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Outline • Administration
– Few words about the department – Walk through of course syllabus
• Demonstration of KTH-social course platform
• CAPS course introduction – Power system control & operation
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General Information • Teachers
– Examiner & Lecturer • Prof.Lars Nordström
– Course Assistants • Yiming Wu [email protected] • Davood Babazadeh, [email protected] • Fabian Hohn [email protected]
• Power System Operation & Control group – Power System stability and Control – Applications of ICT to the power
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Education – Power Systems track
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Connecting things
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Control System Laboratory
SCADA & EMS
IP WAN Emulator
ABB Network Manager Fully redundant SCADA& EMS
State Estimator Multi-vendor IEDs ABB, Siemens, Areva
IEC 61850 SAS
Netcontrol RTUs IEC 60870-5-101 IEC 60870-5-104
KTH PowerIT OpenWAMS
ARISTO simulator Viking
City ViCiSi
SoftPMU
Opal-RT eMegasim Real-time simulator
4G LTE network
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Outline • Administration
– Few words about the department – Walk through of course syllabus
• Demonstration of KTH-social course platform
• CAPS course introduction – Power system control & operation
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Course content
Pow
er System
Protection
Pow
er System
Instrumentation
Pow
er System
Operation/C
ontrol
Pow
er Com
munication S
ystems
Information S
ystem A
rchitecture
Information M
odeling
Pow
er System
Analysis
EH 2741 Communications & Control in Power Systems
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Course map
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Course Map
1
2
3
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Course philosophy • Open the door to future study
– EH2745/EH2751 advanced & project courses – Degree projects
• Systems engineering approach • Complement to Power Systems • Applying theory and methods from several
fields to real-world problems • Engineering skills • State of the Art technologies • Industry involvement
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Course syllabus
• Course objectives • Prerequisites • Course administration • Course Schedule • Literature • Assessment & Grades • Course Staff
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Course Objectives • Describe the functions of the primary equipment in the power
system that is relevant for protection, automation and control • Analyze substations and simple power systems in terms of reliability
protection, automation and control needs. • Describe the function and architecture of information and control
systems used for protection, automation and control of power systems.
• Describe the function and architecture of communication systems used for information & control systems for power system control.
• Describe the importance of information & control systems for the ability to connect large amounts of renewable power sources.
• Analyze and develop basic systems for substation automation and protection.
• Analyze and develop basic information & control systems for system-wide control from control rooms, e.g. SCADA systems and EMS applications.
• Construct a state estimator for power systems. • Describe relevant interoperability standards in the field, such as IEC
61850 • Describe the threats and risks associated with the use of information
& control system for controlling the electric power system, known as Cyber Security.
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Course Components - I • 14 Lectures +5 Exercises • Project Assignment 1 and 2
– Project hours • 2 Individual voluntary tests • Computer lab • SCADA and communication system lab • Study visit
• Guest Lectures
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Course Components - II
• Project Assignment 1 2 ECTS – Designing a Substation and its protection
and automation functions
• Project Assignment 2&3 2+2 ECTS – Designing a SCADA and wide area
communication architecture – Design a power system state estimator
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Literature
• Course Book – ”Power System SCADA and Smartgrids”
Mini Thomas & John D McDonald
• Additional reading provided as hand-outs.
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Assessment and Grade
• No final exam • Project Assignment 1, 2&3: fail, pass
– Basic 6 course points. – Assignment 2&3 graded separately – pass with bonus 7- 10 course points
• Test 1 & 2 - 0 - 15 course points • Lab 1 and 2 : fail, pass
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Grade
Grade Course Points
E 18-24
D 25-31
C 32-39
B 40-46
A 47-60
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Outline • Administration
– Few words about the department – Walk through of course syllabus
• Demonstration of KTH-social course platform
• CAPS course introduction – Power system control & operation
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KTH social
• All course related information is available on the KTH social platform
• You get access to the platform once you are registered to the course
https://www.kth.se/social/course/EH2741/
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Team up!!! Project Assignment Power System Control Lab SCADA & Wide Area Communications
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Outline • Administration
– Few words about the department – Walk through of course syllabus
• Demonstration of KTH-social course platform
• Course introduction – Communications & Control in Power Systems
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Communication & Control in Power Systems
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Integration of topics & timescales
Power System Planning & Maintenance
Power System Operation
Power System Protection & Automation
• Meeting the challenges of the future power system requires integration of previously separated areas with ICT as the enabler
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Power System Protection & Automation • Protect Equipment • Protect People & Property • Separate faulty section
from power system • Restore normal operation • Local control
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Power System Operation
• System-wide monitoring, planning & optimisation for reliable and cost efficient operation of the power system
Normal
Alerted
Emergency
Restorative
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Power System Maintenance & Planning
• Cost efficient maintenance, replacement and commissioning of primary equipment in the power system to achieve required reliability
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Integrated systems for Smart grids
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Deregulation– in theory
Wholesale level - Transmission
GenCo GenCo GenCo GenCo
Retailer Retailer
Retail level - Distribution
Customer Customer Customer Customer
Customer
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Deregulation – in practice
Area 1
Area 2
Area 5
Area 3
Area 4
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Integration of Systems
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Information Exchange – a simple example
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Example – root event 1. Step-up
transformer insulation fault
2. Fault is detected by protection system
3. Trip signal sent to breaker to disconnect generator
1. 2. 3.
TSO – Frequency control
TSO – Maintenence
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TSO - Frequency Control 1. Frequency dip detected at
generators committed to Load Frequency Control
leads to automatic increase of output
2. Continuous under-frequency measured are sent to SCADA system using IEC 60870-5-101
3. Control room operator activates secondary
reserve by issuing order to GenCo via phone.
4. GenCo orders production increase in secondary
reserve. 5. Order for production
increase sent to plant from GenCo CC.
6. New measurements sent to neighbouring Grid
Utility using ICCP.
2.
3.
1.
1.
1.
4.
5
6.
TSO
GenCO
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TSO- Repair & Maintenance
1. 2.
3.
4.
1. Fault in transformer sent from SCADA system to work management system using
e.g. IEC 61968-4 2. Repair crew sent to site
from work dispatch 3. At site, work crew reports
to control centre to initiate safe switching sequences
4. Station set to manual control, fault repaired (!) or
report initiated for major overhaul.
5. After completed assignment, info on failure
stored in maintenance database.
5.
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Power System Decisionmaking • Power system analysis,
control and operation is dependent on models
• Using the models, analytical and numerical analysis provides decision support for e.g. – Security – Stability – Optimal power flow – Contingency analysis – Expansion planning – Market clearing
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Smartgrids Decisionmaking • Smart grids are power
systems integrated with ICT systems
• Decisionmakers want to take informed decisions about: – Functionality – Security – Stability – Reliability – Performance – Interoperability – Usability
Models?
Analysis tools?
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Example: Reference architecture for for Power systems
A set of symbols Rules on how you can combine them
Sort of similar for ICT systems
One line diagram (just one possible form of description)
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The context– the Smartgrid Plane
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Architecture Domains
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Architecture Zones Zone
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Complete Reference architecture