Ultimate Electrical Substations, Hv And Generation Bundle

This electrical engineering bundle consisting of electrical substation course, high voltage course and generation course

What you'll learn
Function, classification, and voltage of electrical substations
Main components like power transformers, conductors, insulators, switch gears, current transformer, capacitor voltage transformer, and voltage transformer
Different types of circuit breakers, relays, and their classification according to time, construction, and function
Learn the difference between circuit breaker and fuse, in addition to their applications
Understand the definition of IP or ingress protection
Grounding system including the effect of current on the human body and components of the grounding system
Types of electric hazards and classification of the earthing systems
Measuring the earthing resistance by Megger and the three-point method
Design of an earthing system using ETAP program
Ring main unit and its importance in the electrical power system
Types of switches used in the electrical power systems and substations
Overhead transmission lines, underground cables, and the difference between them
Busbars in the power system, their importance, their different schemes, and how to select them
Lightning arrester and wave trap which are used in substations
Air and gas-insulated substations
Overview of the design of an electrical substation and single line diagram of 66/11 kV substation
Types of high voltages occurring in an electrical system
​Methods used to generate high voltage AC at power frequency
How to generate high voltage AC at high frequency for simulating switching actions on our electrical equipment
Definition of impulse waveform in the electrical system
Methods of generating high voltage impulses to test our equipment
Different methods used to generate very high DC voltage in electrical systems in addition to voltage doubler circuits and multiplier circuits
How electricity is generated
Different types of electrical generators
Types of induction and synchronous generators used
Types of electrical power plants such as hydroelectric, wind, solar, geothermal, and nuclear power plant
Principle of operation of each generating power plant
Types of wind turbines
Rotor solidity and selection of the number of rotor blades
Gearbox in wind turbines
The power extracted by the turbine from the wind
Betz limit and maximum rotor efficiency
Factors affecting wind speed and density
Applied force on the wind turbine, torque coefficient, and the importance of the TSR
Wind turbine generator characteristics
Effect of the rotor diameter and generator size on power
Wind turbines spacing
The fundamentals of solar energy
Components and design of on-grid and off-grid solar systems
Types and selection of solar modules
Types of charge controllers
Types of different solar inverters
Selection of suitable tilt angle and shading effect in PV systems
Requirements
Just passion and patience for learning
No requirement, only your PC or tablet or mobile for viewing lectures online
Description
"Ultimate Electrical Substations, Generation and High Voltage Course Bundle for Electrical Engineering"The only course bundle out there with everything you need to know about electrical substations, generation of electricity, and high voltage generationIf you've been looking for ONE COURSE BUNDLE with in-depth insight into the basics of electrical substations, electrical generators, and high voltage generation, take this bundle.First Course "Complete Electrical Substations For Electrical Power Engineering" What are you going to learn?​Function, classification, and voltage of electrical substationsMain components like power transformers, conductors, insulators, switch gears, current transformer, capacitor voltage transformer, and voltage transformerDifferent types of circuit breakers, relays, and their classification according to time, construction, and functionLearn the difference between circuit breaker and fuse, in addition to their applicationsUnderstand the definition of IP or ingress protectionGrounding system including the effect of current on the human body and components of the grounding systemTypes of electric hazards and classification of the earthing systemsMeasuring the earthing resistance by Megger and the three-point methodDesign of an earthing system using ETAP programRing main unit and its importance in the electrical power systemTypes of switches used in the electrical power systems and substationsOverhead transmission lines, underground cables, and the difference between themBusbars in the power system, their importance, their different schemes, and how to select themLightning arrester and wave trap which are used in substationsAir and gas-insulated substationsOverview of the design of an electrical substation and single line diagram of 66/11 kV substationSecond Course "High Voltage Generation For Electrical Engineering" What are you going to learn in this course?Types of high voltages occurring in an electrical system.​Methods used to generate high voltage AC at power frequency.​How to generate high voltage AC at high frequency for simulating switching actions on our electrical equipment.​Definition of impulse waveform in the electrical system.​Methods of generating high voltage impulses to test our equipment.​Different methods used to generate very high DC voltage in electrical systems in addition to voltage doubler circuits and multiplier circuits.Third Course "Complete Generation Course For Electrical Engineering" How electricity is generated.Different types of electrical generatorsTypes of induction and synchronous generators usedTypes of electrical power plants such as hydroelectric, wind, solar, geothermal, and nuclear power plantsPrinciple of operation of each generating power plantTypes of wind turbinesRotor solidity and selection of the number of rotor bladesGearbox in wind turbinesThe power extracted by the turbine from the windBetz limit and maximum rotor efficiencyFactors affecting wind speed and densityApplied force on the wind turbine, torque coefficient, and the importance of the TSRWind turbine generator characteristicsEffect of the rotor diameter and generator size on powerWind turbines spacingThe fundamentals of solar energyComponents and design of on-grid and off-grid solar systemsTypes and selection of solar modulesTypes of charge controllersTypes of different solar invertersSelection of suitable tilt angle and shading effect in PV systemsThank you and hope to see you in our course bundle :)

Overview

Section 1: Electrical Substation Course

Lecture 1 Introduction to Electrical Substation

Lecture 2 Very Important

Lecture 3 Construction of Electrical Substation

Lecture 4 Instrument Transformers and Principle of Operation of Trip Circuit

Lecture 5 Types of Circuit Breakers and Fuses Comparison

Lecture 6 Types of Relays According to Function, Construction, and Time Characteristics

Lecture 7 Definition of Busbar and Different Busbar Schemes

Lecture 8 Construction of Underground Cables

Lecture 9 Construction of Overhead Transmission Lines

Lecture 10 Comparison between Underground Cables and Overhead Transmission Lines

Lecture 11 Types of Switches in Power System and Substations

Lecture 12 Importance of Capacitor Banks in Power System

Lecture 13 Important Components in Electrical Substation

Lecture 14 Classification of Substations

Lecture 15 Relation between Voltage and Substations

Lecture 16 Air Insulated Substation and Gas Insulated Substation

Lecture 17 Importance of Ring Main Unit in Power System

Section 2: Earthing System Design

Lecture 18 Introduction to Grounding System

Lecture 19 Effect of Current on Human Body

Lecture 20 Types of Electric Hazards

Lecture 21 Classification of Earthing Systems

Lecture 22 Components of Earthing System

Lecture 23 Design and Resistance of Earthing Electrode

Lecture 24 Design and Resistance of Earthing Conductor

Lecture 25 Measurement of Earth Resistance by Megger and Three Point Method

Lecture 26 Design Earthing or Ground Grid Using ETAP

Section 3: Introduction to Design of Electrical Substation

Lecture 27 What is IP?

Lecture 28 Selection of Busbars

Lecture 29 Introductory Example on Design of Substation

Lecture 30 Single Line Diagram of 66 kV to 11 kV Substation

Section 4: High Voltage Generation for Electrical Engineering Course

Lecture 31 Introduction to Electrical Power System and Why do we Need High Voltage

Lecture 32 Types of High Voltage

Lecture 33 Generation of High Voltage AC at Power Frequency

Lecture 34 Generation of High Voltage High Frequency AC

Lecture 35 Generation of High Voltage Impulse Part 1

Lecture 36 Generation of High Voltage Impulse Part 2

Lecture 37 Generation of High Voltage DC Part 1

Lecture 38 Generation of High Voltage DC Part 2

Section 5: Introduction to Electricity Generation

Lecture 39 Introduction to Generation of Electrical Power

Lecture 40 Definition of Generation

Lecture 41 Why do we Generate Electricity?

Lecture 42 How do we Generate Electricity?

Lecture 43 Difference between Synchronous and Induction Generators

Lecture 44 Principle of Operation of Synchronous Generator

Lecture 45 Types of Synchronous Generators

Lecture 46 Principle of Operation of Induction Motor

Lecture 47 Types of Induction Machine Rotors

Lecture 48 Principle of Operation of Double fed Induction Generator

Lecture 49 Self Excited Induction Generator

Section 6: Basics of Wind Energy Systems

Lecture 50 Introduction to Wind Energy

Lecture 51 Selection of Type of Wind Turbine

Lecture 52 Rotor Solidity and Selection of Number of Rotor Blades

Lecture 53 Gearbox in Wind Turbines

Lecture 54 Power Available in the Wind Spectra

Lecture 55 Power Extracted by the Wind Turbine

Lecture 56 Betz Limit and Maximum Rotor Efficiency

Lecture 57 Factors Affecting Wind Speed and Density - Height of Tower

Lecture 58 Factors Affecting Air Density

Lecture 59 Example 1

Lecture 60 Example 2

Lecture 61 Applied Force on Wind Turbine, Torque Coefficient and the Importance of the TSR

Lecture 62 Example 3

Lecture 63 Wind Turbine Generator Characteristics

Lecture 64 Example 4

Lecture 65 Effect of Rotor Diameter and Generator Size on Power

Lecture 66 Wind Turbines Spacing

Section 7: Basics of Solar Energy Systems

Lecture 67 Introduction to PV System Construction

Lecture 68 Solar Heating, Solar Irradiation and Panels

Lecture 69 Effect of Temperature and Insolation on V-I Curve in Solar Energy

Lecture 70 PV Installation, Short Circuit and Open Circuit Tests Using Avometer

Lecture 71 Solar Wires and Cables Installation Process

Lecture 72 Mounting of PV System

Lecture 73 Shading and Tilt angle in Solar Energy

Lecture 74 Half Cell Technology in PV System

Lecture 75 Importance of Charge Controller in Solar Energy System

Lecture 76 PWM and MPPT Charge Controllers

Lecture 77 Understanding More About MPPT Charge Controller

Lecture 78 Junction Box in Solar Energy System

Lecture 79 Wiring of Junction Box in Solar Energy System

Lecture 80 Function, Types and Data Sheet of Inverter

Lecture 81 Determining PV Array Maximum System Voltage

Section 8: Extra Lectures on Generation

Lecture 82 Introduction to Generating Power Plants

Lecture 83 Hydroelectric Power Plant

Lecture 84 Types of Hydro Electric Power plant

Lecture 85 Advantages and Disadvantages of Hydro Power Plants

Lecture 86 Nuclear Power Plant

Lecture 87 Geothermal Power Plant and it's Types

Lecture 88 Bonus Lecture

Anyone who wants to learn about Electrical Engineering Power Systems.,Anyone interested in learning about high voltage in electrical system,Electrical engineering students especially electrical power engineers interested in learning about high voltage,Anyone who wants to learn about electrical generating power stations.