Mechanical Engineering

An understanding and ability to use mathematics are essential skills for success in Engineering this module will review and expand on the following subjects: algebra, trigonometry, functions, geometry, vectors, complex numbers and calculus, with emphasis on their applications to Engineering.

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In this module you will develop an understanding of the basic properties and applications of materials and of the principles of electronic and electrical engineering.  This will include learning about the relationship between microstructure and mechanical properties of materials, mechanisms of corrosion and corrosion protection, the principles of electronic and electrical engineering, and the response of electrical elements in circuits to d.c. or a.c. supplies.

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You will develop an understanding of the basic concepts of Engineering Thermodynamics and be given a introduction to the subject of Fluid Mechanics in this module. Skills in handing thermodynamic concepts enabling the definition and analysis of thermodynamic systems are vitally important to the mechanical engineer.

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From concept to product in this module you will gain an insight into the complete process for the design or engineering of products and services. You will learn to interpret and produce drawings to British Standards and develop skills in the manufacture process including machining, forming, joining, fitting, assembly and  inspection and testing.

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This module will develop your knowledge and understanding of the basic principles of structural behaviour and the nature of stress and strain and provide you with a foundation in engineering dynamics, allowing you to tackle simple engineering problems, and preparing the you for subsequent modules.

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This module will introduce you to a range of basic manufacturing processes and their application, enabling you to specify appropriate manufacturing techniques, taking into account quality, quantity and cost. You will work in groups throughout this module building on your communication and team working skills.

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This module will building on the engineering mathematics year 1 module  and develop more advanced knowledge and skills in mathematical analysis, and enable you to tackle more advanced engineering problems. Subjects covered include partial differentiation, determinants and matrices, vector analysis, Laplace transforms and functions of a complex variable.

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This module will provide you with an introduction to the design and analysis of both analogue and digital feedback control systems and the application of fundamentals in spatial kinetics and multi-degree of freedom vibrations. You will also be introduced to the fundamentals of the analysis and solution of engineering problems in Dynamics and Robotics and the application of fundamentals in discrete event systems and their application to Robotics and Automation.

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This module will further your knowledge of thermodynamic and fluid mechanic systems. You will learn thermodynamic analysis of systems employing phase changing fluids, appreciation of turbomachinery and reciprocating air compressors, the principles of heat transfer, the treatment of fluid mechanics to two dimensional low speed flow and one dimensional compressible flow, and the concepts of boundary layer theory.

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Your understanding of manufacturing methods and current processes will be enhanced through this module, and you will be able to specify the most appropriate manufacturing method/process for a particular application taking into account quality, quantity and cost.  You will also be introduced to computer simulation modelling and programmable logic controllers and their programming language

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Through this module you will become proficient in the application of theory of beam deflections, instability, three dimensional stress analysis and criteria for strength, and develop an appreciation of the Direct Stiffness method, the nature of elastic stability, the need for failure criterion and the nature of plastic strain.

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In this module you will be provided with a broad understanding of qualitative methods used for decision making in manufacturing industry and an understanding of the role and function of quality, reliability and maintenance within an organisation. Through group work you will develop key skills in communication both written and oral, group dynamics, interview skills and the running and reporting of formal meetings.

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This module has two main components. Industrial management in which you will be introduced to the commercial issues which must be addressed by engineering businesses, and the principles of quality management systems.  Project preparation which will develop your ability to work independently, become competent in analysing and assessing the value of information and develop effective communication skills both written and orally.

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You will be provided with an introduction to the design and analysis of both analogue and digital feedback control systems and the application of fundamentals in spatial kinetics and multi-degree of freedom vibrations. Subjects include encirclement theorem, Nyquist stability theorem, compensator design and spatial kinetics applied to machinery and robots.

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Finite Element Analysis is an important and advanced tool of the engineer, in this module you will be taught the principles of finite element analysis and how to construct an appropriate finite element model of a physical system, and how to interpret results of the analysis. You will also be given practical instruction the use of an industry-standard finite element analysis program.

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In this module you will be given an understanding of the internal combustion engine and the gas turbine and an introduction to refrigeration cycles. You will also expand your knowledge of heat transfer processes, fluid mechanics to viscous flows by examination of the Navier-Stokes equations, and compressible flow analysis to one and two dimensional flows.

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You will extend your knowledge and experience in design: the writing of clear and concise specifications; the generation and presentation of concepts; performing appropriate calculations, selecting suitable materials, treatments and manufacturing processes; the development of the concepts into workable schemes and their communication in a form suitable for manufacture including dimensional toleranced scale drawings or sketches.

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One of the most important parts of your preparation for your future career, whether in industry or research, is the undertaking of an individual project. Projects are based on particular engineering theme of industrial relevance.

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You will be provided with a comprehensive understanding of current industrial control technology and practices, including Programmable Logic Controllers (PLC), Supervisory Control and Data Acquisition (SCADA) and Distributed Control System (DCS) systems. Subjects include discrete event system control, programming PLCs, manipulator theory and manipulator practice.

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This module with covers the more advanced aspects of finite element analysis, building on your skills and knowledge, and teaches you how to use sophisticated element types as used to model real structures in industry. Subjects include an overview of parametric element formulation, practical modelling technique, use of multiple point constraints, and modal and transient analysis.

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In this module you will be introduced to different operations research techniques and of when and how they are used in management decision making. You will also be provided with an understanding of various production systems, and their simulations, which will help you develop your ability to analyse the design issues and through the use of computer based simulation software develop a viable solution.

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This module will expose you to real engineering problems in an industrial or aerospace environment. You will gain a comprehensive understanding of the processes associated with the assembly of very large aircraft structures, including the techniques of forming, joining and fixturing, and an awareness of the regulatory and design standards that have to be met, and the processes that must be used to ensure conformity with those standards.

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In this module you will gain the knowledge and skills necessary to understand the utilisation of natural gas in terms of combustion flames, combustion technology, gas burner designs, sprays and atomisation, commercial markets and safety including temperature processes relating to natural gas engineering.

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