analysis for ideal industrial zone
DESCRIPTION
This presentation is only consideration of my ideal industrial zone plan. So, can be include the requirement facts according to the theories and rules.TRANSCRIPT
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Ministry of Science and TechnologyYangon Technological University
Department of Electrical Power Engineering
Ministry of Science and TechnologyYangon Technological University
Department of Electrical Power Engineering
Analysis of Power System Stability for
Industrial Zone
Second Seminar
( 26.12.2012 )
Supervised by Presented by
Dr. Wint Wint Kyaw Mg Soe Thura Nyein
Ph.D EP -2
Ph.D (Engineering ) 6th Batch
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Aims and ObjectivesAims and Objectives
• To analyze the industrial power system stability and optimize the networks costs
• To increase of power supply quality up to developed countries level
• To construct and plan the own industrial network design
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Outline of PresentationOutline of Presentation
• Introduction
• Requirement of Smart Industrial Zone
• Transient Stability
• Feeder Position of Actual Industrial Zone
• Ideal Industrial Zone
• Planning Standards
• Analytical Frameworks
• Further Study
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Types of security violations & consequencesTypes of security violations & consequences
Security
OverloadSecurity
VoltageSecurity
Dynamic Security
Xfmr overload
Lineoverload
Low Voltage
Unstable Voltage
Early-swing
instability
Oscillatory instability (damping)
Large-disturbance instability
Small-disturbance instability
Fast voltage collapse
Slow voltage collapse
Cascading overloads
Overloaded X’mer/line has higher tripping likelihood,
resulting in loss of another element, possible
cascading, voltage or dynamic insecurity
Low voltage affects load and generation operation. Voltage
instability can result in widespread loss
of load.
Dynamic security can result in loss of generation;
growing oscillations can cause large power swings to enter relay trip zones
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Requirements of a Smart Industrial ZoneRequirements of a Smart Industrial Zone
Software and supportProfessional tools for professional work
Power system studies and optimizationExcellent planning leads to excellent results
Asset management solutionsKnowing exactly where to act
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Transient StabilityTransient Stability
Transient Stability• Each generator operates at the same synchronous
speed and frequency of 50 hertz while a delicate balance between the input mechanical power and output electrical power is maintained.
• The ability of power system to survive the transition following a large disturbance and reach an acceptable operating condition is called transient stability.
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Classification of Types of Stability Classification of Types of Stability
Long-Term Stability
Mid-Term Stability
Short-Term or Transient Stability
Range of Time Periods
0 to 10 seconds
10 seconds to Few Minutes
Few Minutes to Several Minutes
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Transient Stability LevellingTransient Stability Levelling
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Transmission network connected generators
– high fault levels
– high inertia
– high-speed protection
high transient stability
low transient stability
Distribution network connected generators
– low fault levels
– low inertia
– slow-speed protection
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Hlaing Thar Yar Industrial Zone (Actual)Hlaing Thar Yar Industrial Zone (Actual)
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Hlaing Thar Yar IZ Allowable 50 MVA
Hlaing Thar Yar S/S (100 MVA)
Hlawga S/S(280 MVA)
33 kV, 300 A (each)
33 kV, 300 A (each)
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Industrial systemsIndustrial systems
• Motor behavior
• System protection
• Transient analysis
• Harmonic analysis
• Filter design
• Energy efficiency
• etc
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Amp and Time Curve for a Line Amp and Time Curve for a Line 1:
00
2:00
3:00
4:00
5:00
6:00
7:00
8:00
9:00
10:0
0
11:0
0
12:0
0
13:0
0
14:0
0
15:0
0
16:0
0
17:0
0
18:0
0
19:0
0
20:0
0
21:0
0
22:0
0
23:0
0
0:00
050
100150200250300350400450500
Daily Load Cycle of Hlaing Thar Yar Line
Daily Load Cycle
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Power System Operation StatesPower System Operation States
Normal
Restorative Alert
In-extremis Emergency
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Ideal Industrial ZoneIdeal Industrial Zone
Ideal IZ Allowable 50 MVA up to Back-up withstand
From Electricity Supply
From Back-up Supply
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Planning StandardsPlanning Standards
Four major topics are:
• System Adequacy and Security• System Modeling Data Requirements • System Protection and Control• System Restoration
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System Modeling Data RequirementsSystem Modeling Data Requirements
• System Data• Generation Equipment• Facility Ratings• Actual and Forecast Demands• Demand Characteristics (Dynamic)
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System Restoration System Restoration
System Black Start Capabilitythe necessary to establish initial generation
that can be supply electric power to other system generation to handle the supply to the auxiliaries in the power plant, the coal handling equipment etc.
Automatic Restoration of Load the automatic load restoration plan would
require careful analysis of the setting of relays used to restore load automatically, sequence in which tie lines etc.
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Analytical FrameworksAnalytical Frameworks
• Power Flow Analysis– Partial PV and QV curves can be readily
calculated using power flow programs.
• Continuation Methods– A popular and robust technique to obtain full PV
and/or QV curves is the continuation method.
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continuedcontinued
• Optimization or Direct Methods– The maximum loading point can be directly
computed using optimization-based methodologies.
• Time Scale Decomposition– The PV and QV relations produced results
corresponding to an end state of the system where all tap changers and control actions have taken place in time and the load characteristics were restored to a constant power characteristic.
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Mitigation of VoltageMitigation of Voltage
• From Fault to Trip– To understand the various ways of mitigation, the
mechanism leading to an equipment trip needs to be understood.
• Reducing the Number of Faults– Reducing the number of short-circuit faults in a
system not only reduces the sag frequency, but also the frequency of long interruptions.
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Continued:Continued:
• Reducing the Fault-Clearing Time– Reducing the fault-clearing time does not reduce
the number of events, but only their severity.
• Changing the Power System– Install a generator near the sensitive load.
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Further Study Further Study
To analyze: • The Balance Fault and • Unbalance Fault.
Some types of fault apply to my ideal IZ– Single Line to Ground fault– Double Line to Ground fault– Line to Line fault– Three Phase fault
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ReferencesReferences
• NERC Planning Standards, http://www.nerc.com/standards/
• Vijay Vittal, 2002, Consequence and Impact of Electric Utility Industry Restructuring on Transient Stability.
• Prabha Shankar Kundur, 1994, Power System Stability and Control from Power System Engineering Series.
• Mansour, Y., editor , 1990. Voltage Stability of Power Systems: Concepts, Analytical Tools, and Industry Experience, IEEE Special Publication #90TH0358–2-PWR.
• Goran Andersson, 2010, Dynamics and Control of Electric Power Systems.
• Leonard L. Grigsgy, 2008, Electric Power Engineering Handbook: Power System Stability and Control, pp 470-482.
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Thanks for Your Attention