This
professional development course is designed for engineers and technicians who
need to understand the theoretical and practical aspects of mechanical sealing
Course Details
This
comprehensive and interactive course will teach you the fundamentals and
principles of mechanical seals, followed by the classification, construction,
and design of the mechanical seals. You will learn how to select seals for a
variety of specific and special
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industrial applications for a variety of equipment and
materials based on various standards. You will also learn about environmental |
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considerations as per the API standards. |
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The course is
composed of 12 modules, covering topics such as environmental considerations
related to seals as per API 610 and 682, design, installation, and
troubleshooting of seals, and how to maximize mechanical seal life. It will
also demonstrate the classification of various seals, including special seal
types, considerations related to the materials used in seal construction, and
selection, operation, and maintenance strategies.
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EIT410 Professional Certificate of Competency in Practical Machine
Learning Using Python for Engineers & Technicians
Course Overview
This
professional development course is designed for engineers and technicians who
need to harness machine learning technologies in their engineering work or
become better problem solvers through the application of machine learning. This
course will teach you to use Python Programming to work with machine learning
applications and to apply supervised and unsupervised machine learning to
engineering problems.
Course Details
Machine
learning is undoubtedly one of the most exciting technologies in recent times.
Both large and small companies are embracing it with tremendous results. If you
are keen to harness machine learning technologies in your engineering work,
become a better problem solver, or are perhaps considering a career in machine
learning, then this program is for you.
There are many programs out there,
but this one focuses on engineering and industrial applications.
The
best way to learn the technologies is to work through practical examples of
machine learning in a systematic way. Two types of machine learning will be
tackled in this program: supervised learning and unsupervised learning.
Supervised
learning is where we learn the relationship of given inputs to a set of
outputs. For example, how different sensor inputs for a process plant can
predict the likelihood of a breakdown of a pump or requirement for maintenance
on an item of equipment. You already know how to classify the earlier input
data to previous breakdowns of the pump; so, you want to use new input data to
predict this event so that you can act before it actually
happens. Algorithms that you will learn about here include linear
regression, logistic regression, discriminant analysis, decision trees, Naïve
Bayes, support vector machines, and random forests.
Unsupervised
learning occurs when there is no pre-defined relationship between input data
and an output variable. An example here would be to take sensor data from
hundreds of similar industrial plants, then asking the algorithm to patterns and
classify the data. You want your algorithm to any patterns and to do the classification
of the data for you. Algorithms that you will learn about here include K-means
clustering and Gaussian Mixture models.
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EIT411 Professional Certificate of
Competency in Sewage & Effluent
Treatment Technologies
Course Overview
This
professional development course is designed for engineers and technicians who
need practical skills and knowledge in maintaining and troubleshooting
wastewater systems.
Course Details
This course
will cover wastewater fundamentals and treatment technologies used to maintain
the quality of groundwater. You will learn to manage and troubleshoot
wastewater treatment systems and understand the different systems available.
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EIT412 Professional Certificate of Competency in Advanced
TCP/IP-Based Industrial Networking
Course Overview
This
professional development course is designed for engineers and technicians who
need practical knowledge in the design and troubleshooting of Industrial
Ethernet networks, as well as the selection, installation, and configuration of
components such as routers and switches.
Course Details
This course deals in depth with the underlying TCP/IP protocols,
and speci cally addresses both design and
con guration issues related to IPv4 and the more
recent IPv6.
It also covers the more advanced aspects and applications
of Ethernet such as advanced switching and routing, CCTV over IP, Modbus,
Industrial Security, Intrinsically Safe applications, switched rings (including
the latest IEC 62439-3 redundant ring standard), and highly-deterministic
Ethernet-based eld buses (e.g., for servo control) capable of 1-millisecond
repetition rates and jitter of less than 1 microsecond. It is highly practical,
with access to remote laboratories and cutting-edge simulation software,
allowing you to achieve hands-on outcomes
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EIT413 Professional Certificate of Competency in Allen Bradley ControlLogix
/ Logix5000 PLC Platforms
Course Overview
This
professional development course is designed for engineers and technicians who
need practical knowledge in operating and navigating RSLogix
5000 software and associated platforms
Course Details
This course
concentrates on Rockwell RSLogix5000 and the platforms using this software. It
is designed to give you the tools necessary to confidently create and program
projects, focussing on design, implementation, and maintenance. It begins with
an explanation of the basics of control systems, why we use them, and the
various practical aspects of a Rockwell PLC. Different programming techniques,
fault finding, and correcting faults are also covered in detail.
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EIT414 Professional Certificate of Competency in Big Data and
Analytics in Electricity Grids
Course Overview
Energy and
utilities are taking advantage of the technology boom! They are turning
knowledge into power by using big data & analytics in informing their
decision making and customer journey. This course explores the use of big data &
data analytics in electricity grids using applied industry focused case
studies.
Course Details
The 12-week
part-time course, led by an industry expert will provide you with a practical,
in-depth view of the use of data analytics and machine learning to solve
problems in electricity production and distribution.
55%
of companies have already adopted Big Data analytics to reduce overall cost and
increase pro t. With this in mind, this program has been
tailored to equip you with the skills and knowledge to stand out from the crowd
and harness the power of big data, working at the forefront of a fast-growing,
dynamic, and future proof eld.
The course will
cover the foundations of data analytics including data acquisition,
pre-processing, and visualization. You will learn how to make use of powerful
machine learning models such as Arti cial Neural
Networks and decision trees.
By the end of
the program, you will be able to identify problems that could be solved using
data analysis and machine learning, and you will be able to develop solutions
to such problems.
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EIT415 Professional Certificate of Competency in Chemical
Engineering & Plant Design
Course Overview
This
professional development course is designed for engineers and technicians who
need practical knowledge in the fundamentals of chemical engineering, including
plant layout and procedures.
Course Details
Process plants,
such as refineries and petrochemical plants, are complex facilities consisting
of equipment, piping systems, instruments, electrical systems, electronics,
computers, and control systems. The design, engineering, and construction of
process plants involve a multidisciplinary team effort.
Process design,
plant layout, and design of piping systems constitute a significant part of the
engineering effort. The objective is to design safe and dependable processing
facilities cost-effectively.
This course
provides you with the necessary knowledge and skills in the disciplines of
chemical engineering and plant design to facilitate faster learning curves
while on the job. Upon completion of this course, you will have a clear
understanding of the design and engineering principles used in the design of
process plants.
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EIT416 Professional Certificate of Competency in Fundamentals of
Road Construction
Course Overview
This
professional development course is designed for engineers and technicians who
need to understand the fundamentals of site investigation and operations in
road construction.
Course Details
This course is
designed to provide a clear understanding of the factors involved in the
planning and construction of roads. It gives participants a combination of
theoretical knowledge and practical experience in construction, operability,
design, and maintenance of road facilities.
The course
covers the construction of a road to the alignment, gradient and cross falls
selected by the designer, which often involve a considerable amount
of earthworks. The operations necessary for setting out and control of
earthworks are described and elaborated on together with a brief outline of the
elements involved in a geometric design.
The course also
presents the operations involved in the loosening, removing, and depositing of
earth, soil, and rock. It provides information on the construction of
earthworks and the preparation of pavement foundations subsequent
to the construction of a pavement structure.
Furthermore,
roadside construction is also covered, including access for the construction
and maintenance of the road, control of surface water drainage, the provision
of underground drainage, the provision of safety barriers, and signs and
lighting for the safe operation of the road. Worked examples and case studies
are used throughout to facilitate practical learning.
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EIT417 Professional Certificate of
Competency in Arc Flash Protection
Course Overview
This professional development course is designed for
engineers and technicians who work in the electrical eld. It will help you
understand the importance of the proper design of electrical equipment in
avoiding arc ash incidents and ensuring safety in the event of an arc ash
Course Details
Electrical
safety is a critical issue for those working on electrical facilities in
utility networks and large industrial installations. Several serious accidents,
including fatalities, occur every. Arc ashes in electrical equipment are now
considered one of the major causes of electrical accidents — even surpassing
the well-known hazards of electric shock.
Avoiding arc
ash incidents and the resulting injuries is one of the biggest challenges facing
electrical workers. It requires adequate attention in the stages of system
planning, design, installation, operation, and maintenance. Today, a
considerable body of knowledge exists as a result of research efforts, and is available to designers and maintenance
engineers in the form of standards such as IEEE 1584 and NFPA 70E.
This course
will detail the basis of this approach, and also the signi
cant advances that have been made in the area of
Personal Protective Equipment made of Fire Resistant fabrics and rated for
different levels of thermal exposure.
Prevention,
however, remains the best form of protection, and switchgear manufacturers have
made considerable design advances to ensure that the effect of arc ash
incidents is contained within the enclosure of switchgear (often called arc ash
resistant switchgear). Methods of testing such switchgear have also evolved
simultaneously.
Another
critical factor is the approach to avoid arc incidents within the switchgear by
proper design and maintenance and techniques to reduce the severity of the ash
should such incidents occur. These will form the key focus areas of this course
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EIT418 Professional Certificate of
Competency in Hydraulics and Pneumatics
Course Overview
The course will
provide students a comprehensive overview of all aspects related to the
construction, design, operation, and maintenance of hydraulic and pneumatic
systems. Students will develop the requisite knowledge and skills to interpret,
design and troubleshoot simple hydraulic and pneumatic circuits.
. Course Details
Hydraulics and pneumatic machines are the
backbones of a range of industries including manufacturing, construction,
mining, oil & gas. This course explores the design, construction, operation and maintenance and troubleshooting of these most
versatile machines.
Students
will obtain a comprehensive overview of all aspects related to the
construction, design, operation, and maintenance of hydraulic and pneumatic
systems. Students will develop the requisite knowledge and skills to interpret,
design and troubleshoot simple hydraulic and pneumatic circuits.
Led by an industry expert, this 12 week course will provide you a practical, in-depth view
of hydraulic and pneumatic systems.
Course content
includes concepts related to pressure and ow; the operation of hydraulic and
pneumatic system components – such as actuators and control valves; simple
circuits for hydraulic and pneumatic applications; the characteristics of
hydraulic oil and air; proportional and servo technology in regard to
electro-hydraulic systems; and, troubleshooting
procedures.
After completing
this course, students will have requisite knowledge and skills to interpret and
design hydraulic and pneumatic circuits and systematically troubleshoot system
faults and undertake corrective measures.
Additionally,
if you apply and are accepted into the EIT Bachelor of Science (Mechanical
Engineering) you will obtain a credit for the BME106S Hydraulics and
Pneumatics upon successful completion of this Professional Certificate of
Competency
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EIT419 Graduate
Certificate in Renewable Energy Technologies
Course Overview
This advanced
program is delivered with a strong emphasis on vocational application and aims
to impart practical and advanced knowledge. It is a high-level qualification
designed for those who have already attained an undergraduate degree or can
demonstrate significant industry experience combined with continuing
professional development. Upon completion of this program, you will gain skills
and knowledge in the latest advanced technologies in power generation through
renewable energy technologies.
Program Details
The Graduate
Certificate in Renewable Energy Technologies is an advanced program, presented
at a considerably higher level than the advanced diploma and bachelor’s degree
level programs. This program has equal standing and level to that of a
university Graduate Diploma but focuses on the career outcomes of a
professional engineer and technologist. It has a higher vocational or ‘job
related’ emphasis and focuses more on developing practical skills that you can
apply to the workplace, rather than theory alone.
This program is
designed for students who aim to build up their theoretical and practical
knowledge in the eld of standalone and grid-connected photovoltaic systems,
hydro-electric power generation systems, and wind power plants. The course will
also enhance your learning experience in energy storage systems, distributed
generation systems as well as non-mainstream renewable energy technologies used
for power generation.
The program
deals with practical issues of renewable energy that will confront an advanced
practitioner in the eld. For example, you will be expected to critically
analyse the characteristics of solar irradiation, wind, and water as energy sources.
You will also examine and investigate photovoltaic systems, wind farms and
hydro-electric plants in terms of construction and operation mode, system
design requirements and characteristics of turbine, generator and auxiliary
equipment used for system installation and interconnection to the grid.
While studying
this program, you will also evaluate and investigate the technologies used for
solar thermal electricity generation, and model and simulate wind power plants
and carry out analysis on wind farm siting and sizing. This graduate certificate
also covers how to identify and outline the fundamental principles of fuel
cells, biomass, biofuel, geothermal, hydrothermal, wave and tidal power,
osmotic, hybrid wind-diesel, and low-energy nuclear reaction systems; compare and contrast characteristics of these systems.
Finally, you will learn to analyse the economic impacts of renewable energy
systems; address technical problems faced by electric grids with large-scale
distributed generator units.
There is a definite
ongoing need for highly qualified and skilled specialists in the renewable
engineering eld, and this program caters to that need. Upon completing this
program, you will be able to show technical leadership in the eld of renewable
energy and be known as an advanced practitioner in the field.
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EIT501 Graduate Certificate in Civil -
Railways Infrastructure Engineering
Course Overview
This graduate certificate will equip you with the
necessary skills to address the demands of the railway engineering industry.
You will receive high-level professional and technical development from
engineers working with track and the infrastructure in the rail corridor. Upon
completion of this program, you will gain skills and knowledge in the latest
and developing technologies in railway infrastructure
Program Details
The billions of
dollars’ worth of public and private resources invested in rail track
infrastructure around the world demand a well-trained and competent engineering
workforce for the safe and ef cient
operation of the track and associated assets. However, developments over the
past twenty years, such as downsizing of public railway authorities, increased
retirement of experienced employees, privatization, and the rapid expansion of
the rail industry have left engineers with severely limited pathways to upskill
themselves quickly.
Through EIT’s
online delivery, railway engineers can study this Graduate Certi
cate from anywhere in the world. The blend of differing railway contexts,
operating standards, practices, and policies experienced by these engineers
living in many countries will provide a unique learning opportunity for them as
they interact with each other throughout the degree.
The program is
delivered using a wide range of learning activities such as live webinars,
written assignments, and remote laboratories. These experiences aim to get the
students interacting via technology-based learning experiences that highlight
shared skills and knowledge derived from the many cultural and technical
contexts in which the students are working.
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EIT502 Graduate Certificate in Electrical and Instrumentation in Oil
and Gas Engineering
Course Overview
This graduate
certificate will equip you with the necessary skills to enhance your career in
the onshore and offshore oil and gas industry. Upon completion of this program,
graduates will have understanding of fundamental and
some advanced knowledge in a range of engineering sub-disciplines to
investigate, interpret, solve problems, manage and lead projects.
Program Details
Graduates will
gain an understanding of fundamental and some advanced knowledge in a range of
engineering sub-disciplines to investigate, interpret, solve problems, manage and lead projects.
Furthermore,
graduates will be able to identify, critically analyse and creatively solve intellectually
complex, specialised professional engineering problems in industrial and
instrumentation process, analyse functional safety lifecycle management in
accordance with relevant standards.
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EIT503 Graduate Certificate in CAD and
Computational Techniques
Course Overview
This Graduate
Certificate in CAD and Computational Techniques will provide you with an
opportunity to develop your expertise in Computer Aided design
(CAD), analyze problems related to fluid dynamics and
aerodynamics; apply finite element method to analyze fluid
flow, thermal and structural engineering systems.
It offers an opportunity for industry professionals in the
eld to enhance their knowledge and skills in CAD and Computational Techniques
without having to complete a full Master’s degree in
mechanical engineering.
Program Details
Computational
methods are at the forefront of industrial evolution, particularly in
mechanical and manufacturing engineering. The Graduate Certificate in CAD and
Computational Techniques covers knowledge and skills underpinning finite
element method, advanced fluid dynamics and aerodynamics. This certi cate will also prepare you to use CAD to design
innovative and efficient engineering solutions.
The learning
outcomes of the course is designed to equip students with professional
engineering skills and knowledge to formulate the models necessary to study, analyze, and design efficient engineering systems through
the application of these concepts, communicate the solutions effectively and to
develop the problem-solving skills essential to good engineering practice.
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EIT504 Graduate Certificate in Civil
Transportation Engineering
Course Overview
The Graduate
Certificate in Civil Transportation Engineering addresses the specific core
competencies and associated underpinning knowledge required of urban and
transportation engineers. The course offers 4 units to provide the knowledge
and skills required to become competent and con dent engineers. Students with a
background in civil, construction, transport and systems engineering will
especially bene t from this program as it prepares them for further career
development in the urban and transport industries.
This course
will improve your knowledge and skills of current maintenance practices of
Civil Transportation. In addition, you will learn the concepts and principle of
sustainability in Transport Engineering. Importantly, you will be discussing
the transportation polices and responsibility. This course will equip you with
the general knowledge related to design and construction of road structures.
Program Details
Society has
come to enjoy and rely upon the benefits that engineering
and technology bring to our daily lives. The society in which we live today is
fundamentally dependent on transportation and the urban environment in which the majority of human beings now live. The Graduate Certificate
in Civil Transportation Engineering therefore addresses a very fundamental
requirement in our society: the ability to provide transportation services
coupled with the ability to house people in urban areas that are well-designed
and effective.
The curriculum
addresses a diverse range of topics geared to producing well-rounded graduates
who are equipped with the knowledge that employers require in
order to put graduates to work. The curriculum was developed in close
consultation with practitioners who were asked to propose topics that they
considered to be of most value to them as employers.
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EIT505 Graduate Certificate in Fluid
Power Engineering
Course Overview
This Graduate
Certificate in Fluid Power Engineering will provide you with an opportunity to
design, test and work with fluid dynamic principles, hydraulic and pneumatic
systems, process engineering in the context of industrial applications of these
mechanical engineering domains.
It offers an
opportunity for industry professionals in the eld to enhance their knowledge
and skills in fluid power systems without having to complete a full Master’s degree in mechanical engineering.
Program Details
Fluid power
industry is one of the fastest growing engineering sectors today. The Graduate
Certificate in Fluid Power Engineering covers knowledge and skills needed to
work with process operations and fluid power systems. You will gain an in-depth
understanding of industrial hydraulic and pneumatic systems, including design
optimization, operations, troubleshooting and maintenance. You will also
understand, analyze and
evaluate application of various pumps, compressors, turbines and drives used in
oil & gas, mining, minerals processing industries.
The learning
outcomes of the course are designed to equip the students with professional
engineering skills and knowledge to formulate the models necessary to study, analyze, and design process ow diagrams, piping and
instrumentation diagrams and fluid systems through the application of these
concepts, and to develop the problem-solving skills essential to good
engineering practice of fluid dynamics in practical real-world application.
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EIT506 Graduate Certificate in
Industrial Instrumentation and Process Control
Course Overview
EIT Course Code: GCIP
This
Graduate Certificate in Industrial Instrumentation and Process Control will
provide you with an opportunity to develop your expertise in process
engineering, gain in-depth understanding of process control for automated
industrial systems
and
analyze problems related to industrial
instrumentation as well as gain a deep understanding of the key principles
ranging from nature of multivariable systems, process models to interaction
analysis, loop pairing and relative gain arrays.
It offers an opportunity for industry professionals in the
eld to review, refresh and enhance their knowledge and skills in Industrial
Instrumentation and Process Control without having to complete a full Master’s degree
Program Details
The Graduate
Certificate in Industrial Instrumentation and Process Control covers knowledge
and skills underpinning the principles of unit operations, unit processes, fluid
transport, and control required to apply these principles to Industrial control
and instrumentation systems and make the systems efficient through Engineering
solutions.
The learning
outcomes of the course is designed to equip students with professional
engineering skills and knowledge to model solutions to address the issues in
automating industrial operations, design the system in an efficient manner
through application of these concepts, communicate the solutions effectively
and develop the problem-solving skills essential to good engineering practice
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EIT507 Graduate Certificate in
Industrial Instrumentation and Safety Systems
Course Overview
This Graduate
Certificate in Industrial Instrumentation and Safety Systems will provide you
with an opportunity to develop your expertise in Programmable Logic Controllers
and industrial instrumentation, gain in-depth understanding of process control
for automated industrial systems and apply the concept of functional safety for
reducing safety risks associated with the incorrect operation of industrial
programmable systems.
It offers an
opportunity for industry professionals in the eld to review, refresh and
enhance their knowledge and skills in Industrial Instrumentation and Safety
Systems without having to complete a full Master’s
degree.
Program Details
A key area of
industrial engineering is safety system design. The Graduate Certi cate in Industrial Instrumentation and Safety Systems
covers knowledge and skills underpinning the fundamentals of programmable
controllers used in industrial automation as well as gain perspective on the
applicable regulatory and standards framework for a range of industry sectors,
required for verifying and assure Safety Instrumented Systems performance
across the safety life cycle in accordance with internationally recognized standards.
The learning outcomes of the course is designed to equip
students with professional engineering skills and knowledge to model solutions
to Engineering problems related to designing a typical process instrumentation
system by using graphical symbols and numbering codes in accordance with the
International Standards as well as address the issues in designing and
specifying safety control systems for an industrial process control application.
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EIT508 Graduate Certificate in Process
and Thermal Engineering
Course Overview
This Graduate
Certificate in Process and Thermal Engineering will provide you with an
opportunity to design, test and work with pumps, compressor, turbines,
heat
exchangers, industrial gas turbines and process engineering technologies in the
context of mechanical engineering.
It offers an
opportunity for industry professionals in the eld to enhance their knowledge
and skills in process and thermal engineering without having to complete a full
Master’s degree in mechanical engineering.
Program Details
One of the key
challenges in the 21st century for the engineering industry is energy with
thermal and process engineering being a key area supporting to overcome these
challenges. The Graduate Certificate in Process and Thermal Engineering covers
knowledge and skills underpinning energy storage, transfer
and conversion. This certificate will also prepare you to understand, analyze and evaluate application of various pumps,
industrial gas turbines, heat exchangers, compressors, turbines
and drives used in oil & gas, mining, and minerals processing industries.
The learning
outcomes of the course is designed to equip students with professional
engineering skills and knowledge to formulate the models necessary to study, analyze, and design thermal systems through the application
of these concepts, and to develop the problem-solving skills essential to good
engineering practice in practical real-world application
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EIT509 Graduate Certificate in
Programmable Logic Controllers and SCADA
Course Overview
This Graduate
Certificate in Programmable Logic Controllers and SCADA (Supervisory control
and data acquisition) will provide you with an opportunity to develop your
expertise in Programmable Logic Controllers, gain in-depth understanding from
the fundamentals to advanced concepts and technologies used in contemporary
SCADA systems and DCSs (Distributed Control System), as part of the industrial
communication systems.
It offers an opportunity
for industry professionals in the eld to review, refresh and enhance their
knowledge and skills in PLC, SCADA and control systems without having to
complete a full Master’s degree.
Program Details
Programmable
Logic Controllers and SCADA play a key role in the Industrial Automation
Engineering. The Graduate Certificate in Programmable Logic Controllers and
SCADA covers knowledge and skills covers knowledge and skills underpinning the
fundamentals of programmable controllers used in industrial automation as well
as apply their knowledge for their operation, networking, distributed
controllers, and programming control strategies. Additionally, the program will
introduce students to SCADA systems hardware and software, a review of typical
DCS and SCADA systems, examines DCS controllers and configuration.
The learning
outcomes of the course is designed to equip students with professional
engineering skills and knowledge to address issues with the evaluation and
design of programmable controllers (associated with hardware equipment) for
designing an industrial process automation solution as well as planning and
managing the selection, design, installation, configuration
and programming for supervisory needs in the control of process plants.
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EIT510 Graduate Certificate in
Industrial Automation Engineering
Course Overview
This graduate certificate
is inspired and driven by industry, with a strong theoretical underpinning.
Concept relevance and knowledge that is critical in this fast-moving work
environment has propelled the program design process. Upon completion of this
program, you will gain skills and expertise in the latest developing
technologies in instrumentation, process control, and industrial automation.
Program Details
There
is a global shortage of automation, instrumentation, and control engineers. Due
to the rapid growth of new industries and technologies, industrial processes
are becoming increasingly automated. Previously mechanized systems that
required human intervention now use computerized control systems for higher
accuracy, precision, and cost-effectiveness.
Industrial
automation is one of those expanding streams of engineering with an
increasingly profound influence on most industries and enterprises. This
graduate certificate will provide you with advanced skills in Industrial
Automation. Students with a background in electrical, mechanical,
instrumentation and control, or industrial computer systems engineering can
bene t from this program.
The content has
been carefully designed to provide you with relevant concepts and the tools
required in today’s fast-moving work environment. Our Programmable Logic
Controllers unit covers in-depth principles of operation of PLCs, networking,
distributed controllers, and program control strategies. The unit on industrial
process control systems combines the process identification and feedback
control design with a broad understanding of the hardware, system
architectures, and software techniques widely used to evaluate and implement
complex control solutions.
Our industrial
instrumentation unit identifies key features of widely used measurement
techniques and transducers combined with microprocessor devices to create
robust and reliable industrial instruments. Undertaking process engineering
will enable you to evaluate and apply complex process calculations through the
application of control principles.
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EIT601 Master of Engineering (Electrical & Instrumentation in
Oil & Gas)
Course Overview
The Master of
Engineering (Electrical and Instrumentation in Oil and Gas) is a comprehensive
qualification for Design, Installation, Commissioning and Maintenance Engineers
who are looking for a career in the onshore and offshore oil and gas industry.
Upon completion of this program, you will gain skills and knowledge in the
latest and developing technologies in electrical and instrumentation in oil and
gas.
Program Details
This program
addresses the specific core competencies and associated underpinning knowledge
required for the position of Principal Engineer.
The units in
this degree cover electrical & instrumentation (E&I) engineering, its
design, and the management of E&I personnel. Other topics include; process control, process safety lifecycle
management, the safety integrity of facilities, power engineering, maintenance
management, and specialist areas such as emergency shutdown systems, re, and
gas. The program is rounded off with a unit on project management.
The master’s
project thesis, as the capstone of the program, requires a high level of
personal autonomy and purpose; it reinforces the knowledge gained during the
degree. As a significant research component of the program, this project
requires students to examine and explore their subjects, make critical
evaluations, and apply their knowledge and skill. It aims to prepare and enable
students to critique and potentially enhance current professional practice in
the oil and gas industry.
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EIT602 Master Of Engineering (Industrial Automation)
Course Overview
This master’s
qualification is inspired and driven by industry, with a strong theoretical
underpinning. Concept relevance and knowledge that is critical in this
fast-moving work environment has propelled the program design process. Upon
completion of this program, you will gain skills and expertise in the latest
developing technologies in instrumentation, process control, and industrial
automation
What you will gain from this course :
Master of
Engineering (Industrial Automation) qualification Deepen your technical
knowledge in Industrial Automation Engineering Learn from industry
practitioners
Program Details
There is a global
shortage of automation, instrumentation, and control engineers due to the rapid
growth of new industries and technologies.
The Master of
Engineering (Industrial Automation) addresses the growth and new technologies
in the Industrial Automation industry. The Master of Engineering (Industrial
Automation) course offers twelve core modules and a project thesis to provide
the knowledge and skills required for this industry. Students with a background
in electrical, electronics, mechanical, instrumentation & control, or
industrial computer systems engineering would bene t from this program as it
prepares them for automation in the process and manufacturing industries.
Industrial
Automation Introduction provides the fundamental knowledge that is essential in
the automation area. Power Engineering covers major equipment and technologies
used in power systems, including power generation, transmission
and distribution networks. Programmable Logic Controllers covers in-depth
principles of operation of programmable controllers, networking, distributed
controllers, and program control strategies. Industrial Process Control Systems
combines the process identification and feedback control design with a broad
understanding of the hardware, system architectures and software techniques
widely used to evaluate and implement complex control solutions.
Furthermore,
Industrial Instrumentation identifies key features of widely used measurement
techniques and transducers combined with microprocessor devices to create
robust and reliable industrial instruments. Industrial Data Communications
provides the requisite knowledge to manage modern eld buses and industrial
wireless systems. Safety Instrumented Systems introduces the common safety
philosophy of hazard identification, risk management and risk-based design of
protection methods and functional safety systems. SCADA and DCS cover hardware
and software systems, evaluation of typical DCS and SCADA systems and
configuration
of DCS controllers. Advanced Process Control covers advanced control systems, algorithms and applications. Machine Learning for Industrial
Automation provides the intelligent control basics in the automation area
The
Project Thesis, as the capstone of the course, requires a high level of
personal autonomy and accountability, and reinforces the knowledge and skill
base developed in the preceding subjects. As a significant research component
of the course, this project will facilitate research, critical evaluation and
the application of knowledge and skills with creativity and initiative,
enabling students to critique current professional practice in the Industrial
Automation industry.
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EIT603 Master of Engineering (Safety,
Risk & Reliability)
Course Overview
Modern
engineers face an intriguing set of challenges when tackling uncertainty, and
they have developed some of the smartest methods, tools, techniques, and
approaches for understanding system safety, risk, and reliability. The Master
of Engineering (Safety, Risk, and Reliability) is the ideal gateway to boost
your capacity to tackle these real-world, increasingly complex issues. Upon
completion of this program, you will gain skills and knowledge in the latest
and developing technologies in safety, risk, and reliability.
Program Details
A powerful
force is driving industrial growth and change, and it’s only getting stronger.
That force? Uncertainty. Society increasingly demands more efficient transport,
more power production, safer energy exploration and processing, less waste,
smarter products, and of course, all at lower costs. All these demands display
uncertainty and how we need to manage it through engineering, science, and
technology.
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 in scale
of nanotechnologies in bionic engineering. Currently, people are at the heart
of many hazardous work environments, exposed to the consequences of
uncontrolled events. Still, 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.
This program
has been carefully designed to accomplish three key goals. First, a set of
fundamental concepts is described in useful, manageable ways that encourage
rapid and integrated knowledge-acquisition.
Second, that
knowledge is applied in creative and imaginative ways to afford practical,
career-oriented advantages. Third, the learning that results from the
integration of knowledge and application is encouraged by activities and
projects, culminating in a project thesis that is the capstone of the program.
This carefully
designed learning journey will develop an accurate understanding and also exercise the participant’s creativity and
design-thinking capabilities. Employers are hungry for these skills, and
program graduates can expect a significant advantage when interacting with
employers, clients, consultants, and fellow engineering peers
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EIT604 Master of Engineering (Civil:
Railway Infrastructure)
Course Overview
The Master of
Engineering (Civil: Railway Infrastructure) will equip you with the necessary
skills to address the demands of the railway engineering industry. You will
receive high-level professional and technical development for engineers working
with track and the infrastructure in the rail corridor. Upon completion of this
program, you will gain skills and knowledge in the latest and developing
technologies in railway infrastructure.
Program Details
The billions of
dollars’ worth of public and private resources invested in rail track
infrastructure around the world demand a well-trained and competent engineering
workforce for the safe and ef cient
operation of the track and associated assets. However, developments over the
past twenty years, such as downsizing of public railway authorities, increased
retirement of experienced employees, privatization, and the rapid expansion of
the rail industry have left engineers with severely limited pathways to upskill
themselves quickly.
This
degree has been developed by railway experts to address the speci
c needs of the industry. The industry focus of the degree is enhanced through
the expectation that students will be employed in the railway industry during
all or part of their studies. The units in this master’s degree were structured with this very purpose in mind.
This optimal
mix of academic and industry-based learning provides engineers with more
advanced skills and knowledge much faster than workplace training can do.
Through EIT’s
online delivery, railway engineers can study the degree from anywhere in the
world. The blend of differing railway contexts, operating standards, practices,
and policies experienced by these engineers living in many countries will
provide a unique learning opportunity for them as they interact with each other
throughout the degree.
Despite the
very diverse locations of railway infrastructure engineers, the course
coordinators and lecturers work hard to build a sense of professional community
among the students.
The program is
delivered using a wide range of learning activities such as live webinars,
written assignments, case studies, team projects, remote laboratories, and
more. These experiences aim to get the students interacting via
technology-based learning experiences that highlight shared skills and
knowledge derived from the many cultural and technical contexts in which the
students are working.