ICTQual AB Level 6 International Diploma in Marine & Naval Engineering

Here are the learning outcomes for each study unit:

Year 1 – Foundation in Marine & Naval Engineering

1. Principles of Marine and Naval Engineering

• Understand fundamental concepts of marine and naval engineering
• Analyse the roles and responsibilities of marine engineers and naval architects
• Apply core engineering principles to maritime operations

2. Engineering Mathematics

• Apply mathematical techniques to solve complex engineering problems
• Develop analytical and quantitative skills relevant to marine engineering
• Use mathematical models in hydrodynamics, propulsion, and structural analysis

3. Fundamentals of Mechanical and Electrical Engineering

• Understand mechanical and electrical engineering principles in marine systems
• Analyse machinery performance and electrical systems on vessels
• Apply engineering concepts to maintain and optimise maritime operations

4. Materials Science and Engineering

• Examine properties and behaviour of metals and materials in marine environments
• Apply materials science principles to shipbuilding and marine systems
• Assess material performance under operational and environmental stresses

5. Engineering Drawing and Computer-Aided Design (CAD)

• Develop technical drawing and CAD skills for ship and marine system design
• Produce detailed engineering plans for marine structures and equipment
• Utilise CAD tools to visualise and optimise maritime engineering designs

6. Introduction to Fluid Mechanics and Hydrodynamics

• Understand fluid mechanics principles applied to marine engineering
• Analyse hydrodynamic forces acting on vessels and offshore structures
• Apply hydrodynamic concepts to design and operational decision-making

7. Basics of Marine Propulsion Systems

• Understand the principles of marine propulsion and power generation
• Analyse propulsion system performance for efficiency and safety
• Apply knowledge to optimise ship speed, fuel efficiency, and reliability

8. Naval Architecture – Fundamentals

• Understand ship design principles and stability considerations
• Analyse hull forms, buoyancy, and weight distribution
• Apply naval architecture concepts to vessel performance and safety

9. Marine Structures and Ship Construction

• Examine ship construction techniques and structural design
• Understand load-bearing structures and fatigue analysis in maritime engineering
• Apply structural knowledge to ensure safety and operational integrity

10. Health, Safety, and Environmental Practices in Maritime Engineering

• Understand maritime safety regulations and environmental compliance
• Implement risk assessment and mitigation strategies
• Promote sustainable and safe engineering practices on vessels and offshore structures

11. Communication and Technical Report Writing

• Develop professional communication and technical writing skills
• Prepare reports, documentation, and presentations for marine projects
• Communicate engineering concepts effectively within multidisciplinary teams

12. Introduction to Project Management in Engineering

• Understand project management principles in marine engineering contexts
• Plan, execute, and monitor maritime engineering projects
• Apply tools and techniques for efficient project delivery

Year 2 – Intermediate Studies in Marine & Naval Engineering

13. Marine Hydrodynamics and Stability

• Analyse ship stability and behaviour in various sea conditions
• Apply hydrodynamic principles to vessel performance and safety
• Evaluate factors affecting stability during operations

14. Marine Propulsion and Power Systems

• Understand advanced propulsion technologies and power plant operations
• Analyse system efficiency and performance for marine vessels
• Optimise propulsion systems for fuel efficiency and operational reliability

15. Structural Analysis and Ship Design

• Apply structural analysis methods to ship design and construction
• Evaluate hull strength, load distribution, and stress factors
• Use design principles to enhance safety and performance

16. Offshore and Coastal Engineering – Fundamentals

• Understand engineering principles for offshore structures and coastal projects
• Analyse environmental and operational challenges in offshore engineering
• Apply foundational techniques for the design and maintenance of offshore systems

17. Marine Electrical and Control Systems

• Analyse marine electrical systems, automation, and control processes
• Apply electrical engineering principles to enhance vessel operations
• Ensure safe and reliable functioning of electrical and control systems

18. Materials and Corrosion in Marine Environments

• Understand corrosion mechanisms affecting marine structures
• Apply material selection and protective measures in marine engineering
• Enhance durability and longevity of vessels and offshore installations

19. Marine Maintenance and Reliability Engineering

• Implement maintenance strategies for marine and naval systems
• Analyse reliability and performance metrics of vessels and equipment
• Apply preventative and predictive maintenance techniques

20. Computational Methods in Naval Architecture

• Use computational tools for ship design and performance analysis
• Apply simulation and modelling techniques to optimise vessel operations
• Evaluate design decisions using advanced computational methods

21. Sustainable Maritime Engineering and Green Technologies

• Implement environmentally sustainable practices in marine engineering
• Analyse green technologies and energy-efficient solutions for vessels
• Promote sustainable operations within the maritime industry

22. Applied Research Methods in Marine Engineering

• Conduct applied research in marine and naval engineering contexts
• Analyse data and generate actionable insights for engineering projects
• Apply research findings to improve operational and design outcomes

23. Port and Harbour Engineering – Basics

• Understand port and harbour infrastructure design and operations
• Analyse coastal and maritime logistics for safe navigation
• Apply engineering principles to optimise harbour and port efficiency

24. Project Planning and Marine Operations Management

• Develop comprehensive project plans for marine engineering operations
• Apply operational management techniques for efficiency and safety
• Ensure compliance with regulatory and environmental standards

Year 3 – Advanced Studies in Marine & Naval Engineering

25. Advanced Ship Design and Modelling

• Apply advanced ship design principles for complex vessels
• Use modelling techniques to simulate performance and stability
• Optimise ship design for operational efficiency and safety

26. Advanced Propulsion and Power Plant Systems

• Analyse advanced propulsion technologies and energy systems
• Implement optimisation strategies for fuel efficiency and performance
• Integrate power plant management into vessel operations

27. Offshore Structures and Subsea Engineering

• Design and evaluate offshore platforms and subsea installations
• Analyse environmental and operational challenges in deepwater engineering
• Apply safety and reliability principles to offshore systems

28. Advanced Hydrodynamics and Computational Fluid Dynamics (CFD)

• Use CFD to analyse fluid flow around marine structures
• Apply hydrodynamic simulations to optimise vessel performance
• Evaluate environmental and operational impacts using computational tools

29. Naval Defence Systems and Military Applications

• Understand naval defence engineering principles and military vessel systems
• Analyse design, propulsion, and weapon systems for defence applications
• Apply specialised engineering knowledge for military maritime projects

30. Smart Marine Technologies and Industry 4.0

• Integrate digital technologies and smart systems in marine operations
• Apply Industry 4.0 concepts for automation, monitoring, and optimisation
• Enhance operational efficiency and safety through technological innovation

31. Robotics and Autonomous Systems in Maritime Engineering

• Implement robotic and autonomous solutions in maritime engineering
• Apply automation to improve operational precision and safety
• Evaluate the impact of autonomous systems on efficiency and innovation

32. Cyber-Physical Systems and IoT in Marine Engineering

• Understand cyber-physical integration in vessel operations and monitoring
• Apply IoT technologies for real-time data collection and analysis
• Optimise engineering decisions through smart monitoring and control systems

33. Professional Ethics and Sustainability in Marine & Naval Engineering

• Apply ethical principles to maritime engineering practices
• Promote sustainable engineering solutions in shipbuilding and offshore projects
• Develop responsible leadership and decision-making in professional contexts

34. Innovation and Entrepreneurship in Marine Technology

• Identify opportunities for innovation in marine and naval engineering
• Apply entrepreneurial skills to maritime projects and start-ups
• Develop strategies for technological advancement and commercial growth

35. Infrastructure and Facility Planning for Maritime Systems

• Plan and design maritime infrastructure and facility layouts
• Optimise operational workflows and resource allocation
• Integrate safety, environmental, and efficiency considerations in planning

36. Final Year Major Project (Capstone Project)

• Integrate knowledge and skills from all units into a comprehensive project
• Solve real-world marine and naval engineering challenges
• Demonstrate technical proficiency, strategic thinking, and professional competence