Ultimate Electricity Generation, HV, and Substations Bundle from Udemy

"Ultimate Electricity Generation, HV, and Substations Bundle"

This is the only course bundle out there is everything you need to know about electrical substations, electricity generation, and high voltage generation.

So what are you going to learn in these courses?

First Course, "Generation Course for Electrical Engineering"

Faraday's law of induction and Lenz’s law.
Synchronous generator working principle and its types.
Wound rotor and squirrel cage induction machines.
Doubly-fed induction generator.
Self-excited induction generator.
Hydroelectric power plant and its types.
Hydraulic head in hydroelectric power plants.
Diesel generators.
Fossil fuel - conventional power plants.
Gas-fired power plant and its types.
Nuclear power plants.
Geothermal power plant and its types.
Capital, operating, and Levelized costs for power plants.
Generator characteristics.
Base and peak load power plants.
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

Second Course, "High Voltage Generation For Electrical Engineering"

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, "Electrical Substations for Electrical Power Engineering"

Function, classification, and voltage of electrical substations
Main components like power transformers, conductors, insulators, switch gears, current transformers, capacitor voltage transformers, 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 the ETAP program
Ring main unit and its importance in the electrical power system
Types of switches used in 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 arresters and wave traps 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

Bonus Gift:

You will find also the slides for the Ultimate Electrical Substations, HV, and Generation Bundle for those who are interested in them or having them as a revision for themselves

84 Pages of Electrical Substation Slides
32 Pages of Earthing System Slides
52 Pages of High Voltage Slides
105 Pages of Generation Course Slides
81 Pages of Wind Energy Slides
86 Pages of Solar Energy Course Slides

Thank you, and hope to see you in our course bundle :)

What's inside

Learning objectives

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
Faraday's law of induction and lenz’s law
Synchronous generator working principle and its types
Wound rotor and squirrel cage induction machines
Doubly-fed induction generator
Self-excited induction generator
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
Hydroelectric power plant and its types
Hydraulic head in hydroelectric power plants
Diesel generators
Fossil fuel - conventional power plants
Gas-fired power plant and its types
Nuclear power plants
Geothermal power plant and its types
Capital, operating, and levelized costs for power plants
Generator characteristics
Base and peak load power plants
Show more
Show less

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
Faraday's law of induction and lenz’s law
Synchronous generator working principle and its types
Wound rotor and squirrel cage induction machines
Doubly-fed induction generator
Self-excited induction generator
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
Hydroelectric power plant and its types
Hydraulic head in hydroelectric power plants
Diesel generators
Fossil fuel - conventional power plants
Gas-fired power plant and its types
Nuclear power plants
Geothermal power plant and its types
Capital, operating, and levelized costs for power plants
Generator characteristics
Base and peak load power plants
Show more
Show less

Syllabus

Electricity Generation

Introduction to Electricity Generation

Faraday's Law of Induction and Lenz’s Law

Synchronous Generator Working Principle and its Types

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers a wide range of topics, from electricity generation to high voltage systems and electrical substations, offering a comprehensive overview of the field

Includes practical aspects such as earthing system design using ETAP software, which is valuable for real-world applications and professional development

Explores renewable energy sources like wind and solar, including turbine characteristics, solar module selection, and inverter types, reflecting the growing importance of these technologies

Discusses conventional power plants like diesel, fossil fuel, gas, nuclear, and geothermal, providing a solid foundation in traditional electricity generation methods

Features slides for electrical substations, earthing systems, high voltage, generation, wind energy, and solar energy, which can serve as valuable revision materials

Requires familiarity with electrical engineering concepts, which may necessitate additional study for those without a background in the field

Reviews summary

Comprehensive power engineering essentials

According to learners, this bundle offers comprehensive coverage across electricity generation, high voltage systems, and substations. Students frequently highlight the clarity of the explanations provided by the instructor, finding complex topics made accessible. The course is seen as providing practical knowledge, particularly valuing the inclusion of real-world examples and aspects like ETAP software application for substation design. While the course is dense with information, requiring dedicated study, many appreciate the bonus slides as a helpful resource for review. Overall, the feedback indicates a highly positive experience for those seeking a broad yet practical foundation in power systems.

A lot of information packed in.

"Be prepared for a lot of information; it's quite dense."

"The sheer volume of topics means you need dedicated study time."

"While comprehensive, it's a lot to absorb in one go."

"Packed with info, requires focus and review."

Provided slides aid review.

"The bonus slides were great for reviewing the material."

"Having the PDF slides made it easy to revisit key points."

"Appreciated the extra resources like the slides for study."

"Slides are a useful addition for later reference."

Includes practical examples and design.

"The practical examples make the concepts much clearer."

"Learning about ETAP for earthing design was very useful."

"I can apply what I learned about substation components immediately to my work."

"Good overview with practical aspects relevant to the field."

Instructor explains complex topics well.

"The instructor explains complex topics in a very understandable way."

"His explanations were clear and easy to follow, even for tricky concepts."

"I appreciated the clarity of the lectures and the simple language."

"Instructor makes the material easy to grasp."

Covers generation, HV, and substations.

"This bundle covers all key aspects of electricity generation, HV, and substations."

"I feel I got a very comprehensive overview of the power system."

"The course content is extensive and covers a lot of ground."

"Covers a lot of ground, from various generation methods to substations."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Ultimate Electricity Generation, HV, and Substations Bundle with these activities:

Review AC/DC Circuit Theory

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Strengthen your understanding of fundamental circuit concepts before diving into electricity generation and high voltage systems.

Browse courses on AC Circuits

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Review basic circuit laws (Ohm's Law, Kirchhoff's Laws).
Practice solving simple series and parallel circuits.
Study AC and DC power calculations.

Read 'Electrical Power Systems: A Conceptual Introduction'

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Gain a broader understanding of the electrical power grid to contextualize the specific topics covered in the course.

View Electric Power Systems: A Conceptual... on Amazon

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Read the chapters related to power generation and substations.
Take notes on key concepts and terminology.
Reflect on how the book's content relates to the course syllabus.

Design a Simple Substation Layout

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Apply your knowledge of substation components and layouts by designing a basic substation for a specific application.

Show steps

Define the substation's voltage levels and power requirements.
Select appropriate components (transformers, circuit breakers, etc.).
Create a single-line diagram of the substation layout.
Research grounding requirements and implement them in your design.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Create a Presentation on Wind Turbine Technologies

Show steps

Deepen your understanding of wind turbine technologies by creating a presentation that explains different types and their operating principles.

Show steps

Research different types of wind turbines (HAWT, VAWT).
Explain the operating principles of each type.
Discuss the advantages and disadvantages of each type.
Prepare slides with clear diagrams and explanations.

Calculate Power Plant Efficiency

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Reinforce your understanding of power plant efficiency calculations by working through practice problems.

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Gather data on different power plant types (input energy, output energy).
Calculate the efficiency of each power plant.
Compare the efficiencies of different power plant types.

Develop a Fault Analysis Report

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Simulate a fault in a substation and analyze the impact on the system, creating a report detailing your findings.

Show steps

Use simulation software (e.g., ETAP) to model a substation.
Introduce a fault (e.g., short circuit) at a specific location.
Analyze the fault current and voltage profiles.
Document your findings in a detailed report.

Review 'Protective Relaying: Principles and Applications'

Show steps

Gain a deeper understanding of protective relaying principles and their application in electrical substations.

View Protective Relaying: Principles and... on Amazon

Show steps

Read chapters related to relay types and applications in substations.
Study relay coordination principles.
Consider how protective relaying relates to fault analysis.

Career center

Learners who complete Ultimate Electricity Generation, HV, and Substations Bundle will develop knowledge and skills that may be useful to these careers:

Substation Engineer

A substation engineer is responsible for the design, operation, and maintenance of electrical substations. This course bundle, covering electrical substations for electrical power engineering, directly aligns with the core responsibilities of a substation engineer. You will learn about key functions, classifications, and voltages within substations and delve into essential components, including power transformers, conductors, insulators, and switchgears. This course may be especially relevant because it discusses the design of an earthing system using ETAP, a crucial aspect of substation engineering.

See salaries and explore the career path for Substation Engineer

High-Voltage Engineer

High voltage engineers focus on the design, testing, and maintenance of high voltage equipment and systems. This course bundle may be valuable for anyone working with high voltage electricity. You will learn about the methods used to generate high voltage AC at power frequency and high frequency, as well as high voltage impulse generation for equipment testing. This course may be relevant to work with high voltage direct current considering the course also covers, different methods used to generate very high DC voltage in electrical systems.

See salaries and explore the career path for High-Voltage Engineer

Power Systems Engineer

Power systems engineers work on the design, development, and maintenance of electrical power generation and distribution systems. This comprehensive course bundle directly supports the work of a power systems engineer. The course covers electricity generation, high voltage systems, and electrical substations, all essential components of the power grid. By learning about Faraday's law of induction, synchronous generators, and various power plant types, you will build a foundation in electrical power engineering. The course may be especially suited to those who wish to learn about ring main units and their importance in electrical power systems.

See salaries and explore the career path for Power Systems Engineer

Power Plant Engineer

Power plant engineers oversee the operation and maintenance of power generation facilities. This course bundle may be useful for anyone working in a power plant setting, regardless of the energy source. You will examine various power plant types, including hydroelectric, diesel, fossil fuel, gas-fired, nuclear, and geothermal plants. By studying capital, operating, and Levelized costs for power plants, you will have critical insights into the economic aspects of power generation.

See salaries and explore the career path for Power Plant Engineer

Renewable Energy Engineer

A renewable energy engineer specializes in designing and implementing sustainable energy solutions. This course bundle may be useful for specializing in renewable energy sources. It covers various aspects of electricity generation, including wind and solar energy systems. You will examine wind turbine types, solar module selection, and the design of on-grid and off-grid solar systems. Studying capital, operating, and Levelized costs for power plants through this course may be useful for those wishing to enter the renewable energy field.

See salaries and explore the career path for Renewable Energy Engineer

Electrical Testing Engineer

Electrical testing engineers are responsible for ensuring the safety and reliability of electrical equipment and systems through rigorous testing procedures. This comprehensive course bundle may be useful for testing high voltage equipment, which is a critical aspect of the role. The high voltage generation course covers methods for generating high voltage AC and DC, as well as high voltage impulses for simulating switching actions. You will also learn about the definition of impulse waveforms in electrical systems, which could be especially helpful for an electrical testing engineer.

See salaries and explore the career path for Electrical Testing Engineer

Electrical Design Engineer

Electrical design engineers create and develop electrical systems and equipment. This course bundle may be useful for gaining expertise in power generation and distribution. You will explore topics such as high voltage generation, electrical substations, and various electricity generation methods. This course may be particularly helpful because it provides an overview of the design of electrical substations and their single-line diagrams.

See salaries and explore the career path for Electrical Design Engineer

System Protection Specialist

System protection specialists analyze and design protection schemes for electrical power systems. This course bundle may be useful for understanding the intricacies of electrical substations and high voltage systems. You will learn about different types of circuit breakers and relays, along with their classification according to time, construction, and function. The course may be especially suitable for those who want to understand the function, classification, and voltage of electrical substations.

See salaries and explore the career path for System Protection Specialist

Protection and Control Engineer

Protection and control engineers design and maintain systems that protect electrical power systems from faults and ensure stable operation. This course bundle may be useful for understanding the intricacies of electrical substations and high voltage systems. You will learn about different types of circuit breakers and relays. The course may be useful for those who wish to understand the importance of lightning arresters and wave traps used in substations.

See salaries and explore the career path for Protection and Control Engineer

Commissioning Engineer

Commissioning engineers oversee the installation and initial operation of new electrical equipment and systems. This course bundle may be useful for commissioning substations and high voltage equipment, which is a crucial aspect of the role. You will learn about electrical substations for electrical power engineering. This course may be particularly helpful because it provides an overview of the design of electrical substations and their single-line diagrams.

See salaries and explore the career path for Commissioning Engineer

Grid Modernization Engineer

Grid modernization engineers help to improve the efficiency, reliability, and security of electrical grids. This course bundle may be useful for working on modernizing electrical grids, touching upon essential aspects of electricity generation, high voltage transmission, and substation infrastructure. This course may be useful for learning about air and gas-insulated substations, overhead transmission lines, and underground cables, along with their differences and applications in modern grids.

See salaries and explore the career path for Grid Modernization Engineer

Power Electronics Engineer

Power electronics engineers design and develop electronic circuits and systems for controlling and converting electrical power. This course bundle may be useful for gaining a more in-depth understanding of topics that utilize power electronics. You will delve into high voltage DC generation, which often relies on power electronic circuits. By studying types of solar inverters, you will get firsthand insight into the crucial role of power electronics in renewable energy systems.

See salaries and explore the career path for Power Electronics Engineer

Energy Analyst

Energy analysts study energy markets, consumption patterns, and the economic impacts of different energy sources. This course bundle may be useful for those interested in the economic aspects of power generation. You will learn about capital, operating, and Levelized costs for power plants. You will also examine various power plant types, including renewable energy sources, which may be relevant for an energy analyst.

See salaries and explore the career path for Energy Analyst

Energy Storage System Engineer

Energy storage solutions are becoming increasingly important for grid stability and renewable energy integration. This course bundle may be helpful for integration and grid stability. The course covers the fundamentals of solar energy, components, and designs of both on-grid and off-grid solar systems. You will explore topics such as charge controllers and solar inverters, which are essential for any energy storage system.

See salaries and explore the career path for Energy Storage System Engineer

Smart Grid Engineer

Smart grid engineers work to develop and implement advanced technologies for modernizing the electrical grid. This course bundle may be useful for those interested in smart grid technologies and the integration of renewable energy sources. You will learn about electrical substations, high voltage systems, and various electricity generation methods. Studying the single line diagram of a 66/11 kilovolt substation could be especially helpful for those who wish to enter the smart grid field.

See salaries and explore the career path for Smart Grid Engineer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Ultimate Electricity Generation, HV, and Substations Bundle.

Electric Power Systems

Save

Provides a broad introduction to electrical power systems, covering generation, transmission, distribution, and utilization. It's particularly useful for understanding the overall context in which substations and high-voltage systems operate. The book emphasizes conceptual understanding over detailed mathematical analysis, making it accessible to a wide audience and a good starting point for those new to the field. It provides a solid foundation for the more specialized topics covered in the course.

Electric Power Systems: A Conceptual Introduction

Hardcover

$$$$

Protective Relaying

Save

Comprehensive guide to protective relaying, which is crucial for substation operation and high voltage system protection. It covers various relay types, their applications, and coordination strategies. This book is commonly used as a textbook at academic institutions and by industry professionals. It adds more depth to the course's coverage of protective devices.

Protective Relaying: Principles and Applications,...

Hardcover

$$$$

Protective Relaying: Principles and Applications,...

Hardcover

$$$$

Ultimate Electricity Generation, HV, and Substations Bundle

What's inside

Learning objectives

Syllabus

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Save this course

Reviews summary

Comprehensive power engineering essentials

Activities

Career center

Reading list

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