Login
Subscribe
Home
About
Subjects
Electrical
Physics
Computer Science
Video Lectures
Contact
Home
Electrical (EE)
Electrical (EE)
Basic Electrical and Electronics Engineering
◉
Basic Electrical
◉
Basic Terminologies
◉
Basic Laws
◉
Kirchhoff’s laws
◉
Node Voltage Method
◉
Mesh Current Method & Superposition
◉
Thevenin’s Theorem
◉
Norton’s Theorem
◉
Maximum Power Transfer Theorem
◉
Alternating Quantities
◉
Introduction DC & AC
◉
Generation of Alternating Quantities
◉
Phasor Representation
◉
RMS Values
◉
Pure R, L & C Circuits
◉
Series RC, RL & RLC Circuits
◉
Power & Power Factor
◉
Rotating Electrical Machines
◉
DC Machine
◉
Induction Motor
◉
Synchronous Machine
◉
Basic Electronics
◉
Basic Electronics
◉
BJT
◉
FET
◉
Logic Gates & Binary Algebra
◉
Number Systems & Binary Arithmetic
◉
Communication Systems
◉
Communication Systems
◉
Transducer
◉
Integrated Circuits
Power System Engineering
◉
Economic Operation of Power Systems
◉
Introduction to EOPS
◉
System constraints
◉
Input output, heat rate and incremental rate curves
◉
Economic distribution of load between generating units within a plant
◉
Economic distribution of load between power stations
◉
Transmission loss equation
◉
Unit Commitment
◉
Dynamic programming
◉
Power System Stability-I
◉
Power System Stabilities
◉
Power Angle Curve
◉
Rotor dynamics
◉
Swing equation
◉
M & H constants
◉
Equivalent system
◉
Synchronizing power coefficient
◉
Power System Stability-II
◉
Transient stability & its limits
◉
Equal area criterion
◉
EAC Application - 1
◉
EAC Application - 2
◉
EAC Application - 3
◉
EAC Application - 4
◉
EAC Application - 5
◉
Factors affecting stability
◉
Methods to improve stability
◉
Assumptions Made During Transient Stability Studies
◉
Excitation Systems & Interconnected Power Systems
◉
Introduction to excitation system
◉
Elements of excitation system
◉
DC excitation systems
◉
AC excitation systems
◉
Static Excitation System
◉
Isolated and interconnected power system
◉
Reserve capacity
◉
Power systems interconnection in India
◉
Voltage Control, stability & Power system security
◉
Introduction to Voltage Control
◉
Tap Changing Transformer
◉
Booster Transformer
◉
Induction Regulator
◉
Phase Shifting Transformer
◉
Series Compensation of Transmission Line
◉
Location and Protection of Series Capacitor
◉
Voltage Stability
Smart Grid
◉
Introduction to Smart Grid
◉
Evolution of Electric Grid
◉
Concept & Definitions
◉
Need for Smart Grid
◉
Smart grid drivers
◉
Functions
◉
Opportunities
◉
Challenges
◉
Benefits
◉
Difference between conventional & Smart Grid
◉
Concept of Resilient & Self-Healing Grid
◉
Present development & International policies in Smart Grid
◉
Diverse perspectives from experts and global Smart Grid initiatives
◉
Acronyms
◉
References
◉
Smart Grid Technologies
◉
Technology Drivers
◉
Smart Energy Resources
◉
Smart substations
◉
Substation Automation
◉
Feeder Automation
◉
Transmission systems: EMS, FACTS and HVDC
◉
Wide Area Monitoring
◉
Protection and Control
◉
Distribution Systems: DMS, Volt/VAr control
◉
Fault Detection
◉
Isolation and service restoration
◉
Outage management
◉
High-Efficiency Distribution Transformers
◉
Phase Shifting Transformers
◉
Plug in Hybrid Electric Vehicles (PHEV)
◉
Acronyms
◉
References
◉
Smart Meters and AMI
◉
Power Quality Management
◉
High Performance Computing for Smart Grid Applications
Generation of Electric Power
◉
Conventional Energy Generation Methods
◉
1.01: Thermal Power plants
◉
1.02: Gas Power Plants
◉
1.03: Hydro Power Plants
◉
1.04: Nuclear Power Plants
◉
New Energy Sources
◉
2.01: Environmental Impact of Power Plants
◉
2.02: Greenhouse gases
◉
2.03: Non-Renewable Energy Resources
◉
2.04: Renewable Energy Resources
◉
2.05: Conservation of Natural Resources
◉
2.06: Sustainable energy System
◉
2.07: Indian energy scene
◉
2.08: Solar Power Generation
◉
2.09: Wind Power Generation
◉
2.10: Tidal Power Generation
◉
Loads, Load Curves and Power Factor Improvement
◉
3.01: Load Curve & Load Duration Curve
◉
3.02: Some Important Terms & Factors
◉
3.03: Types of Loads
◉
3.04: Energy Load Curve & Mass Curve
◉
3.05: Power Factor Improvment
◉
3.06: Why should we improve power factor ?
◉
3.07: Methods for Power Factor Improvement : Static Capacitor
◉
3.08: Synchronous Condenser
◉
3.09: Phase Advancer
◉
3.10: Examples
◉
Power Plant Economics
◉
4.01: Introduction
◉
4.02: Cost of electric generation
◉
4.03: Methods to Calculate Annual Depreciation Cost of a Power Plant
◉
4.04: Significance of Load Factor and Diversity Factor
◉
4.05: Most Economical Power Factor when kW demand is constant
◉
4.06: Most Economical Power Factor when kVA demand is constant
◉
4.07: Annual Fixed cost, Operating Cost & Generating Cost of plants
◉
4.08: Energy cost reduction: Off peak energy utilization & Energy Conservation
◉
4.09: Energy cost reduction: Cogeneration
◉
Tariffs & Selection of Power Plants
◉
5.01: Tariff
◉
5.02: Spot (time differentiated) pricing
◉
5.03: Selection of Size and Number of Generating Units
◉
5.04: Comparison of Thermal, Hydro, Gas & Nuclear Power Plant
◉
5.05: Base Load and Peak Load
◉
5.06: Operating Reserves
◉
5.07: Power Plant Site Selection Criteria
◉
5.08: Size of plant
Acronyms