Advanced Topics in Power Systems
Power Electronic equipments in Power System
FACTS
Application of FACTS
Transmission of power system
- Power semiconductor Devices in power system
- Diodes in Power system
- Thyristor in Power system
- Light-triggered thyristor (LTT) in Power system
- Desired characteristics of fully-controlled power semiconductors in power system
- Gate-turn-off thyristor in power system
- Metal-oxide-semiconductor field effect transistor in power system
- Insulated-gate bipolar transistor in power system
- MOS-controlled thyristor in power system
- Semiconductor switching-power performance in Power system
- characteristics of semiconductors used in power system
- Cooling systems of semiconductor in power system
- Protection of semiconductors - snubber circuits
- Current trends in power semiconductor technology
- Thyristor-controlled reactor (TCR)
- Fundamental voltage/current characteristic of TCR
- Harmonics of TCR
- The thyristor-controlled transformer (TCT)
- The TCR with shunt capacitors
- Introduction to thyristor-switched capacitor (TSC)
- Ideal transient-free switching
- General Switching transients
- Switching a discharged capacitor
- Voltage-source converters (VSCs) and derived controllers
- Single-phase half-bridge VSC
- Single-phase full-bridge VSC
- Conventional three-phase six-step VSC
- Single-phase half-bridge neutral-point-clamped (NPC) VSC
- Single-phase full-bridge NPC VSC
- Other multilevel converter topologies
- Pulse-width modulated (PWM) VSCs
- Uninterruptible Power Supplies (UPSs)
- Introduction to HVDC transmission
- HVDC schemes and control
- Advanced concepts in conventional HVDC applications
- A Look on High Voltage Direct Current
- HVDC System Configurations
- Components of HVDC Transmission System
- Valve Characteristics of HVDC systems
- Converter Circuits of HVDC system
- Analysis of three-phase, full-wave bridge circuit of HVDC system
- Analysis of three-phase, full-wave bridge circuit assuming negligible source inductance(NO IGNITION DELAY)
- Average direct voltage with negligible source inductance under no ignition delay
- Analysis of three-phase, full-wave bridge circuit assuming negligible source inductance (With IGNITION DELAY)
- Current and phase relations with ignition delay
- Analysis Of 3-Phase, Full-Wave Bridge Circuit Including Commutation Overlap
- Voltage Reduction Due to Commutation Overlap
- Rectifier operation of the three phase full wave bridge circuit
- Inverter operation of the three phase full wave bridge circuit
- Relationship between ac and dc quantities of three phase full wave bridge circuit
- Converter Transformer Rating
- Basic Principles of Control OF HVDC SYSTEMS
- Basis for selection of controls of HVDC system
- Control characteristics of HVDC system - Ideal characteristics
- Control characteristics of HVDC system - Actual characteristics
- Transmission interconnections
- Opportunities for FACTS
- Power Flow in AC System
- Power Flow In Parallel Paths
- Power Flow In a Meshed System
- Loading Capability Limitations
- POWER FLOW AND DYNAMIC STABILITY CONSIDERATIONS OF A TRANSMISSION INTERCONNECTION
- RELATIVE IMPORTANCE OF CONTROLLABLE PARAMETERS
- BASIC TYPES OF FACTS CONTROLLERS
- Relative Importance of Different Types of Controllers
- BRIEF DESCRIPTION AND DEFINITIONS OF FACTS CONTROLLERS
- Shunt Connected Controllers
- Series Connected Controllers
- Combined Shunt and series Connected Controllers
- TCVL & TCVR
- CHECKLIST OF POSSIBLE BENEFITS FROM FACTS TECHNOLOGY
- HVDC OR FACTS
- OBJECTIVES OF SHUNT COMPENSATION
- OBJECTIVES OF SERIES COMPENSATION
- Midpoint Voltage Regulation for Line Segmentation
- End of Line Voltage Support to Prevent Voltage Instability
- Improvement of Transient Stability
- Power Oscillation Damping
- Compensator Requirements
- Methods of controllable var generation
- The Thyristor-Controlled and Thyristor-Switched Reactor (TCR and TSR).
- The Thyristor-Switched Capacitor (TSC)
- Fixed Capacitor, Thyristor-Controlled Reactor Type Var Generator
- Thyristor-Switched Capacitor, Thyristor-Controlled Reactor Type Var Generator
- SWitching Converter Type Var Generators
- Basic principle of reactive power generation
- Basic Control Approaches of static (var) generator converter
- Hybrid Var Generators: Switching Converter with TSC and TCR
- Comparison of Static Var Generators
- Static var compensators: svc and statcom
- Comparison between a STATCOM and SVC
- The Regulation Slope
- Transfer Function and Dynamic Performance
- Transient Stability Enhancement
- Power Oscillation Damping of static compensators
- Var Reserve (operating point) Control
- Compensator Control
- V-I and V-Q Characteristics of Static Compensators
- Transient Stability of static compensators
- Characteristics of static compensators
- Static Compensators operation With Unbalanced AC System
- Loss Versus Var Output Characteristic of static compensators
- Installation of Static compensators & Merit of Hybrid compensator
- Static var systems
- Concept of Series Capacitive Compensation
- Voltage Stability of Series compensation
- Power Oscillation Damping of series compensation
- Subsynchronous Oscillation Damping of series compensation
- Functional Requirements & Approaches to Controllable Series Compensation
- GTO Thyristor-Controlled Series Capacitor (GCSC)
- Thyristor-Switched Series Capacitor (TSSC)
- Thyristor-Controlled Series Capacitor (TCSC)
- Subsynchronous Characteristics of series compensation
- Basic Operating Control Schemes for GCSC, TSSC, and TCSC
- Switching Converter Type Series Compensators
- The Static Synchronous Series Compensator (SSSC)
- Transmitted Power Versus Transmission Angle Characteristic
- Control Range and VA Rating of Static Compensators
- Capability to Provide Real Power Compensation
- Immunity to Subsynchronous Resonance
- Internal Control of Series Compensation
- External (System) Control For Series Reactive Compensators
- Characteristics and Features of Series Compensators
- Unified Power Flow Controller
- Role of TP (Transmission Provider)
- Vertically integrated utility
- Three Models of the Electricity Market
- Profit Transmission Provider
- New Market Organisation for Transmission Provider
- Transmission Open Access
- Components of Restructured Systems
- PX Functions and Responsibilities
- ISO Functions and Responsibilities
- Classification of ISO types
- Model of trading structures - The Pool
- Model of trading structures - Pool and Bilateral Trades
- Model of trading structures - Multilateral Trades
- Introduction to Transmission Pricing In Open-access Systems
- Rolled-in Pricing Methods
- Incremental (Marginal) Pricing Methods
- Embedded Cost Recovery
- Open Transmission System Operation
- Congestion Management in Open-access Transmission Systems (Normal Condition)
- Integrated Transmission Dispatch Strategy
- Power wheeling