Mechanical Engineering – MEng

This module explores the principles of material science and thermal fluid dynamics at an advanced level, emphasizing high-performance applications in industries such as aerospace, renewable energy, and advanced manufacturing. Students will develop expertise in the thermo-physical properties of advanced materials and the fluid dynamics of heat transfer. Through a blend of theory, computational modelling, and experimental work, the module prepares students for complex problem-solving in research and industry settings.

This module employs the use of Finite Element Analysis (FEA) and its integration into Design Engineering, aiming at equipping the students with the skills to model, simulate, and optimise structural and mechanical designs. The course combines theoretical foundations with hands-on application, preparing students to employ FEA as a critical tool for solving complex engineering problems across various industries such as Biomedical and Medical, Manufacturing, Automotive, Aerospace, Civil engineering etc.

This module aims to equip mechanical engineering students with advanced skills in data analytics, data management, multivariate analysis, prediction modeling, and continuous improvement methodologies. The module will cover the theoretical foundations and practical applications of these techniques in the context of mechanical engineering.

This module focuses on preparation of a research proposal and the application of literature review findings to the design, testing, and execution of a comprehensive research study.

This module aims to equip students with the knowledge and skills to develop sustainable products and processes in the field of mechanical engineering. By exploring the lifecycle impacts of products, circular economy principles, and sustainable design methodologies, students will gain a comprehensive understanding of how to reduce environmental footprints in manufacturing and design. The module also focuses on developing practical skills to implement these strategies in real-world engineering contexts.

This module aims to provide an in-depth use of Computational Fluid Dynamics (CFD) with an emphasis on its application to Design Engineering in advanced engineering projects. The module offers a balanced approach to theory and practical application, equipping students with the skills to model, analyse, and optimise fluid flows and heat transfer in various engineering design systems. Upon completion of this module, students will have developed the technical expertise to perform sophisticated CFD simulations, interpret and analyse results critically, and apply CFD as a key tool in the engineering design process, across various industries such as Biomedical and Medical, Automotive, Aerospace etc.

This module aims to provide mechanical engineering students with the knowledge and skills necessary to manage and implement digitisation and automation processes within the field of mechanical engineering. It covers the theoretical foundations, practical applications, management and strategic implications of digitisation and automation technologies specific to mechanical engineering.

This module focuses on preparation of a research proposal and the application of literature review findings to the design, testing, and execution of a comprehensive research study.