Â鶹´«Ã½

BPIE115
Stage 1 Mechanical Placement Preparation 0 credits

Undertaking a sandwich-year placement (also known as an industrial or work placement) offers many benefits, including valuable hands-on work-experience and enhanced employability. This module is for first-year students who may undertake a placement in their third year. It is designed to support students in exploring placement opportunities and developing the skills and knowledge required to successfully secure one.

ENGR103
Engineering Science 20 credits

This module covers the essential scientific principles of fluid mechanics for civil, marine, and mechanical engineering applications. We'll also delve into thermodynamics, focusing on the interaction between systems and their surroundings. Lastly, we'll explore the fundamental principles of electrical engineering, providing you with a solid foundation in circuits and electrical systems.

ENGR104
Engineering Mathematics 20 credits

Build the maths skills every engineer needs. Want to design bridges, launch rockets, or create the next big tech breakthrough? It all starts here. This module gives you the core math skills and problem-solving techniques every engineer relies on. It’s the foundation for everything you'll build in your engineering journey.

ENGR105
Mechanics and Structures 20 credits

We'll teach you the fundamental scientific principles of engineering mechanics and structures appropriate for engineering applications. You'll develop a deeper understanding of these key scientific principles through practical applications using hands-on calculations and also computer software tools.

ENGR106
Engineering Materials 20 credits

Materials science is crucial for designing and manufacturing everything from bridges and airplanes to ships and medical devices. This module will teach you the properties and behaviours of different engineering materials—such as metals, polymers, ceramics, and composites—to allow you select or develop materials that meet specific performance, efficiency, safety and environmental requirements.

ENGR107
Engineering Design 20 credits

Problem solving is at the heart of everything, but to solve a problem, you must first understand it. Engineering design sharpens this skill, helping you develop valid solutions to real challenges. In Semester 1, you'll develop essential techniques: sketching, computer-aided design, and application of the design process. Then, in Semester 2, you’ll put those skills to the test, tackling real-world design problems head-on.

ENGR108
Engineering Practice and Experimental Techniques 20 credits

Here you'll take a hands-on, practical approach to learning the fundamental principles of engineering science, with engaging experiments in our modern, student-centred labs. Along the way, you’ll develop essential study habits, strengthen teamwork skills, and build confidence in technical communication - key qualities for any aspiring engineer.

BPIE215
Stage 2 Mechanical Placement Preparation 0 credits

A year-long work placement is a valuable opportunity to gain hands-on experience and develop skills that will enhance future career prospects. This module prepares students to begin their placement search by providing practical guidance on where to look, how to apply, and how to present themselves effectively to potential employers; featuring insights from students who have recently returned from their own placements.

MARN220
Naval Architecture 1 20 credits

You will learn how marine vessels float, remain stable in water, and return upright after being tilted, as well as how they respond to waves and wind. We will also explore how to predict the resistance vessels face when moving through water. Finally, you will learn how to choose and design efficient propellers, considering diameter, pitch, blades, and speed to maximise thrust whilst minimising cavitation and noise.

CONT223
Engineering Mathematics and Control 20 credits

Dive into the foundations of control engineering! In this module, you'll explore powerful mathematical tools such as Laplace transforms and discover how they're applied to model and analyse real-world engineering problems. In parallel, you'll be introduced to classical control systems theory, gaining insight into how engineers design controllers that keep everything from robots to airplanes stable and responsive.

MARN222
Marine Engineering Design & Commercialisation 20 credits

This module is your chance to use your creativity in an exciting marine engineering challenge, developing a product that you are proud of. You will learn to apply knowledge of engineering science (combined with 3D modelling) to optimise your designs. You will follow a structured design process as you would in industry, considering factors such as project/risk management, sustainability and product commercialisation.

MATS236
Materials & Structural Integrity 20 credits

In this module, you will be introduced to the structural assessment of a range of engineering materials. You will learn both a study of the materials themselves as well as their likely failure mechanisms when subjected to external loads. The module will also help you develop the underpinning mathematical analysis you will need to quantify these effects in an appropriate manner.

MECH236
Manufacturing Processes 20 credits

Here you’ll obtain a deep understanding of manufacturing processes through a blend of lectures and hands-on practicals. You’ll explore forming, shaping, joining, and machining processes with both metallic and non-metallic materials. Working in our workshops will reinforce key concepts of manufacturing and enable you to use CAD part models to drive additive and subtractive CNC machine tools. It's manufacturing in action!

MECH237
Thermo-Fluids 20 credits

In this module, you'll dive into the key concepts of thermodynamics and fluid mechanics that are crucial for mechanical engineering. Discover how energy flow in heat engines and how fluids behave in various engineering scenarios and its application to areas such as aerodynamics.

BPIE335
Mechanical Engineering Related Placement 0 credits

A year-long work-placement, undertaken with an approved placement provider and in a role relevant to the students programme. Students will leave with practical and relevant work experience, where they put theory into practice. This module is attached to the Placement and provides students with a single digital space to refer to for key reminders, FAQs, contact details, top tips and their Placement-year handbook.

MARN341
Marine Engineering 20 credits

From the beating heart of the ship—the power plant—through the intricate web of marine engineering systems, you'll explore the vital interconnections and dependencies that transform raw fuel into thrust through design and analysis tasks. Design choices will be made based on vessel types, journey specifications and environmental factors to give you systems view of multiple marine vessel configurations.

MARN342
Naval Architecture 2 20 credits

You will integrate engineering principles into hull design and learn structural concepts vital to marine crafts. We will guide you through how these ideas are developed, applied, and analysed. You will study different vessels to see how well they perform their functions, considering design choices and operational factors. Finally, we will discuss how energy efficiency and reduced emissions are key in modern ship design.

PRME310
Engineering Honours Project 40 credits

Your Honours Project is your chance to focus on what really fascinates you. You will have freedom to choose almost any topic that aligns with your degree programme, and you will develop a deep understanding of it. Much of your work will be done independently (with regular guidance from your supervisor). You will present a poster at the end of the project where you can proudly show all that you have achieved.

MECH341
Computer Aided Engineering 20 credits

In this module, you will gain expertise in two powerful Computer Aided Engineering methods: Computational Fluid Dynamics for fluid flow challenges and Finite Element Analysis for structural solutions. You’ll explore validation techniques to ensure reliable simulation results. You will develop your skills that set you apart in the world of engineering!

MATS347
Composites Design and Manufacture 20 credits

Composites are lightweight materials enabling sustainable fuel-efficient transport systems and large durable blades for renewable energy systems. In this module you will learn how to design composite materials and the manufacturing processes essential for such high-performance structures. You make a composite laminate, measure selected mechanical properties and compare the data with theoretical predictions.

MATS348
Composites Engineering 20 credits

Extending learning from MATS347, you will choose a component, prepare a product design specification (PDS), do individual designs, then agree a group design and manufacturing route, make the prototype(s) and test against the PDS. You also use numerical simulation to optimise the design of the composite structure. The coursework mimics industrial product development with staff acting as customers for your product.

CONT318
Control and Intelligent Systems Design 20 credits

From autonomous ships to self-driving cars and aerial drones, this module explores how control engineering and AI power intelligent systems across land, air, and sea. You'll learn how engineers design smart technologies that make real-time decisions—just like the systems behind modern ships, aircraft, and vehicles.

MARN501
Advanced Naval Architecture 20 credits

In this module, you will have a solid understanding of the mathematical models used in marine hydrodynamics and marine structures including their limitations and how to interpret data from them. You will learn how ships navigate and handle different conditions, understand how marine structures react to various forces and dive into the complexities of unpredictable sea conditions.

MECH558
Design for Excellence 40 credits

Advance your engineering design skills by working in a team to create innovative and environmentally sustainable solutions to complex, real-world challenges. Use CAD and CAE tools to optimise technical performance across the product lifecycle. Validate your solution by building and testing a working prototype using our modern lab facilities. This module tests your perseverance to attend to the smallest of details!

MAR541
Mechanics of Offshore Renewable Energy Systems 20 credits

Discover how offshore renewable energy systems work in this module. You'll explore the mechanics behind wave, tidal, and offshore wind energy converters and investigate the engineering challenges they face. Develop practical skills through modelling and simulation using industry-standard software, and test designs in the cutting-edge COAST laboratory for real-world insight.

MECH545
Advanced FEA & CFD 20 credits

This module offers an exciting deep dive into Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) through a hands-on design project. You'll learn how to use industrial CAE tools effectively, understand their limitations, and apply validation techniques to improve accuracy and reduce uncertainty.

MATS500
Advanced Composites Technology 20 credits

In this module, you’ll gain essential expertise in advanced composites engineering. You'll develop a deep understanding of composites design and manufacturing, refine your skills in modelling, and master materials characterization. This is hands-on knowledge that elevate your engineering abilities and step into the future of composites technology.

MECH544
Data Processing, Simulation and Optimisation of Engineering Systems 20 credits

Discover how engineers bring systems to life through modelling, simulation, and data. This module covers the basics of dynamical systems, hands-on simulation with MATLAB/Simulink, data visualisation, and optimisation. You’ll also explore how data processing powers real-world engineering solutions across a range of applications.