☀️ Solar Energy Systems Design (Photovoltaic Systems)

☀️ Solar Energy Systems Design (Photovoltaic Systems)

Course Code: 2036-MECH
Category: Renewable Energy
Duration: 5 Weeks (15 sessions, 2 hours each)

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📝 Introduction

As the global demand for clean energy increases, solar photovoltaic (PV) systems play a crucial role in sustainable power solutions. This course delivers practical and theoretical knowledge on designing, sizing, and implementing solar energy systems for residential and commercial use.

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📄 Course Description

This hands-on course focuses on the fundamentals of solar energy, components of PV systems, and the process of designing both grid-tied and off-grid systems. It integrates real-world examples, solar design software tools (PVsyst & SketchUp), and practical installation experience.

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🎯 Objectives

By the end of this course, participants will:

• Understand the principles of solar energy and PV technology

• Design efficient and reliable solar energy systems

• Calculate electrical loads and select suitable components

• Work with software tools for system simulation and analysis

• Gain practical knowledge in installation and troubleshooting

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✅ What You Will Learn

• Solar energy fundamentals and PV cell types (Mono, Poly, Thin Film)

• PV system components: panels, inverters, batteries, structures

• Electrical load calculations

• System design: on-grid & off-grid

• Panel orientation, tilt angle, and shading analysis

• System performance improvement techniques

• Installation procedures and safety

• Use of PVsyst and SketchUp for design

• Case studies and full project development

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👥 Target Audience

• ⚡ Electrical & Energy Engineers

• ⚙️ Mechanical Engineers

• 🛠️ Technicians and Renewable Energy Contractors

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📚 Materials Included

• Solar design handouts and presentations

• Excel sheets for load and panel calculations

• PVsyst/SketchUp beginner guides

• Case studies of commercial and residential systems

• Access to session recordings and project templates

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🧰 Requirements

• Basic knowledge of electricity or engineering

• Laptop with Excel and PVsyst/SketchUp installed

• Stable internet connection for online participation

• Enthusiasm for hands-on learning and clean energy

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🕒 Instruction Time Frame

• Total Duration: 5 Weeks

• Sessions: 15 sessions (2 hours each)

• Schedule: 3 sessions/week

• Support: Weekly Q&A and mentoring sessions

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🧑‍🏫 Course Format

• Live Online / In-Person Training

• Hands-On Activities using simulation tools and real-life design scenarios

• Project-Based Learning: Final group project and evaluation

• Certification: Issued upon successful course completion

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🗂️ Detailed Course Content

📅 Week 1: Introduction to Solar Energy & System Components

• Introduction to solar PV systems and how they work

• Types of PV cells: Mono, Poly, Thin Film

• System components: panels, inverters, batteries, mounting structures

• Intro to PVsyst and SketchUp

📅 Week 2: System Design & Load Calculation

• Calculating energy demand and load estimation

• Determining panel count and system size

• Selecting inverters and batteries

• On-grid vs Off-grid design

• 🛠️ Practical Task: Design a solar system for a house

📅 Week 3: Panel Orientation, Shading, and Efficiency

• Optimal panel tilt and direction

• Shading effects and how to mitigate them

• System performance optimization techniques

• 🛠️ Software Task: Use PVsyst to simulate performance

📅 Week 4: Installation, Safety, and Maintenance

• Installation steps and checklists

• Electrical safety protocols

• Troubleshooting and maintenance techniques

• 🛠️ Hands-On Exercise: Simulate a mini PV installation

📅 Week 5: Case Studies and Final Project

• Review of real residential and commercial systems

• Full project design and documentation

• 🧑‍🏫 Final Project Presentation and Evaluation

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