Mechanical Engineering (Top-up) (Online) BEng Tech (Hons)

Today engineers use computers and software in the engineering design and simulation of most of the products, processes and systems that make up our lifestyles. In this module your knowledge of advanced techniques is developed for the computer-based analysis of designs and to use commercial software to solve more complex engineering problems. You gain a thorough understanding of computer methods for the analysis of detailed design and are introduced to the finite element analysis (FEA) nodes, elements and meshing techniques. Types of boundary conditions such as loads and constraints are explained including how to apply them. You learn how to solve FEA problems and analyse the results. Advanced techniques utilising adaptive and optimisation methods for solving complex engineering problems is also covered.

This module will develop the advanced theory and the principles of mechanics of materials and apply them to the analysis of realistic engineering problems. Specific areas of study include: stress concentrations, inelastic deformation and residual stress under axial loading, torsion, and bending as well as transverse shear. Further studies will include introduction to failure theory, design of beams and shafts, deflection of beams and shafts, design of column; thick-walled cylinder and interference fits.

Lectures will introduce each major topic on the module emphasising both the conceptual and theoretical development as well as their applications to realistic engineering problems. Worked examples will be used in the study. Seminars will be utilised primarily for students to practice and to provide feedback.

This module equips you with appropriate industrial concepts of quality systems and reliability methods relevant to industrial applications. You consider statistical methods relating to quality control and reliability problems, together with product quality and the use of quality tools.

This module advances the development of your independent learning skills by allowing you to investigate an area of engineering for an extended period. You are given training in writing technical reports for knowledgeable readers and you produce a report or dissertation of the work covered. You also give an oral presentation, a poster presentation or both. The topic can be in the form of a research project or a design project. You develop key skills in research, knowledge application and creation through keynote lectures where appropriate and self-managed independent study. You are supported through regular tutorial sessions and project supervision meetings.

The emergence of Industry 4.0, often referred to as the fourth industrial revolution, has been attributed to advancing automation, decentralisation and system integration and cloud computing. In the cyber-physical environment, machines can communicate, collect information, and make informed decisions through artificial intelligence (AI), big data and industrial internet of things (IIoT). The evolution of Industry 4.0 has great potential to improve the energy, equipment, and human behaviour. At the same time, in the era of the so-called circular economy, industry across all sectors is under huge pressure to make their manufacturing operations ethical and sustainable. Therefore, we must learn to adopt or implement the latest Industry 4.0 technologies.

The term sustainability has a multi-disciplinary use and meaning. As future engineers you will learn sustainability is represented as the synergy between environment, economics, and society. In this module students specialising in Sustainable Systems and Industry 4.0 will focus their studies and deepen their knowledge in a range of sustainability themes such as energy management and power systems, sustainable water and wastewater systems, sustainable transportation technologies, transitions to sustainable food systems and mechanical manufacturing systems.

The subjects will be taught through a combination of lectures and seminars. Lectures will develop key concepts and knowledge. Seminars will allow more focused examinations of important issues and approaches