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The 2022 Complete Renewable Energy Engineer Preparation Bundle

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12
Lessons
225
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Content
3.0 hours
Lessons
26

Basics of Wind Turbines

The Only Course Out There with Everything You Need to Know About Wind Energy from A to Z

By Ahmed Mahdy | in Online Courses

Learn the basics of wind energy in this comprehensive course. You will understand everything about wind energy systems such as the basic components, factors affecting the wind generation, the different probability distribution functions used to represent wind data, and wind feasibility study. You will be able to simulate the wind turbine system in both ETAP and MATLAB programs.

4.4/5 average rating: ★ ★ ★ ★

  • Access 26 lectures & 3 hours of content 24/7
  • Know the types of wind turbines
  • Learn how power is extracted by the turbine from the wind
  • Learn about applied force on the wind turbine, torque coefficient, & the importance of the TSR
  • Determine Weibull parameters
  • Know the maximum power point tracking in wind turbines
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: beginner
  • Have questions on how digital purchases work? Learn more here

Requirements

  • No prior knowledge except basics of electric circuits

Course Outline

  • Your First Program

  • Basics of Wind Turbines

    • Introduction to Wind Energy Course - 20:10
    • Course Files
    • Selection of Type of Wind Turbine - 16:42
    • Rotor Solidity and Selection of Number of Rotor Blades - 19:18
    • Gearbox in Wind Turbines - 6:01
    • Power Available in the Wind Spectra - 9:22
    • Power Extracted by the Wind Turbine - 9:56
    • Betz Limit and Maximum Rotor Efficiency - 11:52
    • Factors Affecting Wind Speed and Density - Height of Tower - 19:27
    • Factors Affecting Air Density - 7:55
    • Example 1 - 7:13
    • Example 2 - 5:24
    • Applied Force on Wind Turbine, Torque Coefficient and the Importance of the TSR - 16:07
    • Example 3 - 5:10
    • Wind Turbine Generator Characteristics - 10:13
    • Example 4 - 11:40
    • Effect of Rotor Diameter and Generator Size on Power - 5:38
    • Wind Turbines Spacing - 3:55
  • Different Types of Towers

    • Introduction to Different Types of Towers - 1:22
    • Tubular Steel Wind Turbine Tower - 6:08
    • Lattice Wind Turbine Tower - 5:16
    • Concrete Wind Turbine Tower - 3:34
    • Hybrid Wind Turbine Tower - 3:33
  • Braking System in Wind Turbine

    • Introduction to Brakes in Wind Turbine - 3:14
    • Rotor Brakes in Wind Turbine - 5:55
    • Pitch Drive or Aerodynamic Brakes in Wind Turbine - 4:26

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13

ETAP Power System Protection Analysis for Electrical Engineers

Learn ETAP, Power System Analysis, & Supporting Hand Calculations from ETAP Expert

By Elektrik Power Academy | in Online Courses

ETAP is an analytical engineering software that is helpful for an electrical engineer to simulate and analyze the steady-state and dynamic power system. It is used by various sectors such as Generation, Transmission, Distribution, Industrial, Transportation, and Low voltage. This course aims to learn power system modeling & analysis using ETAP software, which will cover a range of ETAP functionalities used to design & solve various power system practical problems.

4.2/5 average rating: ★ ★ ★ ★

  • Access 13 lectures & 3 hours of content 24/7
  • Learn the fundamentals of Power System Analysis
  • Design & simulate Electrical Power System using ETAP 19.5 Software
  • Create new projects in ETAP
  • Understand ETAP software overview & toolbars
  • Create single line diagram in ETAP With Conventional Modelling Method & Auto-Build
Elektrik Power Academy
4.2/5 Instructor Rating: ★ ★ ★ ★

Elektrik Power Academy has rich experience in power system analysis, substation & switchyard design, and engineering, and power system protection. As experienced professionals, they have worked on various power system analysis projects, substation/switchyard detailed design & engineering up to 400kV. They've also very passionate about power system analysis & power system protection subjects.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Fundamentals of electrical engineering

Course Outline

  • Introduction - ETAP Power System Protection Analysis
    • Introduction - ETAP Power System Protection Analysis - 7:14
  • Protection and Coordination Analysis - Radial System
    • Protection and Coordination Analysis Fundamentals - Radial System - 22:56
    • Protection and Coordination Analysis Example - Radial System - 52:15
  • Automated Protection and Coordination Analysis - Star Auto Evaluation
    • Automated Protection and Coordination Analysis - Star Auto Evaluation - 12:27
  • Protection and Coordination Analysis - Ring Main System (RMU)
    • Understanding of CT Polarity - 2:20
    • Protection and Coordination Analysis Fundamentals - Ring Main System (RMU) - 14:14
    • Protection and Coordination Analysis Example - Ring Main System (RMU) - 5:08
  • Protection and Coordination Analysis - Multiple Parallel Sources
    • Protection and Coordination Analysis Fundamentals - Multiple Parallel Sources - 7:24
    • Protection and Coordination Analysis Example_1 - Multiple Parallel Sources - 11:13
    • Protection and Coordination Analysis Example_2 - Multiple Parallel Sources - 7:47
    • Protection and Coordination Analysis Example_3 - Multiple Parallel Sources - 5:51
  • Voltage Dependent Protection and Coordination Analysis For Generators
    • Voltage Dependent Protection and Coordination Analysis Fundamental - Generators - 12:59
    • Voltage Dependent Protection and Coordination Analysis Example - Generators - 27:20

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29

ETAP Power System Analysis for Electrical Engineers

Achieve Your Goals to Become an ETAP & Power System Expert

By Elektrik Power Academy | in Online Courses

The purpose of this course is to learn power system modeling & analysis using ETAP software which will cover a range of ETAP functionalities used to design & solve various power system practical problems. The course will begin with the software overview, basics of one-line diagram creation, and data entry, and quickly expand the users’ knowledge to include methods to automatically perform multiple ‘what if’ studies using multiple scenarios. Wherever possible, the topics are explained with hand calculations and results are compared with ETAP software so that it becomes easier for the attendees to understand the concepts.

4.2/5 average rating: ★ ★ ★ ★

  • Access 29 lectures & 8 hours of content 24/7
  • Learn the fundamentals of power system analysis
  • Design & simulate electrical power system using ETAP 19.5 Software
  • Create new project in ETAP
  • Understand ETAP software overview & toolbars
Elektrik Power Academy
4.2/5 Instructor Rating: ★ ★ ★ ★

Elektrik Power Academy has rich experience in power system analysis, substation & switchyard design, and engineering, and power system protection. As experienced professionals, they have worked on various power system analysis projects, substation/switchyard detailed design & engineering up to 400kV. They've also very passionate about power system analysis & power system protection subjects.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Fundamentals of electrical engineering

Course Outline

  • Introduction of ETAP Software Course
    • Introduction of ETAP Software Course - 6:37
    • Why To Use Power System Analysis Software - 6:39
  • Creating a New Project in ETAP
    • Creating a New Project in ETAP - 6:28
  • ETAP Software Overview
    • ETAP Software Overview - 10:46
  • How To Create Single Line Diagram in ETAP
    • How To Create Single Line Diagram in ETAP - 8:48
  • Load Flow Analysis
    • Load Flow Analysis Fundamentals - 21:17
    • Load Flow Hand Calculations and Comparing With ETAP software - 18:46
    • Load Flow Analysis Example - 32:09
    • Transformer X/R Ratio Calculation - 3:35
    • Generator Load Sharing Calculations - 8:48
  • Equipment Sizing Calculations
    • Cable Ampacity & Sizing Calculations - 21:51
    • Transformer MVA Sizing - 15:04
  • Short Circuit Analysis
    • Short Circuit Analysis Fundamentals - 23:51
    • Short Circuit Hand Calculations and Comparing With ETAP software - 8:42
    • Short Circuit Analysis Example - 35:03
  • Protection & Coordination Analysis (Relay Coordination Analysis)
    • Protection & Coordination Analysis Fundamentals - 22:56
    • Protection & Coordination Analysis Example - 52:15
  • Arc Flash Analysis Using IEEE:1584-2002 Standard
    • Arc Flash Analysis Fundamentals - 23:37
    • Arc Flash Analysis Example - 20:52
  • Motor Starting Analysis
    • Motor Starting Analysis Fundamentals - 10:56
    • Motor Starting Analysis Example-I - 26:03
    • Motor Starting Analysis Example-II - 7:45
  • Transient Stability Analysis
    • Transient Stability Analysis Fundamentals - 28:37
    • Transient Stability Analysis - Example-I (Load Addition/Rejection) - 18:35
    • Transient Stability Analysis - Example-II (Faulted Transient) - 14:28
    • Transient Stability Analysis - Example-III (Load Shedding) - 7:34
  • Harmonic Analysis
    • Harmonic Analysis Fundamentals - 24:18
    • Harmonic Analysis Example - 34:06
  • Ground Grid Analysis
    • Ground Grid Analysis Theory and Example - 16:26

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24

Electronic & Electrical Devices Maintenance and Troubleshooting

Start Playing with Electronic Components & Fix Electronic Devices

By Educational Engineering Team | in Online Courses

This is a comprehensive course that helps you in learning and dealing professionally with electronic components and electronic device maintenance. It's intended for those interested in learning electronics and electrical devices and board troubleshooting; it's also ideal for anyone with a need to brush up their knowledge of basic electronics.

  • Access 24 lectures & 1 hour of content 24/7
  • Understand the concepts of voltage, resistance, & current
  • Understand the VOLT OHM Meter/Digital Multi Meter and how to use it safely
  • Use Ohm's Law to calculate voltage, current, & resistance
  • Use resistors in various configurations
  • Understand & use capacitors
  • Understand & use diodes
  • Understand & use a transistor
Educational Engineering
4.0/5 Instructor Rating: ★ ★ ★ ★

Educational Engineering team is a leading team in the microcontroller industry with over 13 years of experience in teaching and doing practical projects. They strive to put all their hands-on experience into these courses. They go into the depth of the topic and give the exact, step-by-step blueprint on how to tame simple as well as complex topics in easy and digestible bite-sized videos.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • A multimeter
  • A breadboard, jumper wires and a battery
  • Resistors, capacitors, LEDs, diodes, transistors, voltage regulators

Course Outline

  • Electronic & Electrical Devices Maintenance
    • 1_Introduction - 2:09
    • 2Becominga_Troubleshooter - 1:36
    • 3ToolsNeeded - 0:45
    • 4_Multimeters - 7:00
    • 5WireCutterandStripper - 2:30
    • 6WiringToolsSolderingIron - 2:28
    • 7ScrewDrivers - 3:15
    • 8_Pliers - 1:58
    • 9_Wrench - 2:03
    • 10OscilliscopeandFunctionGenerator - 3:11
    • 11PassiveElectronic_Components - 3:20
    • 12ActiveElectronicComponentDiode - 2:31
    • 13ActiveElectronicComponentTransistor - 3:09
    • 14CommonEelectronicandElectrical_Symbols - 4:53
    • 15TestingA_Fuse - 2:36
    • 16TestingABulbor_Lamp - 1:43
    • 18TestingA_Transformer - 4:16
    • 19TestingA_Resistance - 7:46
    • 17Testinga_Switch - 1:18
    • 20SafetyConcerns - 4:40
    • 21MainConcerns_Maintenance - 1:48
    • 22MainConcerns_Servicing - 1:51
    • 23TroubelshootingPart1 - 3:15
    • 24TroubelshootingPart2 - 4:03

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12

Solar Energy & Wind Energy Simulations in ETAP and MATLAB

Simulate Solar & Wind Energy Systems in ETAP and MATLAB Programs

By Ahmed Mahdy | in Online Courses

This course covers the simulation of a wind turbine system using the ETAP program and MATLAB. First, the student will learn how to set up the wind turbine system in ETAP. The student will then learn how to obtain the V-I characteristics of a PV cell in MATLAB. Finally, the student will learn how to simulate a solar energy system in ETAP.

4.4/5 average rating: ★ ★ ★ ★

  • Access 12 lectures & 3 hours of content 24/7
  • Learn simulation of a wind turbine system using the ETAP program
  • Do a MATLAB simulation of the wind turbine
  • Explore Cp plotting & lookup table in MATLAB
  • Simulate PV cell & obtain V-I characteristic in MATLAB
  • Get free completed grid-connected PV system in MATLAB
  • Simulate solar energy system in ETAP
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Basic understanding of data centers, layouts, and common terms

Course Outline

  • MATLAB Simulation for a Wind Energy System
    • Introduction to MATLAB Simulation of Wind Turbine - 13:49
    • Introduction to Cp Model and Lookup Table in MATLAB Simulink - 4:35
    • Cp Plotting in MATLAB Simulink - 14:28
    • Cp Lookup Table in MATLAB Simulink - 13:29
    • Modeling and Simulation of Wind Turbine Part 1 - 20:07
    • Modeling and Simulation of Wind Turbine Part 2 - 14:08
    • Introduction to MPPT in MATLAB Simulink - 8:10
    • MPPT Simulation in MATLAB Simulink - 11:28
  • ETAP Simulation for a Wind Energy System
    • Simulation of a Wind Turbine System Using ETAP Program - 24:21
  • MATLAB Simulation for a Solar Energy System
    • Simulation of PV Cell in MATLAB and Obtaining V-I Characteristics - 28:21
    • Get a Complete Grid-Connected PV System for Free - 25:26
  • ETAP Simulation for a Solar Energy System
    • Simulation of PV System in ETAP - 24:27

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16

Protection of PV System & Earthing System

Understand How to Protect a PV System from Electric Hazards & Faults

By Ahmed Mahdy | in Online Courses

This online course will provide you with a comprehensive understanding of the protection of PV systems and earthing systems. You will learn about the different types of protection and devices used in PV systems along with the grounding of PV systems. This course will help you understand how to protect a PV system from electric hazards and faults. Additionally, you will understand how to select appropriate components of an earthing system for your project.

  • Access 16 lectures & 2 hours of content 24/7
  • Be familiar with the protection of PV systems
  • Learn a selection of fuses & protection of string in solar energy system
  • Learn the protection of arrays, inverter, & transformer in solar energy system
  • Know the types of BusBars in PV system & selection of BusBars
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Protection of PV System
    • Introduction to Protection of PV System - 6:45
    • Selection of Fuses and Protection of String in Solar Energy System - 12:56
    • Protection of Arrays in Solar Energy System - 6:41
    • Protection of Inverter in Solar Energy System - 7:10
    • Protection of Transformer in Solar Energy System - 6:44
    • Surge Protection Device in Solar Energy System - 2:11
    • Grounding of Solar Energy System - 6:48
    • Types of BusBars in PV System and Selection of BusBars - 11:53
  • Design of Grounding System
    • Effect of Current on Human Body - 8:53
    • Types of Electric Hazards - 8:26
    • Classification of Earthing System - 23:32
    • Components of Earthing System - 8:54
    • Design and Resistance of Earthing Electrode - 12:21
    • Design and Resistance of Earthing Conductor - 13:00
    • Measurement of Earth Resistance by Megger and Three Point Method - 3:28
    • Design Earthing or Ground Grid Using ETAP - 21:02

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3

Solar Water Pumping System & Mega Scale PV Design

Design a Solar Water Pumping System from the Ground Up

By Ahmed Mahdy | in Online Courses

In this course, you will learn all about the components of a solar water pumping system and how to design one from scratch. You will also learn about mega-scale PV system design using the PVsyst program. This course is perfect for anyone interested in learning more about solar water pumping systems or designing their own PV system.

  • Access 3 lectures & 1 hour of content 24/7
  • Be familiar with solar water pumping system components & how to design it
  • Study an example of solar pumping system design
  • Learn the Mega PV system design using the PVsyst program
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Solar Water Pumping System Design
    • Introduction to Water Pumping System and Steps of Design - 24:17
    • Solved Example on Solar Pumping System Design - 22:31
  • Mega Scale PV System Design
    • Design Mega PV System Using PVSyst Program - 29:24

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46

Off Grid & On Grid PV Systems Design Course

Learn About the Different Components of On & Off Grid PV Systems and How to Design These Systems

By Ahmed Mahdy | in Online Courses

Throughout the course you will learn about off-grid systems, their components, advantages, and disadvantages. It will also cover manual calculations, inverter selections, and more. The same goes for tackling on-grid systems. All of these topics are in step-by-step lessons with many solved examples.

  • Access 46 lectures & 4 hours of content 24/7
  • Learn off-grid & on-grid systems, their components, and disadvantages
  • Understand inverter selection, charge controller selection, MPPT charge controller sizing, & also the selection and datasheet of panels
  • Know the single line diagram for off-grid or standalone PV system
  • Study the on-grid system design using manual calculations & the PVsyst program
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Components and Design of The Off Grid System
    • Construction of Off-Grid Solar System - 2:06
    • Course Files
    • Advantages of Off-Grid Solar System - 1:42
    • Equipment of Off-Grid Solar System - 3:57
    • Selection and Datasheet of the Panel - 4:13
    • Inverter Selection - 2:05
    • Example 1 on Design of an Off Grid System - 0:48
    • Determine Power Consumption Demands - 4:00
    • Size The PV Modules - 4:39
    • Inverter Sizing in Solar Energy System - 3:55
    • Battery Sizing in Solar Energy System - 7:55
    • Solar Charge Controller Sizing in Solar Energy System - 4:34
    • MPPT Charge Controller Sizing in Solar Energy System - 10:01
    • Example 2 Design of an Off Grid System - 19:32
  • Design of an on Grid PV System
    • Grid-Tied Solar Energy System - 2:37
    • Advantages of Grid-Tied Solar Energy System - 3:35
    • Equipment of Grid-Tied Solar Energy System - 3:00
    • Example Design of an on Grid Solar Energy System - 10:26
    • PV Energy According to Area in Solar Energy System - 2:13
  • Design of PV System Using PVSyst Program
    • Design of an off Grid Solar Energy System Using PVSYST Program - 28:28
    • Design of an on Grid Solar Energy System Using PVSyst Program - 11:56
  • Design of PV System Using Excel File
    • Design of off Grid PV System Using Excel Sheet - 26:07
  • Basics of Autocad And Single Line Diagram of PV System
    • Introduction to Autocad - 2:04
    • How to Get Free License from Autodesk and Activate Autocad ? - 4:38
    • Starting Autocad and Changing Background - 2:47
    • Drawing a Line in Autocad - 4:07
    • Drawing a Rectangle in Autocad - 4:28
    • Drawing a Circle in Autocad - 1:21
    • Drawing a Polygon in Autocad - 3:11
    • Drawing an Arc in Autocad - 1:27
    • Drawing a PolyLine in Autocad - 3:12
    • Multiple Lines using the Offset feature - 3:16
    • Adding Text to Autocad - 3:30
    • Extending Lines in Autocad - 1:51
    • Selection in Autocad - 4:50
    • F-shortcuts in Autocad - 1:51
    • Dimensions in Autocad - 4:04
    • Multi Spiral Line and MLD in Autocad - 2:28
    • Block and Explode Commands in Autocad - 2:21
    • Move and Scale Commands in Autocad - 1:50
    • Rotate, Mirror and Fillet Commands in Autocad - 2:39
    • Area Calculation and Adding Layer in Autocad - 3:41
    • Saving Your File And Autosave Feature - 7:43
    • Drawing Fluorescent Symbol Using Autocad - 6:41
    • Autocad Classic Mode and Workspace - 3:20
    • Single Line Diagram of PV System and Selection of Fuses And Breakers - 45:01

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19

Basics of Solar Energy

A Comprehensive Course on Solar Power, From PV Cells to Controllers & Inverters

By Ahmed Mahdy | in Online Courses

This course will teach you the basics of solar energy, including how to construct and connect PV cells, the advantages and disadvantages of PV cells, and how to maximize power output through sun tracking and MPPT techniques. You will also learn about different types of PV cells, their efficiency, and how to wire a junction box. Finally, the importance of the solar inverter will be discussed.

4.5/5 average rating: ★ ★ ★ ★

  • Access 19 lectures & 3 hours of content 24/7
  • Learn about sun tracking to get max output power from PV cells
  • Know the effect of insolation, temperature, & load resistance on power.
  • Learn the different types of PV cells & their efficiency
  • Determine the PV max voltage & power consumption demands
  • Learn about the importance of the solar inverter & its different types
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: beginner
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Basics of Solar Energy
    • Introduction to PV System Construction - 23:39
    • Course Files
    • Solar Heating, Solar Irradiation and Panels - 37:34
    • Effect of Insolation and Temperature on V-I Curve - 4:43
    • PV Installation, Short Circuit and Open Circuit Tests Using Avometer - 15:06
    • Solar Wires and Cables Installation Process - 22:15
    • Mounting of PV System - 4:26
    • Shading and Tilt Angle - 14:53
    • Importance of Charge Controller - 3:01
    • PWM and MPPT Charge Controllers - 13:52
    • Junction Box - 3:32
    • Wiring of Junction Box - 5:21
    • Function, Types And Data Sheet of Inverter - 55:04
    • Determining PV Array Max Voltage - 9:08
    • Can I install Solar Panels by Myself ?
  • Batteries in PV System
    • Construction and Types of Batteries Used - 8:29
    • Charging of Lead Acid Batteries and Hydrometer - 6:49
    • Maintenance of Batteries and Methods of Charging - 2:56
    • Cycle of Batteries - 3:37

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14

Wind Feasibility Study & Probability Distribution Functions

Learn the Importance of Wind Feasibility Study & How to Represent Wind Data Using Weibull Distribution

By Ahmed Mahdy | in Online Courses

This course is designed to provide you with a comprehensive understanding of the wind feasibility study and how to represent wind data using Weibull distribution. You'll learn about the key components of a wind farm feasibility study, including the different types of data that are collected and how to use Weibull and Rayleigh probability density functions to represent this data. Additionally, you'll learn how to determine the Weibull parameters that are necessary for accurate data analysis. Finally, you'll explore the graphical method for determining Weibull parameters, which can be used as an alternative to the traditional mathematical approach.

  • Access 14 lectures & 2 hours of content 24/7
  • Learn the wind farm feasibility study
  • Know Weibull & Rayleigh probability density functions
  • Determine Weibull parameters
  • Determine Weibull parameters using the graphical method
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Wind Feasibility Study and Probability Distribution Functions
    • Wind Farm Feasibility Study - 17:04
    • Course Files
    • Important Statistical Definitions - 6:35
    • Example 5 - 4:15
    • Example 6 - 6:00
    • Method of Bins - 9:29
    • Weibull and Rayleigh Probability Density Functions - 18:32
    • Determination of Weibull Parameters - 9:58
    • Important Note on Weibull Distribution - 7:17
    • Example 7 - 16:05
    • Determination of Weibull Parameters Using Graphical Method - 8:06
    • Example 8 - 13:21
    • Example 9 - 7:40
    • Quick Note on Weibull Example - 3:30

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Lifetime
Content
3.0 hours
Lessons
18

Types of Electrical Generators, Maximum Power Point Tracking, & Power Control

Different Types of Electrical Generators in Wind Systems, How to Control Them, & How to Produce Maximum Power

By Ahmed Mahdy | in Online Courses

In this course, you will learn about different types of electrical generators used in wind turbines, how to control them, and how to produce maximum power. The course will cover topics such as the aerodynamics of wind turbines, pitch control, stall control, and maximum power point tracking. You will also learn about different algorithms used to control the power output of wind turbines, such as the tip speed ratio (TSR) control, optimal torque control (OT), and power signal feedback (PSF) control.

  • Access 18 lectures & 3 hours of content 24/7
  • Understand the aerodynamics of wind turbines
  • Learn about pitch-controlled, passive stall controlled, & active stall controlled wind turbines
  • Learn about maximum power point tracking in wind turbines
  • Know tip speed ratio (TSR) control, optimal torque control (OT) MPPT algorithm, & more
Ahmed Mahdy | Khadija Academy
4.4/5 Instructor Rating: ★ ★ ★ ★

Ahmed Mahdy is an electrical power engineer and an online instructor at more than 9 platforms. He founded "Khadija Academy", a website for electrical engineering courses. He has a YouTube educational engineering channel called “Khadija Academy" and regularly posts videos related to electrical engineering. He's also an author on Amazon Kindle with 6 books about electrical engineering. In 2018, Udemy awarded him as one of the top 10% most engaging instructors.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: all levels
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Any device with basic specifications

Course Outline

  • Power Control of Wind Turbines
    • Power Control of Wind Turbines - 6:07
    • Course Files
    • Aerodynamics of Wind Turbines - 20:28
    • Pitch Controlled Wind Turbines - 19:26
    • Passive Stall Controlled Wind Turbines - 7:15
    • Active Stall Controlled Wind Turbines - 7:50
  • Maximum Power Point Tracking Wind Turbines (MPPT)
    • Introduction to Maximum Power Point Tracking Wind Turbines (MPPT) - 18:49
    • Tip Speed Ratio (TSR) Control - 27:33
    • Optimal Torque Control (OT) MPPT Algorithm - 7:49
    • Power Signal Feedback (PSF) Control - 4:23
    • Perturbation and Observation (P&O) or Hill-Climb Searching (HCS) - 9:57
  • Types of Wind Electrical Generators
    • Electricity Generation Using Wind Turbines - 2:39
    • Permanent Magnet Synchronous Generator (PMSG) - 12:47
    • Wound Rotor Synchronous Generator (WRSG) - 4:47
    • Doubly-Fed Induction Generator (DFIG) - 22:55
    • Brushless Permanent Magnet DC Generator (PMDC) - 9:58
    • Squirrel-Cage Induction Generator - 10:38
    • Wound Rotor Induction Generator - 8:22

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Lifetime
Content
5.0 hours
Lessons
5

Data Center Essentials: Power & Electrical Systems

The Power & Electrical Systems that Support Data Centers and the Internet

By John Peterson | in Online Courses

In this course, we dive more deeply into the electrical and power systems and components that support data centers. With data centers using about 5% of the world's energy and growing, these power systems are ever-expanding and improving. With the internet expected to be an essential part of our lives, the electrical infrastructure supporting the data centers that power the internet is becoming more essential to understand and support.

4.6/5 average rating: ★ ★ ★ ★

  • Access 5 lectures & 5 hours of content 24/7
  • Learn the fundamentals of data center electrical & power systems
  • Understand the redundancy concepts for electrical distribution & equipment
  • Understand electrical equipment, systems & controls
  • Know how differing priorities & data center types change the electrical design
John Peterson | Professional Engineer
4.6/5 Instructor Rating: ★ ★ ★ ★

John Peterson is a registered professional engineer specializing in mission-critical and data center design and efficiency. He is also a speaker and technical author on energy and sustainability techniques for data centers. John's continued involvement with the many industry leaders has helped to cross boundaries between IT, facilities, sustainability, and reliability.

Important Details

  • Length of time users can access this course: lifetime
  • Access options: desktop & mobile
  • Redemption deadline: redeem your code within 30 days of purchase
  • Experience level required: beginner
  • Have questions on how digital purchases work? Learn more here

Requirements

  • Basic understanding of data centers, layouts, and common terms

Course Outline

  • Data Center Essentials: Power & Electrical Systems
    • E1 Electrical Systems Introduction - 63:35
    • E2 Voltages & Components - 85:38
    • E3 Data Center UPS Systems - 48:21
    • E4 Power Distribution Units - 53:27
    • E5 Conductors, Conduits & Breakers - 55:20

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Terms

  • Unredeemed licenses can be returned for store credit within 30 days of purchase. Once your license is redeemed, all sales are final.