Bachelor of Engineering in Electrical Engineering, Munster Technological University

Cork, Ulster

36 Months

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About this course

This electrical engineering program at MTU Bishopstown Campus is designed to prepare students for the modern energy environment, which involves generation, distribution, and use of electrical power in a safe and sustainable manner. The course covers areas such as renewable generation, transmission, distribution, plant automation, motor control, power systems planning, and industrial management. It emphasizes applications and project work, supported by cutting-edge lab equipment and field trips to major employers. Students undertake a minimum of 7 weeks of work placement, allowing practical exposure to professional environments and work practices. The program aims to develop graduates capable of contributing to sustainable energy solutions, with a focus on smart grids and renewable resources. Accredited by Engineers Ireland, this course combines theoretical knowledge with practical experience to prepare students for careers in electrical power and automation systems.

Why this course is highly recommended

Graduates from this program are highly employable, with opportunities in energy generation, distribution, industrial services, consultancy, and automation. Given the global emphasis on reducing greenhouse gas emissions and increasing renewable energy use, electrical engineers will play a crucial role in future infrastructure development for sustainable energy systems, electric transportation, and heating solutions. The course’s strong focus on practical skills, industry-relevant projects, and state-of-the-art facilities makes it an excellent choice for students interested in contributing to environmentally sustainable energy solutions.

Specialisation

The course focuses on several key areas, including renewable generation, power transmission and distribution, plant automation, motor control, and industrial management. It equips students with specialised knowledge relevant to electrical power systems and automation, aligning with current trends towards sustainable energy and smart grid technology.

Course fees

Application fees

1st year tuition fees

12.19L

Living cost

Degree requirements

Applicants need to achieve 321 points in 2024 and meet the minimum entry requirements, including five subjects at O6/H7 level, with Mathematics and either English or Irish also at O6/H7. For a progression to the final year, suitably qualified students can move on to the Bachelor of Engineering (Honours) in Electrical Engineering.

English language test

IELTS

PTE

TOEFL

DUOLINGO

110

Career prospects

Graduates find employment opportunities across energy generation and distribution, industrial electrical services, consultancy, project management, and automation sectors. The focus on renewable energy, smart grids, and sustainable infrastructure will notably increase demand for electrical engineers, offering a broad and dynamic job market.

FAQs

What is the difference between electronic engineering and electrical engineering?

Electronic engineering deals with small-scale, low-voltage components, microchips, and programming, whereas electrical engineering focuses on high power applications like mains electricity, generation, transformers, and automation.

What level of mathematics is required?

A minimum of Grade O6/H7 in mathematics is required, but a higher grade is recommended as mathematics is fundamental in solving complex engineering problems.