This course is aimed at equipping participants with the technical knowledge and practical skills required to design efficient and reliable solar photovoltaic (PV) systems for residential, commercial, and industrial applications.
Key Objectives:
1. Understand Solar Energy Fundamentals
• Learn the basic principles of solar radiation, photovoltaic effect, solar technology types, and solar potential
2. Component Knowledge & Selection
• Study various components of a solar system – PV modules, inverters, batteries, charge controllers, mounting structures, and balance of system (BOS) equipment
3. Solar System Types & Applications
• Understand the design and use of:
â—¦ On-grid (grid-tied) systems
â—¦ Off-grid (standalone) systems
â—¦ Hybrid systems
4. Site Assessment & Solar Potential Analysis
• Assess rooftops or ground spaces using tools like Google SketchUp, PVsyst, or Helioscope
• Calculate solar potential
5. System Sizing and Load Calculation
• Determine electrical load requirements, panel sizing, battery backup, and inverter capacity based on project needs
6. Shadow Analysis and Tilt Angle Optimization
• Analyze shading and determine optimum tilt angle and orientation for maximum energy output
7. Wiring, Cabling & Single Line Diagram (SLD)
• Design electrical layouts, DC & AC cabling, and safety devices following standard practices and safety codes
8. Performance Prediction & Financial Feasibility
• Estimate system performance, energy generation, ROI, payback period
• Prepare basic project feasibility reports
9. Installation Guidelines & Safety Protocols
• Understand key aspects of PV system installation, commissioning, maintenance, and electrical safety standards
10. Introduction to Government Policies & Subsidies
• Gain awareness of solar policies, net metering regulations, and available incentives/subsidies (region-specific)
🎓Course Outcome:
By the end of this course, participants will be able to independently design and plan solar PV systems customized to various energy needs, with a strong focus on efficiency, safety, and sustainability.
Key Objectives:
1. Understand Solar Energy Fundamentals
• Learn the basic principles of solar radiation, photovoltaic effect, solar technology types, and solar potential
2. Component Knowledge & Selection
• Study various components of a solar system – PV modules, inverters, batteries, charge controllers, mounting structures, and balance of system (BOS) equipment
3. Solar System Types & Applications
• Understand the design and use of:
â—¦ On-grid (grid-tied) systems
â—¦ Off-grid (standalone) systems
â—¦ Hybrid systems
4. Site Assessment & Solar Potential Analysis
• Assess rooftops or ground spaces using tools like Google SketchUp, PVsyst, or Helioscope
• Calculate solar potential
5. System Sizing and Load Calculation
• Determine electrical load requirements, panel sizing, battery backup, and inverter capacity based on project needs
6. Shadow Analysis and Tilt Angle Optimization
• Analyze shading and determine optimum tilt angle and orientation for maximum energy output
7. Wiring, Cabling & Single Line Diagram (SLD)
• Design electrical layouts, DC & AC cabling, and safety devices following standard practices and safety codes
8. Performance Prediction & Financial Feasibility
• Estimate system performance, energy generation, ROI, payback period
• Prepare basic project feasibility reports
9. Installation Guidelines & Safety Protocols
• Understand key aspects of PV system installation, commissioning, maintenance, and electrical safety standards
10. Introduction to Government Policies & Subsidies
• Gain awareness of solar policies, net metering regulations, and available incentives/subsidies (region-specific)
🎓Course Outcome:
By the end of this course, participants will be able to independently design and plan solar PV systems customized to various energy needs, with a strong focus on efficiency, safety, and sustainability.
