Conditioning & Ventilation, alongside design projects such as Heating & Water Services Design Project and Air Conditioning & Ventilation Design Project, applying your knowledge to real building scenarios.

Year 4 (Advanced Systems & Professional Practice)
In your final year, you move into advanced topics including Building Heat Transfer and Simulation, Electrical Power Systems, and Computer Modelling and Simulation. You’ll also complete a major Design Project and Engineering Project Management module, preparing you for leadership roles in building engineering and sustainable design.

🎯 Focus Areas

Building Services Engineering | HVAC Systems (Heating, Ventilation & Air Conditioning) | Renewable Energy Technologies | Electrical Power Systems | Sustainable & Low-Energy Building Design

🧠 Learning Outcomes

Ability to design and integrate complex building engineering systems | Strong skills in energy analysis, simulation, and sustainability | Competence in CAD, modelling, and system optimisation | Experience in project-based and group design work | Readiness for advanced roles in building services and environmental engineering

🏗️ Professional Alignment (Accreditation)

The programme is accredited by Engineers Ireland, meeting international standards and supporting progression toward Chartered Engineer status through further postgraduate study.

🌍 Reputation (Employability & Rankings)

The course has 100% employment rates (even during economic downturns) and is closely aligned with over 20 industry partners (including Arup, Jones Engineering, and Ethos Engineering), reflecting strong demand and excellent career outcomes.

Experiential Learning (Research, Projects, Internships etc.)

At Technological University Dublin, the Bachelor of Engineering (Honours) in Building Engineering programme is deeply practical, with a strong focus on applying what you learn through real design and engineering challenges. From your first year, you’ll work on hands-on projects, lab-based learning, and computer-aided design, supported by facilities and teaching that reflect real building engineering environments.

As you progress, this practical approach becomes more advanced—combining digital tools, collaborative projects, and industry exposure to ensure you graduate job-ready:

Design, Make & Test Project (Year 1): Early hands-on experience where you design and test systems such as a solar collector, applying engineering theory to real-world energy solutions.
Computer-Aided Design (CAD) & Digital Tools: Modules like Computer & Engineering Graphics and CAD & Energy Performance train you in design software and building performance analysis tools, essential for modern engineering practice.
Energy Performance & Simulation Tools: You’ll learn to assess building energy ratings and system efficiency, aligning with industry practices in sustainable design.
Group Design Projects (Year 2): Complete two team-based design projects (e.g., heating and ventilation systems), simulating real consultancy and engineering teamwork environments.
Major Design Project (Final Year): Design all engineering systems for a large commercial building, including drawings and calculations—mirroring professional engineering workflows.
Dissertation & Research Work: Conduct an in-depth study (e.g., solar energy or air conditioning systems), building independent research and technical expertise.
Laboratory & Practical Learning: Strong emphasis on practical and project-based learning throughout the course, ensuring concepts are applied in real engineering contexts.
Industry Interaction & Site Exposure: Engagement with industry through guest lectures, project supervision, and site visits, exposing you to real-world engineering challenges.
Digital Innovation (BIM & Smart Systems): Integration of Building Information Modelling (BIM) and smart building technologies, reflecting current industry trends in digital construction.
Study Abroad with Advanced Labs: Opportunity (on progression) to study at Hochschule München, accessing nine specialist laboratories covering all aspects of building engineering.

Progression & Future Opportunities

Graduates of the Bachelor of Engineering (Honours) in Building Engineering at Technological University Dublin move into a specialised and in-demand field focused on sustainable building systems and energy-efficient design. Typical roles include Building Services Engineer, HVAC Engineer, Energy Consultant, and Building Design Engineer, working across construction, sustainability, and smart building sectors.

With TU Dublin’s strong focus on applied learning and industry integration, your pathway into employment is clear and well-supported:

Career Support & Employability Services: TU Dublin provides dedicated career support through career coaching, CV development, employer engagement events, and placement support, helping students transition directly into industry roles.
Strong Graduate Employment Outcomes: Around 70–78% of graduates secure employment within nine months, with TU Dublin ranked #1 in Dublin for graduate employability.
Industry Partnerships & Employer Links: The university works with 800+ industry partners, integrating real-world projects, placements, and employer input into programmes—ensuring your skills match industry needs.
Work Placement Opportunities: Through the School of Architecture, Building and Environment, students benefit from structured work placement opportunities, gaining real experience in the construction and building services sector.
Professional Accreditation Value: The programme is accredited by Engineers Ireland, meaning your qualification is internationally recognised and aligned with professional engineering standards under global accords.
Graduation Outcomes: Graduates develop expertise in energy-efficient building systems, HVAC design, and sustainable construction, making them highly relevant in a sector focused on climate-conscious infrastructure.

📈 Further Academic Progression:

After completing this programme, you can progress to the Level 8 Bachelor of Engineering (Honours) in Building Engineering at TU Dublin, which enhances your technical depth and career prospects. From there, you can continue into postgraduate study (MEng or MSc) in areas such as Sustainable Energy, Building Services Engineering, or Environmental Engineering, or pursue research degrees (PhD) aligned with smart buildings, energy systems, and sustainable infrastructure.