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Masters

A Masters with EIT

Undertaking an engineering masters with the Engineering Institute of Technology is an enriching experience...

 

Industrial Automation

There is a critical global shortage of automation, instrumentation and control engineers due mainly to restructuring and rapid growth of new industries and technologies. The respected International Society of Automation (ISA) estimated that at least 15,000 new automation engineers are needed annually in the USalone. Many industrial automation businesses throughout the world comment on the difficulty in finding experienced automation engineers despite paying outstanding salaries. The Master of Engineering (Industrial Automation) perfectly addresses this gap in the Industrial Automation industry. The program's twelve core units, and project thesis, provide you with the practical knowledge and skills required. Students with a background in electrical, mechanical, instrumentation and control, or industrial computer systems engineering can benefit from this program.

Industrial Automation On Campus

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Electrical Systems

Electrical power is an essential infrastructure of our society. Adequate and uninterrupted supply of electrical power of the required quality is essential for industries, commercial establishments and residences; and almost any type of human activity is impossible without the use of electricity. The ever-increasing cost of fuels required for power generation, restricted availability in many parts of the world, demand for electricity fueled by industrial growth and shortage of skilled engineers to design, operate and maintain power network components are problems felt everywhere today. The Master of Engineering (Electrical Systems) is designed to address the last-mentioned constraint, especially in today ’s context where the field of electrical power is not perceived as being ‘cool ’unlike computers and communications and other similar nascent fields experiencing explosive growth. But it is often forgotten that even a highly complex and sophisticated data centre needs huge amounts of power of extremely high reliability, without which it is just so much silicon (and copper). Click here for further information.

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Safety, Risk and Reliability

The Master of Engineering (Safety, Risk and Reliability) is the ideal gateway to boost your capacity to tackle real world increasingly complex issues. In the 21st century, industry will routinely deal with novel hazardous processing technologies, complex energy grid load-balancing from renewables, driverless cars, artificial vision to augment control and feedback in sub-sea exploration –and the infinitesimal scale of nanotechnologies in bionic engineering. Currently, people are at the heart of many hazardous work environments, exposed to the consequences of uncontrolled events; but soon, artificial intelligence will afford more human tasks to be automated (and present a host of newer risks, in exchange for the retired ones). This progress has to be examined in systematic terms –terms that integrate our understandings of technical fallibility, human error and political decision-making. Click here for further information.

Industrial Automation On Campus
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Graduate Certificate in Renewable Energy Technologies

A feature of this program is that in using web collaborative technologies you will not only study and work with your peers around the world on various renewable energy design projects, but you will do this conveniently from your desktop using the latest techniques in live web and video conferencing. The Graduate Certificate in Renewable Energy Technologies focuses on the mainstream technologies viz. photovoltaic, wind and small hydro, but also covers other less common technologies such as biomass, osmotic and tide power generation, among others.

The course deals with practical issues of renewable energy that will confront an advanced practitioner in the field. For example, you will be exposed to the modeling and simulation of wind turbines, and the design of wind farms. You will also be expected to undertake advanced design and conceptualization work in which you will apply the calculations learned in less advanced programs. Some of the work and study you will be undertaking will involve pioneering technology and exploring new approaches. There is a definite ongoing need for highly qualified and skilled specialists in the renewable engineering field and this course caters for that need. Upon completing this program you will be able to show technical leadership in the field of renewable energy, and be known as an advanced practitioner in the field. Click here for further information.

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