Ultimate Renewable Energy Bundle Course
Master the Future of Energy: From Solar Design to Wind, Wave, and Electric Vehicles
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Imagine confidently designing, analyzing, and implementing cutting-edge renewable energy systems—from solar and wind power to ocean wave converters and EV charging infrastructure. This course is your comprehensive, all-in-one journey that takes you from complete beginner to advanced designer, capable of working on-grid, off-grid, and hybrid systems with real-world applications.
Whether you're a student, engineer, technician, or professional looking to shift into renewables, this is the only course you'll ever need to master renewable energy from A to Z.
💡What You’ll Learn in the Solar Energy Course
This isn’t just another solar energy course; it's the only course that provides everything you need to know about solar energy—from A to Z. With step-by-step instruction and real-world insights, you'll master the skills and techniques used by industry professionals to design efficient and reliable solar systems.
This course has been meticulously crafted to ensure you gain all the tools, techniques, and knowledge required to excel:
✅Solar Energy Fundamentals – Grasp the essential principles behind solar power, building a strong foundation.
✅System Components and Design – Master the design of both on-grid and off-grid systems, understanding each component’s role and selection.
✅Solar Module Selection – Explore different types of solar panels, so you can choose the most suitable modules for your projects.
✅Charge Controllers and Inverters – Learn how to select and configure controllers and inverters for maximum system efficiency.
✅Optimal Tilt Angle and Shading – Gain insights into angle adjustment and shading impacts, optimizing energy capture in any location.
✅Battery Selection and Maintenance – Learn about battery types, sizing, and proper selection techniques for robust energy storage.
✅Solar Water Pumping Systems – Understand the unique considerations for designing efficient solar-powered water pumps.
✅Grounding and Protection Design – Master the essentials of protection, grounding, and creating a single-line diagram for system safety and reliability.
✅Software Simulations – Use AutoCAD and PVSyst to design accurate, professional-grade PV systems with ease.
✅ Electric Traction Basics – Understand self-contained electric traction, its components, and the advantages and disadvantages of traction systems.
✅ Track Electrification Systems – Learn the configurations of DC and low-frequency AC systems, including the Kando system and single-phase to DC conversion.
✅ Speed-Time Curve Analysis – Analyze typical, trapezoidal, and quadrilateral speed-time curves with definitions, quantities, and practical examples.
✅ Traction Components Overview – Explore the AC locomotive block diagram, overhead equipment collectors (trolley, bow, pantograph), and leakage current mitigation using negative boosters.
✅ Train Motion and Tractive Effort – Study the equations of train motion, power and energy from driving axles, adhesive weight, and specific energy output.
🌐 Multilingual Subtitles Available
English, Arabic (العربية), Hindi (हिन्दी), German (Deutsch), French (Français), Spanish (Español)
Need another language? Contact us—we’re happy to help!
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Course Curriculum
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StartIntroduction to PV System (24:56)
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StartTypes of Busbars and Solar Cells (15:27)
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StartCourse Files and PDF Slides
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StartV-I Characteristics of a PV Panel (27:13)
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StartDifferent Connections of Solar Panels (16:45)
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StartShading and Half Cut Cells (19:36)
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StartMounting and Tilt Angle of a PV Panel (27:21)
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StartCalculation of the Tilt Angle in a Location (8:09)
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StartPractical Tilt Angle during Different Seasons (11:52)
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StartOrientation and Azimuth Angle of Solar Panels (8:44)
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StartSun Chart and Distance between PV Rows (18:44)
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StartImportant Note Regarding the Sun Chart (8:29)
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StartPanel Parameters and Measurements (26:46)
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StartJunction Box in PV Panels (17:54)
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StartSolar Wires and Cables Installation Process (28:08)
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StartPV String Maximum Voltage (17:43)
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StartImportant Definitions in the Global Solar Atlas (22:29)
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StartGlobal Solar Atlas PV Simulation (17:49)
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StartHybrid Photovoltaic Thermal Panel (PVT) (9:35)
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StartIntroduction to Batteries (7:46)
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StartPractical Recommendation of Battery System Voltage (12:03)
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StartComponents of 24V and 48V PV Systems (14:47)
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StartBattery Capacity and C-Rate (13:57)
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StartC10, C20, and C100 Batteries (10:39)
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StartBattery Connections (13:21)
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StartCycle of a Battery and DoD (13:58)
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StartDeep Cycle Batteries and Car Batteries (11:24)
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StartSpecific Energy and Specific Density of a Battery (4:43)
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StartSelf Discharge of a Battery (5:38)
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StartShelf Life, Cycle Life, and Calendar Life of a Battery (13:42)
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StartLead Acid Batteries (23:14)
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StartMaintenance of Flooded Lead Acid Batteries (15:08)
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StartLithium Batteries (17:25)
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StartNickel Batteries (7:21)
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StartFlow Batteries (2:33)
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StartCost of Batteries (5:55)
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StartBattery Balancer (8:05)
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StartLead Acid Battery and Lithium-Ion Charging Cycle (8:30)
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StartDatasheet of a Solar Battery (27:30)
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StartSmall Correction in Datasheet (5:06)
You will also be rewarded with a certificate of completion after completing the course