Training Systems

The new trend setting

Training system for electrical power engineering

Training Systems

Welcome

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Jörg Ludwig

• Product manager for the

electrical power engineering

• Product manager for

automation technology

• Responsible for the

development of the electrical

power engineering training

system

Training Systems

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Topics of the presentationRenewable Energies

and the need of a Smart Grid

Training solution

Training Systems

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Training concepts and technologies for vocational and advanced training in the area of wind and solar energy including their importance in the so-called „smart grid“. This training content is suitable for universities, colleges, vocational schools and industry.

Schedule

Training Systems

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Sample representation of a conceptual solution Example: Power Engineering with Smart Grid Laboratory

Rotation training with typical industrial components

Parallel training with the Blended Learning concept(UniTrain-I, LAB Soft)Classroom

Manager

SMART GRID systemincluding ILA course

Training on industrialequipment and components

In Politeknik Negeri Swriwijaya

Training Systems

Interactive Lab Assistant - computer-based training

Smart learning platform:

• Interactive literature

• drag and drop of measured

values

• Monitoring of student progress

• PDF documentation

• Creation and editing of Courses

and Tests

• Collection of assignments

• LMS-Support

•ESG 1 Smart Grid

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Training Systems

Sample projects: Colleges Germany

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Projects

Place Topics since

University Dortmund Renewable Energies 2011

CollegeHamm/Lippstadt

UniTrain-I, Electrical MachinesRenewable Energies

2011 +2012

University of Applied Sciences FH Aachen

UniTrain-I Power Lab with Smart Grid Electrical MachinesDrive Technology Trainers

2012

University of Applied Sciences FH Düsseldorf

Renewable Energies 2012

College Hagen Renewable Energies 2013

University of Applied Sciences FH Cologne

Electrical Machines Drive Technology Trainers

2012

University of Applied Sciences FH Südwestfalen, Hagen

Renewable Energies 2012

University of Applied Sciences FH Bonn Rhein Sieg

UniTrain-IMechatronik

2010

Training Systems

Lab practice at German FH (Universities of Applied Sciences)

• Groups of 2-3 students per system

• The groups are working

independently self learning skills

• Each day practical training

(3 hours per group)

• Rotation training

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Training Systems

Lab practice at German FH (Universities of Applied Sciences)

• Self preparation at home with the

course

• 1 engineer as supervisor for the

laboratory

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• Check the standard of learning

electronically at all times

• Integration in LMS (Learning

Management System) like ILIAS or

Moodle

Training Systems

Lab practice at German FH (Universities of Applied Sciences)

• Bachelor and Master thesis

• Research for industry

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• First years basic courses • Second years advanced courses

Training Systems

Conclusion: Lab practice at German FH

Students

• Highly motivated students

• Courses focused on technical

contents

• Independently work for small groups

• Self-learning to high standards

• Practical suitability

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Teacher

• No development of teaching material

necessary

• Highly motivated teachers

• Supervision of the students

• Practical suitability

Training Systems

Sample project: State College Power Engineering Technology G10 Hamburg, Germany

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Services

Systems for training in power electronics and drivetechnology

Systems for training in power engineering and SMART GRID technology

Key facts

Complete outfitting for the drive technology laboratory

Complete outfitting for the power engineering technologylaboratory

Customer's benefits

Acquisition of problem solving skills

Close interaction between theory and practice

Investigation & monitoring of multiple aspects of individual tasks during work with the equipment

Training Systems

Sample project: State College Power Engineering Technology G10 Hamburg, Germany

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Dipl.-Ing. Andreas Stetza (Head of Smart Grid Laboratory)

Mr. Stetza reported, after implementing the LN Courses:

• Highly motivated students

• Courses focused on technical contents

• Independently work in small groups

• No development of teaching material necessary

• Highly motivated teachers

• Supervision of the students

Future Projects:

• Training of colleagues

• Professional exchange with other universities

• Integration in LMS System moodle

• Extension of the smart grid training system with

additional stations

Training Systems

Sample project: Buffalo State College,New York

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Services

Furnishings for the newly built Technology Department

Systems for training in power electronics and drivetechnology

Key facts

Complete outfitting for the drive technology laboratory

Complete outfitting for the power engineering technologylaboratory

Customer's benefits

Acquisition of problem solving skills

Close interaction between theory and practice

Investigation & monitoring of multiple aspects of individual tasks during work with the equipment

Training Systems

Sample project: Buffalo State College,New York

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Ilya Grinberg, Professor at the Technology Department

“The Electric Machines laboratory courses, for example, are

mandatory for all Bachelor engineering students at our

university, regardless of their particular discipline.

Here we will use the UniTrain-I courses to provide students

with a solid technical grounding. Advanced students, and in

some cases those working on projects for their graduate

thesis, will use Lucas-Nülle advanced systems for drive

technology.

The fact that the systems offer such a broad range of

applications is important to us. It allows us to carry out

experiments that tie in with theoretical instruction while also

covering more advanced research work as well – an added

value which, to my knowledge, is not offered by any other

manufacturer.“

Training Systems

Sample projects: Indonesia

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Projects

Politeknik Negeri Sriwijaya Palembang

Lhokseumawe State Polytechnic

Politeknik Negeri Makassar

Syiah Kuala University (Unsyiah)

Key facts

Complete outfitting for the power engineering technologylaboratory

Customer's benefits

Acquisition of problem solving skills

Close interaction between theory and practice

Investigation & monitoring of multiple aspects of individual tasks during work with the equipment

Training Systems

Renewable Energies in the (Smart) Grid

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Training Systems

Renewable Energies - Photovoltaics

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Training Systems

Renewable Energies - Photovoltaics

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Training Systems

Power Engineering Lab

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Photovoltaics (UniTrain-I)

Your benefits:

• Multimedia Courses

• Characteristic for a solar cell

• Various types of solar plant

• Design of an insular network with solar cells

Training Systems

Renewable Energies - Photovoltaics

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EPH 2 Advanced Photovoltaics

Your benefits:

• Multimedia Courses

• Design of PV systems in an

isolated power network

• Design of PV systems in parallel

network operation

• Integration in Smart Grid

Training Systems

Video LN – The Photovoltaic Trainings Solution

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Training Systems

Renewable Energies – Wind power plants

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Training Systems

Renewable Energies – Wind power plants

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26%

20%

12%

9%

7%

3%

3%3%

2%2%

13%

Total installed Wind Power (2012)(Total: 238,251 GW)

China

USA

Germany

Spain

India

Italy

France

United Kingdom

Canada

Dänemark

Training Systems

Renewable Energies – Wind power plants

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Your benefits:

• Operate the generator with

varying wind force levels

• Determine optimum operating

points under changing wind

conditions

• Investigate the operating

response during mains

malfunctions “Fault ride through”

• Generation of a wind profile

for analyze the smart grid

EWG 1 Wind power plants

Training Systems

Video LN – The Wind Power Trainings Solution

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Training Systems

EUG 3 Pumpspeicherkraftwerk

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In pumped storage power stations electric energy is stored by converting the potential energy of water and then converting this potential energy into electrical power which is then fed back into the grid.

Thanks to the growth in regenerative energy generation these so-called hydroelectric power storage stations are not only necessary but indispensible in smart power grids with high grid quality.

Training Systems

Pumped storage power plant

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W = 4,6 GWhP = 1,1 GWEfficiency: 75%-80%

Training Systems

Pumped storage power plant - Training content

How pumped storage power plants operate

Manual power regulation: both in generator and motor modes

Semi-automatic active and reactive power control

Smart grid integration of pumped storage power plants

Fully-automatic compensation for externally measured active and reactive power

SCADA open and closed-loop system control

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Ausstattung: EUG 3 Pumpspeicherkraftwerk

Training Systems

Renewable Energies – Fuel Cell technology

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Training Systems

Renewable Energies – Fuel Cell technology

Your benefits:

Multimedia courses

Functional and operating principles of fuel cells andelectrolysers

Efficiency of fuel cells

System for standalone power supply38

Training Systems

Smart Grid

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Training Systems

Definitinons

"Smart Grid"

The conventional power grid becomes a Smart Grid, when it is equipped with communications, instrumentation and process control and automation technology as well as IT components.

A Smart Grid leads to improved grid infrastructure utilization, which dampens the need for their expansion or can improve grid stability for the same power utilization load.

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Source: Study conducted by the “BundesNetzAgentur” (Federal Network Agency ) on the topic "Smart Grid” (January 2012)

Training Systems

Smart Grid – Today and the Future

• New Technology

• Flexible Grid Management

• Increased proportion of Renewable Energysources

• More decentralized power plants

Intelligent Grid Management

=

"Smart Grid“

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Training Systems

Smart Grid - The solution

• Improving coordination of energy requirements and generation

• Using modern IT technology, like the Internet, sensors, control systems and wireless transmission devices

• "Smart metering"

• Shifting household consumption from peak load periods

• Starting flexible applications e.g. washing machines outside peak load periods, fully controlled by the power provider

• Energy efficiency

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Training Systems

Power Engineering Lab

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Smart Gridin the powerengineeringLab

Wind Photovoltaic Transmission Distribution Consumption

Training Systems

Power Engineering Lab - Smart Grid

Coordination of energy need and generation

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Training Systems

Power Engineering Lab

Renewable Energies in the Smart Grid

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Training Systems

Video LN – The Smart Grid Trainings Solution

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Training Systems

Training Solution for Smart Grid

Training Systems:

• Power Generation

• Renewable power generation

• Transformers

• Transmission lines

• Electric power distribution

• Energy management

• Smart Grid

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Training Systems

Micro Grid

What is a Micro Grid?

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Quelle: Siemens

Micro grids will be playing a huge role in the smart grids of tomorrow.

Training Systems

Micro Grid

Advantages:

Transmission and transformer losses are reduced

More independence from big power suppliers

Smart grid as back-up system

Intelligently controlled power supply and consumption thanks to SCADA

Power generation using renewable energy sources

Optimising the quality, reliability and sustainability of electricity

example: El hierro, the first island with island grid (Micro Grid)

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Training Systems

LN Smart Gird goes Micro Grid

Training contents:

Fundamentals of isolated, stand-alone networks.

Control of a generator in a stand-alone network.

Control of multiple generators in parallel generation mode

Coordination of energy needs and generating capacity in stand-alone networks.

Use of modern information technology such as networked sensors/actuators, PLC control and the SCADA operating environment

"Smart metering" of a "slack bus" to make a sub-network autonomous.

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Training Systems

LN Smart Gird goes Micro Grid

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Training Systems

LN Smart Gird goes Micro Grid

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Manual control

Voltage control

Torque control

Frequency control

Power factor (cos phi) control

Droop control

Training Systems

Video Siemens – The world is going to change

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Training Systems

Conclusion:

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Due to the future global energy changes and demands,

I think we can all agree the only way forward is to use such training systems which prepare the student for the challenge in the future, like integratable renewable energies in a smart grid:

Renewable energies for education: Wind, Photovoltaic's and Storage

Interactive multimedia courses for training systems

Integration of renewable energies in the smart grid system with the SCADA education Software

Training Systems

END

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Thank you for your attention

Questions?