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Ultimate Solar Energy Design Course: Zero to Hero
Solar Energy Panels
Introduction to PV System (24:56)
Types of Busbars and Solar Cells (15:27)
Course Files and PDF Slides
V-I Characteristics of a PV Panel (27:13)
Different Connections of Solar Panels (16:45)
Shading and Half Cut Cells (19:36)
Mounting and Tilt Angle of a PV Panel (27:21)
Calculation of the Tilt Angle in a Location (8:09)
Practical Tilt Angle during Different Seasons (11:52)
Orientation and Azimuth Angle of Solar Panels (8:44)
Sun Chart and Distance between PV Rows (18:44)
Important Note Regarding the Sun Chart (8:29)
Panel Parameters and Measurements (26:46)
Junction Box in PV Panels (17:54)
Solar Wires and Cables Installation Process (28:08)
PV String Maximum Voltage (17:43)
Important Definitions in the Global Solar Atlas (22:29)
Global Solar Atlas PV Simulation (17:49)
Hybrid Photovoltaic Thermal Panel (PVT) (9:35)
Types and Components of PV Systems
Off-Grid, On-Grid, and Hybrid PV Systems (24:07)
Batteries in PV System
Introduction to Batteries (7:46)
Practical Recommendation of Battery System Voltage (12:03)
Components of 24V and 48V PV Systems (14:47)
Battery Capacity and C-Rate (13:57)
C10, C20, and C100 Batteries (10:39)
Battery Connections (13:21)
Cycle of a Battery and DoD (13:58)
Deep Cycle Batteries and Car Batteries (11:24)
Specific Energy and Specific Density of a Battery (4:43)
Self Discharge of a Battery (5:38)
Shelf Life, Cycle Life, and Calendar Life of a Battery (13:42)
Lead Acid Batteries (23:14)
Maintenance of Flooded Lead Acid Batteries (15:08)
Lithium Batteries (17:25)
Nickel Batteries (7:21)
Flow Batteries (2:33)
Cost of Batteries (5:55)
Battery Balancer (8:05)
Lead Acid Battery and Lithium-Ion Charging Cycle (8:30)
Datasheet of a Solar Battery (27:30)
Small Correction in Datasheet (5:06)
Charge Controllers in PV System
Introduction to Charge Controllers (3:01)
PWM Charge Controllers (22:19)
MPPT Charge Controllers (21:01)
Inverters in PV System
Function, Types, and Datasheet of Inverter (55:04)
Design of an Off-Grid Solar Energy System
Example 1 on Design of an Off-Grid PV System (58:00)
Helpful Notes Regarding Example 1 (6:39)
Example 2 on Design of an Off-Grid PV System (34:18)
Helpful Notes Regarding Example 2 (5:47)
Protection of a Solar Energy System
Overcurrent Protection Guide (21:16)
Example on String and Array Protection (26:08)
PV Combiner Box (9:05)
Selection of Fuses and Cables for Example 1 - Off Grid (38:27)
Selection of Fuses and Cables for Example 2 - Off Grid (29:56)
Off-Grid System Design Using PVSyst + 3D Shading Analysis
Notes about the Off-Grid Example (5:49)
Design an Off-Grid System Using PVSyst (53:59)
3D Shading Analysis in PVSyst for Off-Grid System (44:58)
Important Note
Design of a Hybrid PV System
Example on Design of a Hybrid PV System (29:22)
Helpful Notes Regarding Hybrid Design (3:13)
Design of an On-Grid Solar System
Design of an On-Grid Solar System (10:26)
PV Energy According to Area (2:13)
Design of a PV System Using PVSyst Program
Design of Grid Connected System Using PVSyst Program (11:56)
Design Mega PV System Using PVSyst Program
Solar Water Pumping System
Introduction To Water Pumping System And Steps Of Design (24:17)
Solved Example On Solar Pumping System Design (22:31)
Design of PV System Using Excel Sheet
Design of Off-Grid PV System Using Excel Sheet (26:07)
Basics of Autocad and Single Line Diagram of PV System
Starting Autocad and Changing Background (11:13)
Mouse Commands and Selection Methods (9:11)
Drawing a Line (8:49)
Drawing a Rectangle (6:18)
Drawing a Circle (9:49)
Drawing a Polygon (6:50)
Drawing a Polyline (6:24)
Drawing an Arc and an Elipse (7:44)
Drawing a Point and Construction Lines (7:39)
Hatch and Rotate (7:50)
Trim and Extend Commands (6:25)
Adding Text to Autocad (3:31)
Copy and Erase Commands (3:08)
Block and Explode Commands (9:42)
Insert, Scale, and Mirror Commands (6:40)
Move and Align Commands (7:46)
Join, Offset, and Break Commands (6:54)
Divide, Fillet, and Chamfer Commands (15:43)
Drawing Properties and Match Command (7:01)
Distance, Area, and List Commands (5:23)
Adding Dimensions and Styles (21:40)
Layers in Autocad (22:22)
Multi-Spiral Lines and Leaders Commands (13:33)
Purge Command in Autocad (4:15)
Changing Drawing Axes (8:58)
Drawing Fluorescent Symbol and Replace Block Command (7:08)
Printing Options of an Electrical Drawing (14:13)
Autocad Menu Bar and Autosave Feature (14:13)
Single Line Diagram Of PV System And Selection Of Fuses And Breakers (45:01)
Design Of Grounding System
Effect Of Current On Human Body (8:53)
Types Of Electric Hazards (8:26)
Classification Of Earting Systems (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)
MATLAB and ETAP PV Simulation
Simulation Of PV Cell In MATLAB And Obtaining V-I Characteristics (28:21)
How to Solve the Single Output Problem in the To WorkSpace Function (3:35)
Get a Complete Grid-Connected PV System For Free
Simulation of PV System in ETAP
ETAP Course
Introduction to ETAP Course (15:16)
Drawing Single Line Diagram in ETAP (11:35)
Adding Ratings to Components in ETAP (21:33)
Load Flow and Types of Buses (5:29)
Load Flow Analysis Using ETAP (19:02)
Load Flow Analysis at Different Loading Categories (8:32)
Short Circuit Analysis Using ETAP (14:09)
Arc Flash Studies (16:03)
Arc Flash Studies Using ETAP Program (17:05)
Transient Stability Using ETAP 18 (23:18)
Definition of Harmonics (22:44)
Harmonic Analysis Using ETAP (22:58)
Harmonic Filter Using ETAP (13:52)
ETAP Motor Acceleration Analysis - Static Motor Starting (16:33)
ETAP Motor Acceleration Analysis - Dynamic Motor Starting (11:33)
How to add a Starting Method to Motor in ETAP (9:43)
VFD - Variable Frequency Drive Control of Motor in ETAP (9:15)
Basics of Wind Turbine
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)
Effect of Rotor Diameter and Generator Size on Power (5:38)
Example 4 (11:40)
Wind Turbines Spacing (3:55)
Selection of Type of Wind Turbine (16:42)
Rotor Solidity and Selection of Number of Rotor Blades (19:18)
Introduction to Wind Energy Course (20:10)
Gearbox in Wind Turbines (6:01)
Power Extracted by the Wind Turbine (9:56)
Power Available in the Wind Spectra (9:22)
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)
Course Files and PDF Slides
Wind Feasibility Study and Probability Distribution Functions
Important Statistical Definitions (6:35)
Wind Farm Feasibility Study (17:04)
Example 5 (4:15)
Example 6 (6:00)
Method of Bins (9:29)
Weibull and Rayleigh Probability Density Functions (18:32)
Important Note on Weibull Distribution (7:17)
Example 7 (16:05)
Determination of Weibull Parameters Using Graphical Method (8:06)
Determination of Weibull Parameters (9:58)
Example 9 (7:40)
Example 8 (13:21)
Quick Note on Weibull Example (3:30)
Power Control of Wind Turbines
Power Control of Wind Turbines (6:07)
Pitch Controlled Wind Turbines (19:26)
Aerodynamics of Wind Turbines (20:28)
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)
Power Signal Feedback (PSF) Control (4:23)
Perturbation and Observation (P&O) or Hill-Climb Searching (HCS) (9:57)
Optimal Torque Control (OT) MPPT Algorithm (7:49)
Types of Wind Electrical Generators
Permanent Magnet Synchronous Generator (PMSG) (12:47)
Electricity Generation Using Wind Turbines (2:39)
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)
Different Types of Towers
Tubular Steel Wind Turbine Tower (6:08)
Concrete Wind Turbine Tower (3:34)
Lattice Wind Turbine Tower (5:16)
Introduction to Different Types of Towers (1:22)
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)
ETAP Simulation for a Wind Energy System
Simulation of a Wind Turbine System Using ETAP Program (24:21)
MATLAB Simulation for a Wind Energy System
Introduction to Cp Model and Lookup Table in MATLAB Simulink (4:35)
Introduction to MATLAB Simulation of Wind Turbine (13:49)
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)
MPPT Simulation in MATLAB Simulink (11:28)
Introduction to MPPT in MATLAB Simulink (8:10)
Basics of Wave Energy
Introduction to the Course (5:07)
Wave Particles Motion and Types of Waves (6:56)
Wave Packet, Dispersive Waves, and Non-Dispersive Waves (13:15)
Wave Buoy Measurements and Computation of Sea Parameters (25:10)
Dispersion Relation of Different Sea Waves (17:18)
Wave Space, Time, and Height Properties (16:25)
Sea Wave Equation (16:40)
Shoaling Effect in Sea Waves (5:36)
Wave Energy Potential (6:47)
Wave Power – Advantages and Challenges (14:06)
Course Slides
Types of Wave Energy Conversion Systems
Types, Projects, and Design Enhancement of an Oyster (17:39)
Pelamis Wave Power (PWP) (8:03)
Comparison between WECSs (19:52)
Overview, Types, and Projects of AWS (13:15)
Aquabuoy and the Aegir Dynamo Wave Energy Converters (8:12)
Overview, Types, and Projects of Wave Dragon (10:22)
Oyster Wave Energy Converter (6:17)
Overview, Types, and Projects of AquaBuoy Wave Energy Converter (12:01)
Overview, Types, and Projects of Pelamis Wave Energy Converter (17:32)
Introduction to Wave Energy Conversion Systems (17:51)
Wave Dragon and Oscillating Column Wave Energy Converters (15:41)
Overview, Types, and Projects of OWC (18:57)
AWS or Archimedes Wave Swing (12:44)
Feasibility Study of a Wave Energy Resource
Steps of a Feasibility Study in a Wave Energy Resource (39:40)
Example on a Feasibility Study in Spain (34:57)
Practical Tilt Angle during Different Seasons
Complete and Continue