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Ontoseno Penangsang1)
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1) Electrical Department, Sepuluh Nopember of Institute Technology
Surabaya, 60111, Indonesia
Course Introduction & Overview
Outline and Overview of the Modules
Basic Characteristics and Structure of
Modern Power Systems
Performance Requirements of Properly
Designed Power Systems
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1. Module 1: INTRODUCTION
2. Module 2: BASIC CONCEPTS
3. Module 3: ELECTRIC POWER SYSTEM
MODELING
4. Module 4: POWER FLOW SIMULATION AND
ANALYSIS
5. Module 5: SHORT CIRCUIT SIMULATION
AND ANALYSIS
6. Module 6: STABILITY SIMULATION AND
ANALYSIS
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Module 1: INTRODUCTION
This module contains a general description of electric
power systems. Definition of a power system, basic
characteristics, structure of modern power systems,
and problems in power system operation are then
identified. The performance requirements of properly
designed power systems are also described.
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Module 2: BASIC CONCEPTS
This module contains basic concepts required
in analyzing a power system : single phase
network in a steady-state condition with a
sinusoidal input, electric power in a single
phase network (sinusoidal form and complex
form), power flow, symmetrical three phase
network, voltage, current and power in a three
phase network. Ontoseno Penangsang
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Module 3: SYSTEM MODELING
This module contains single phase equivalents of main
components of a power system : synchronous
generator, transmission line, transformer, load; Power
system representation : single line diagram (single
phase), single phase impedance diagram and
admittance diagram, calculation in a power system
using per unit system; and Formation of bus admittance
matrix (Ybus) and bus impedance matrix (Zbus).
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Module 4: POWER FLOW SIMULATIONAND ANALYSIS
This Module contains the general form of
power flow equation, and basic theory of
power flow simulation and analysis,
methods of power flow simulations :
Gauss-Seidel, Newton Raphson, and Fast
Decoupled.
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Module 5: SHORT CIRCUIT SIMULATIONAND ANALYSIS
This module contains the theory of
transient phenomena and
symmetrical components, balanced
and unbalanced faults simulations
and analysis.
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Module 6: STABILITY SIMULATIONAND ANALYSIS
This module contains the basic concept of
stability in electrical power systems,
phasor diagrams and P-δ Curves of
Synchronous Generators, and methods of
Steady State stability and Transient
Stability simulations and analysis.
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• Class Participation and Attendance – 10%
• Homework Assignments – 10%
• Quizzes – 20%
• Mid-Term Examination – 20%
• Final Examination – 30%
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Every power system has three major
components
– generation: source of power, ideally with a
specified voltage and frequency
– load: consumes power; ideally with a
constant resistive value
– transmission system: transmits power;
ideally as a perfect conductor
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No ideal voltage sources exist
Loads are seldom constant
Transmission system has resistance,
inductance, capacitance and flow
limitations
Simple system has no redundancy so
power system will not work if any
component fails
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SPP 5-7 : 1800 MW (Coal)SPP 1-4 : 1600 MW (Coal)SURALAYA
GTPP : 125 MWDie.PP : 75,8 MW
PESANGARAN
HEPP : 274,8 MW
BRANTAS
SCPP : 800 MW
PAITON
CCPP : 527 MWGTPP : 342 MWGRATI
GTPP : 29 MWSOPP (OIL) : 150 MWPERAK
CCPP : 1.578 MWGTPP : 100 MWSOPP (G) : 400 MW
SOPP (OIL) l : 200 MWGRESIK
CCPP : 711 MWCCPP : 328,9 MWSOPP (OIL) : 300 MWTAMBAK LOROK
HEPP : 55 MWKEDUNG OMBO
GTPP : 80 MWSUNYARAGIHEPP. : 504 MW
CIRATA
CCPP : 435 MWCCPP : 660 MWMUARA TAWAR
CCPP : 1.180 MWGTPP (G) : 195 MWGTPP (OIL) : 72 MWSOPP (OIL) : 100 MWP R I O K
CCPP (Gas) : 508 MWSPP (Gas) : 400 MWSPP (OIL) : 300 MWMUARA KARANG
Geo.PP : 165 MWSALAK
HEPP : 33 MW
KRACAK/UBRUG
HEPP : 700 MW
SAGULING
HEPP : 47 MWPLENGAN/LAMAJAN
Geo.PP : 195 MWKAMOJANG/DRAJAT
HEPP : 214 MWMRICA/GARUNG/KETENGER
HEPP : 19 MWW. LINTANG/SEMPOR
HEPP : 12 MW
WONOGIRI
PAITON IPPSCPP : 2400 MW
Power Plants in JAMALI System
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H
SLAYA
SRANG
GNDUL
CNJUR
KSBRU
JTLHR
PDLRG
CRATA
MRICA
WSOBO
RWALO
GBONG
BNTUL
KLTEN
JELOKSGRAH
CEPU
RBANGBABAT
GRSIK
KRIAN
NGAWI
MNRJO
KDBRU
KKTES
KBAGN
MKRTO
PBLGO
LMJNG
PMKSN
STBDO
BDWSO
JMBER
BWNGI
LMNISPWRJO JAJARBOJLI
WLERI
UNGAR
BLORA
KUDUS
WLNGI
BJGRO
LNGAN
SMNEPGLTMR
JTAKE
SLIRA
PKLON
GARNG
ASAHI
KKSTL
CLGON
CBBAT
TBROK
SGMDU U
REGION
IIREGION
III
PITON
GU
BNGIL
JAVA
MADURA
BALI
SALAK
DRJAT
BNJAR
U
KRPYKBKLAN
PMLNG
GRATI
GU
A
MKRNG
BGBRUCIBNG
SGLNG
TGRNG GU
REGION
I
GU
PRIOK
PA
P
BDSLN
SRAGI
UBRNG
KMJNG
TSMYA
GARUT
BMAYU
MJNNG
KBSEN
P
SRGEN
A
U
U
CBATU
MTWARBKASI
KMBNG
KNTUG
PALUR
PERAK
A
A
UU
GU
SPANG
A
GLNUK
KAPAL GNYAR
NSDUA
G
AMLRA
SANUR
NGARA
PSGRH
PMRON
REGION
IV
A
JAMALI ELECTRIC POWER SYSTEM
• SUTET 500 kV jalur selatan baru selesai Paiton – Pedan
(Pedan – Tasikmalaya – Depok selesai 2005)
• GITET 500 kV Kediri teleh beroperasi pada Sept. 2003
• PLTG MUARA TAWAR 6 x 100 MW rencana selesai th. 2004
• PLTU Tanjung Jati B 2 x 660 MW rencana selesai middle 2006
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Electric power production
Wind
Nuclear
Fossil
Hydro Source: vattenfall.se
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0
2000
4000
6000
8000
10000
12000
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
-------->
M
W
-------> Hour
Residential Commercial Public Industry Total
Daily Load Curve - Jawa Bali System
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Power system operation
• Daily routine
– Production planning
– P and V control
• Goals
– Economy
– Safety
– Reliability
– Environment
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Power system phenomena
• Short-circuits and other faults
• Automatic operations
• Thermal stress = overload
• Angle stability
• Voltage stability
• Frequency stability
• …
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Integrated Utility System View
Generation (Fuel
Storage, Boilers, Turbines, Stators, Rotors, Condensers,
Switchyards, Pollution & System Controls,
Utilization (Load -
Motors, Lights, HVAC, Computers,
etc)
Substation (Transformers, Buses
Reactors, Controls, Converters, et
c)
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Basic Components of Electric Power:
How electricity gets to youHow electricity gets to you
When electricity leaves a power
plant (1), its voltage is increased
at a “step-up” substation (2).
Next, the energy travels along a
transmission line to the area
where the power is needed (3).
Once there, the voltage is
decreased, or “stepped-down,”
at another substation (4), and a
distribution power line (5) carr ies
the electricity until it reaches a
home or business (6).
– EEI, Getting Electricity Where It’s Needed,May 2000
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System levels(JAMALI System – Indonesia)
• 500 kV Transmission
– Long distance power transfer (>240km)
– Many paths to each point (meshed)
• 150 kV Subtransmission
– Regional power transfer
• 20 kV Distribution
– Local power transfer
– One path to each point (radial)
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Organization
• Lectures
• Problem solving
• Laboratory exercises
• Computer simulations
• Student lecture
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