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Integrated Engineering (MEng) at New Model Institute for Technology and Engineering (NMITE) - UCAS

Course summary

MEng (Hons) Integrated Engineering - Accelerated Develop your engineering abilities, enhance your employability, and complete your MEng qualification in only 3 years with our Accelerated Integrated MEng Degree. Learn over 46 weeks a year, for a duration of 3 years and get out into the world of work even faster.

  • Accelerated learning - your MEng Degree completed in only 3 years.
  • Save on cost, without compromising on the quality of your education
  • Develop hands-on, practical skills throughout your study with experienced academics, and employers from industry to guide you along the way
  • You'll gain the ability to integrate, synthesize, apply and gain knowledge, with an awareness of social and ethical responsibilities.
  • Learn to identify problems that need solving, and to find creative solutions to society’s challenges.
  • Receive support, whenever needed - 1:1 support through your allocated Personal Tutor, 24/7 access to the Academic Skills and Knowhow Centre, and Student Services.
  • Students can expect significant involvement from industry, and community partners throughout the course, clearly differentiating NMITEs approach from other engineering courses.
  • The NMITE MEng has been designed to satisfy the necessary educational standards for the award of Chartered Engineer by meeting the requirements of the Engineering Council Accreditation of Higher Education Programmes.

Modules

Level 4 The 21st-Century Engineer - Start your study by building a physical and digital artefact. You'll be introduced to the different disciplines of engineering, the influential role of the engineer in society, and the responsibilities we carry as professional engineers. Thermodynamics & Fluids - You will analyse and improve a fluid flow system. You'll combine observation, an awareness of how energy is converted and a knowledge of thermodynamics and fluid dynamics. Statics and Dynamics of Simple Mechanisms - You will design and validate a single-element mechanism under a straightforward load case. Fundamentals of Analogue and Digital Circuits - You will specify and build an open loop control system that meets the needs of a given application. Level 5 Creating Social Value through Engineering - You will work on a community-based project. You'll develop key mindsets relating to stakeholders, equity, inclusive design, prototyping and new product development/ Energy Engineering - You will propose and specify an energy solution for a specific application. You'll develop and apply your knowledge of thermodynamics including energy/power cycles, heat transfer, and the engineering components and systems that deliver energy. Statics and Dynamics of Complex Mechanisms - You'll design and model a complex structure under differing load cases, including selection of appropriate material(s) from a wider, more specialist range. Control and Instrumentation - You will monitor and model a predictable (LTI) closed-loop control system. To achieve this you'll develop and apply an understanding of open- and closed-loop systems, feedback system design, control system performance and analysis and modelling approaches. Level 6 People and Projects in Engineering - You'll deliver an engineering project which you will design, plan and execute. You'll explore the project lifecycle as a way of understanding and breaking down projects, and you'll learn to use a range of tools to work within and manage projects effectively. Data-Driven Engineering - In this module you will master principles of sampling, design of experiments, and the fundamentals of data science. You'll gather, combine, clean, and manipulate more than one big dataset and present an data analysis that facilitates decision-making in the context of an engineering process or facility. Manufacturing as Integrated Engineering - This module presents manufacturing as a context in which materials, structures, dynamics, electronic, control, thermodynamics, energy and power can all be observed, and challenges you to identify benefits and strategies for Industry 4.0 approaches. You will draw on an understanding of the manufacturing environment, and the key mindsets that underpin productive manufacturing (including the management of cost, quality, legal responsibilities, workforce, and wellbeing and safety). Bachelor's Project - This module builds on the knowledge, experience and skills you have gained in the your course to date, and allows you to demonstrate your capability in a self-managed innovative project. Level 7 Research and Modelling - You will apply computational engineering modelling tools in a research context, typically CFD (computational fluid dynamics) or FEA (finite element analysis) to predict the performance of an engineered system involving complex phenomena such as fluid dynamics or structural integrity. Lifetime Performance of Engineering Assets - Your skillset and integrated approach is applied to a durable engineering application, providing an opportunity to explore the management of physical assets with a firm eye on their lifecycle performance. Master's Project - You'll work individually on a demanding engineering challenge for an extended period, typically with an industrial or community partner on a research-based or self-defined challenge.

Assessment method

We believe that your assessment should be as reflective of a real workplace as possible and that means no traditional exams. Instead, our assessments take the form of in-studio quizzes, presentations and debates, display of artefacts you’ve developed and built, industrial reports, development of specifications, test reports and project plans, creative media presentation and general question and answer sessions where your participation and knowledge can be assessed.


How to apply

Application codes

Course code:
IEU1
Institution code:
N44
Campus name:
NMITE Blackfriars
Campus code:
B

Points of entry

The following entry points are available for this course:

  • Year 1

International applicants

NMITE accepts applications from international students who meet the entry requirements for their proposed programme of study. For any further information about the above please contact [email protected]

Entry requirements

Qualification requirements

Please click the following link to find out more about qualification requirements for this course

https://nmite.ac.uk/application-process/what-were-looking


English language requirements

TestGradeAdditional details
IELTS (Academic)6Including band 5.5 in each component. Applicants without an English Language qualification at FHEQ Level 2 will need to achieve IELTS band 6.5 with a minimum of 6.0 in each component.

Student Outcomes

Operated by the Office for Students

There is no data available for this course. For further information visit the Discover Uni website.

Fees and funding

Tuition fees

Channel Islands £11130 Year 1
Republic of Ireland £11130 Year 1
EU £18000 Year 1
England £11130 Year 1
Northern Ireland £11130 Year 1
Scotland £11130 Year 1
Wales £11130 Year 1
International £18000 Year 1

Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .

Additional fee information

You’ll be spending less on tuition fees and costs than traditional engineering degrees as you will be graduating with your MEng in three years, a year less than normal.

Sponsorship information

We know that going to any University or Higher Education Institution is a financial commitment. That is why we are dedicated to easing the financial burden for our students through our bursaries and scholarships. We have several financial awards available for future and existing students. Please see our website at https://nmite.ac.uk/scholarships-and-bursaries

Integrated Engineering (MEng) at New Model Institute for Technology and Engineering (NMITE) - UCAS