The ICTQual AB Level 6 International Diploma in Marine & Naval Engineering is a comprehensive three-year programme, structured over 360 credits, that prepares learners to excel in the demanding and highly specialised fields of marine, offshore, and naval engineering. This qualification blends theoretical knowledge with practical applications, ensuring learners gain the technical, analytical, and professional skills required to design, operate, and maintain advanced marine and naval systems.
Throughout the programme, learners explore a wide spectrum of subject areas, including ship design, propulsion systems, marine structures, naval architecture, fluid mechanics, offshore engineering, marine safety, and sustainable maritime technologies. The curriculum is developed to align with global industry needs, enabling learners to address real-world engineering challenges in both commercial and defence-related maritime sectors.
This diploma caters to both fresh learners seeking to begin a rewarding career and experienced professionals aiming to enhance their qualifications and progress into supervisory or senior roles. By engaging with practical projects, advanced simulations, and applied research, learners develop problem-solving skills, innovation capacity, and adaptability to emerging technologies in the maritime industry.
Course Overview
This qualification, the ICTQual AB Level 6 International Diploma in Marine & Naval Engineering, consists of 36 mandatory units.
Year 1 – Foundation in Marine & Naval Engineering
- Principles of Marine and Naval Engineering
- Engineering Mathematics
- Fundamentals of Mechanical and Electrical Engineering
- Materials Science and Engineering
- Engineering Drawing and Computer-Aided Design (CAD)
- Introduction to Fluid Mechanics and Hydrodynamics
- Basics of Marine Propulsion Systems
- Naval Architecture – Fundamentals
- Marine Structures and Ship Construction
- Health, Safety, and Environmental Practices in Maritime Engineering
- Communication and Technical Report Writing
- Introduction to Project Management in Engineering
Year 2 – Intermediate Studies in Marine & Naval Engineering
- Marine Hydrodynamics and Stability
- Marine Propulsion and Power Systems
- Structural Analysis and Ship Design
- Offshore and Coastal Engineering – Fundamentals
- Marine Electrical and Control Systems
- Materials and Corrosion in Marine Environments
- Marine Maintenance and Reliability Engineering
- Computational Methods in Naval Architecture
- Sustainable Maritime Engineering and Green Technologies
- Applied Research Methods in Marine Engineering
- Port and Harbour Engineering – Basics
- Project Planning and Marine Operations Management
Year 3 – Advanced Studies in Marine & Naval Engineering
- Advanced Ship Design and Modelling
- Advanced Propulsion and Power Plant Systems
- Offshore Structures and Subsea Engineering
- Advanced Hydrodynamics and Computational Fluid Dynamics (CFD)
- Naval Defence Systems and Military Applications
- Smart Marine Technologies and Industry 4.0
- Robotics and Autonomous Systems in Maritime Engineering
- Cyber-Physical Systems and IoT in Marine Engineering
- Professional Ethics and Sustainability in Marine & Naval Engineering
- Innovation and Entrepreneurship in Marine Technology
- Infrastructure and Facility Planning for Maritime Systems
- Final Year Major Project (Capstone Project)
Learning Outcomes for the ICTQual AB Level 6 International Diploma in Marine & Naval Engineering:
Year 1 – Foundation in Marine & Naval Engineering
Principles of Marine and Naval Engineering
- Understand the scope and applications of marine and naval engineering.
- Explain the principles of ship design, naval architecture, and marine systems.
- Recognise key components and operational requirements of maritime vessels.
Engineering Mathematics
- Apply algebra, calculus, and trigonometry to engineering problems.
- Develop mathematical models for marine and naval systems.
- Solve technical problems using numerical and analytical methods.
Fundamentals of Mechanical and Electrical Engineering
- Understand mechanical principles including motion, energy, and mechanics.
- Explain electrical fundamentals including current, voltage, and resistance.
- Apply mechanical and electrical concepts to practical maritime engineering tasks.
Materials Science and Engineering
- Identify materials used in marine and naval applications.
- Understand the relationship between material properties and performance.
- Select suitable materials for marine construction and engineering systems.
Engineering Drawing and Computer-Aided Design (CAD)
- Interpret technical drawings using international standards.
- Develop 2D and 3D models using CAD software.
- Apply dimensioning and tolerancing principles in marine engineering designs.
Introduction to Fluid Mechanics and Hydrodynamics
- Understand principles of fluid flow and hydrodynamics.
- Analyse the behaviour of fluids in marine environments.
- Apply fluid mechanics to ship hull design and offshore structures.
Basics of Marine Propulsion Systems
- Explain different types of marine propulsion systems.
- Analyse the performance of propellers, engines, and power transmission.
- Understand the principles of efficiency, thrust, and fuel consumption.
Naval Architecture – Fundamentals
- Understand basic ship design principles and hull geometry.
- Analyse stability, buoyancy, and weight distribution in vessels.
- Apply naval architecture concepts to simple ship design problems.
Marine Structures and Ship Construction
- Identify structural components of ships and marine platforms.
- Understand construction techniques and material selection.
- Evaluate structural integrity and strength of marine structures.
Health, Safety, and Environmental Practices in Maritime Engineering
- Apply maritime safety regulations and risk assessments.
- Identify hazards in shipbuilding and offshore operations.
- Implement environmentally sustainable practices in marine engineering.
Communication and Technical Report Writing
- Develop professional written and verbal communication skills.
- Prepare structured technical reports and documentation.
- Apply referencing and technical writing standards in marine contexts.
Introduction to Project Management in Engineering
- Understand project management principles and lifecycle.
- Apply planning, scheduling, and resource allocation tools.
- Analyse risk, cost, and quality in marine engineering projects.
Year 2 – Intermediate Studies in Marine & Naval Engineering
Marine Hydrodynamics and Stability
- Analyse ship stability under different loading and sea conditions.
- Apply hydrostatic and hydrodynamic principles to vessel behaviour.
- Evaluate the effect of waves and currents on marine operations.
Marine Propulsion and Power Systems
- Understand advanced marine engines and propulsion systems.
- Analyse power transmission and efficiency of marine vessels.
- Apply thermodynamic principles to marine propulsion.
Structural Analysis and Ship Design
- Perform stress, strain, and deflection analysis on ship components.
- Apply design principles for hulls and marine superstructures.
- Evaluate safety, durability, and performance of marine structures.
Offshore and Coastal Engineering – Fundamentals
- Understand design and construction of offshore platforms.
- Analyse coastal processes and their impact on structures.
- Apply engineering solutions for offshore and coastal projects.
Marine Electrical and Control Systems
- Explain shipboard electrical systems and instrumentation.
- Apply control theory to marine automation systems.
- Understand monitoring and safety systems in maritime environments.
Materials and Corrosion in Marine Environments
- Identify corrosion mechanisms in marine applications.
- Apply protective coatings and materials selection for durability.
- Analyse material performance in saltwater and harsh conditions.
Marine Maintenance and Reliability Engineering
- Develop maintenance strategies for ships and offshore structures.
- Analyse failure modes and implement reliability engineering principles.
- Apply condition monitoring techniques for predictive maintenance.
Computational Methods in Naval Architecture
- Use computational tools to model marine systems and structures.
- Apply simulation techniques for hull design and stability analysis.
- Interpret computational results for engineering decision-making.
Sustainable Maritime Engineering and Green Technologies
- Understand environmental challenges in the marine sector.
- Analyse fuel-efficient, low-emission, and renewable technologies.
- Apply sustainability principles in ship design and operations.
Applied Research Methods in Marine Engineering
- Develop research proposals and methodologies in marine contexts.
- Collect, analyse, and interpret technical data.
- Present findings in structured and professional formats.
Port and Harbour Engineering – Basics
- Understand the design and operation of ports and harbours.
- Analyse coastal structures, breakwaters, and docking facilities.
- Apply planning principles for maritime infrastructure development.
Project Planning and Marine Operations Management
- Understand operational management in shipping and offshore projects.
- Apply project planning tools, scheduling, and resource management.
- Evaluate risk, safety, and cost-efficiency in marine operations.
Year 3 – Advanced Studies in Marine & Naval Engineering
Advanced Ship Design and Modelling
- Develop complex ship designs using advanced CAD and simulation tools.
- Analyse structural integrity and hydrodynamic performance.
- Apply optimisation techniques for vessel efficiency and safety.
Advanced Propulsion and Power Plant Systems
- Understand high-performance marine engines and energy systems.
- Analyse power generation, transmission, and fuel efficiency.
- Apply thermodynamic and mechanical principles to advanced propulsion.
Offshore Structures and Subsea Engineering
- Design and evaluate offshore platforms and subsea systems.
- Analyse structural behaviour under environmental loads.
- Apply advanced engineering solutions for deep-water operations.
Advanced Hydrodynamics and Computational Fluid Dynamics (CFD)
- Use CFD to simulate fluid-structure interaction.
- Analyse wave forces, drag, and stability in complex marine conditions.
- Evaluate results to improve ship design and offshore operations.
Naval Defence Systems and Military Applications
- Understand principles of naval weapon systems and defence platforms.
- Analyse shipboard combat and surveillance systems.
- Apply engineering concepts to military and strategic maritime applications.
Smart Marine Technologies and Industry 4.0
- Explore automation, digital twins, and IoT in maritime engineering.
- Apply smart monitoring and predictive maintenance solutions.
- Analyse integration of advanced technologies in ships and ports.
Robotics and Autonomous Systems in Maritime Engineering
- Understand autonomous ships, UAVs, and underwater vehicles.
- Apply robotics principles for marine inspection and maintenance.
- Evaluate safety and operational efficiency of autonomous maritime systems.
Cyber-Physical Systems and IoT in Marine Engineering
- Integrate hardware, software, and communication networks for marine applications.
- Apply IoT protocols for real-time monitoring and data collection.
- Design cyber-physical systems for offshore and naval operations.
Professional Ethics and Sustainability in Marine & Naval Engineering
- Understand ethical responsibilities in maritime and naval engineering.
- Apply sustainability principles to shipbuilding and offshore projects.
- Analyse social and environmental impact of engineering solutions.
Innovation and Entrepreneurship in Marine Technology
- Develop innovative approaches to marine engineering challenges.
- Apply entrepreneurial skills to maritime technology ventures.
- Create business models for marine and offshore engineering solutions.
Infrastructure and Facility Planning for Maritime Systems
- Plan and design ports, shipyards, and offshore facilities.
- Analyse operational efficiency and layout optimisation.
- Apply strategic planning principles for maritime infrastructure projects.
Final Year Major Project (Capstone Project)
- Undertake independent applied research or engineering project.
- Integrate knowledge from multiple disciplines within marine and naval engineering.
- Present findings through a professional report and presentation.
Course Benefits of ICTQual AB Level 6 International Diploma in Marine & Naval Engineering
- Gain comprehensive knowledge of marine engineering systems, naval architecture, and ship design.
- Learn about marine propulsion systems, offshore structures, and hydrodynamics.
- Develop practical skills in shipbuilding, repair, and maintenance technologies.
- Understand safety regulations, international maritime laws, and classification standards.
- Acquire expertise in marine electrical systems, automation, and control technologies.
- Build the ability to manage marine projects, logistics, and naval operations.
- Gain exposure to sustainability practices in shipping, green technologies, and alternative fuels.
- Prepare for careers in shipbuilding companies, naval defense, offshore industries, and marine transport organizations.
After completing this course, learners can progress in the following ways:
- Progress to Master’s degrees in Marine Engineering, Naval Architecture, Offshore Engineering, or Ocean Engineering.
- Obtain professional certifications such as IMO compliance, Chartered Marine Engineer (CMarEng), or membership with RINA (Royal Institution of Naval Architects).
- Advance into roles like Marine Engineer, Naval Architect, Offshore Engineer, or Ship Design Specialist.
- Work with shipyards, naval defense organizations, offshore drilling companies, and maritime regulatory bodies.
- Transition into marine project management, port operations, and offshore renewable energy engineering.
- Explore opportunities in research and innovation in marine technology, sustainable shipping, and autonomous vessels.
- Contribute to the global maritime sector, focusing on advanced naval defense and eco-friendly shipping solutions.