Solar Power Course

Course Title: Solar Power Fundamentals

Course Outline:

Module 1: Introduction to Solar Power

1.1 Overview of solar energy

1.2 Historical development and current status of solar power

1.3 Environmental and economic benefits of solar energy

1.4 Solar power technologies and applications

Module 2: Solar Radiation and Site Assessment

2.1 Solar radiation basics

Solar Position

Basic solar movement and effect of earth tilt.

Study solar movement and the tilt of the earth.

How to predict solar position and understand how this pertains to your job.

Angular effects on the irradiance of solar array.

2.2 Measurement and characterization of solar radiation

2.3 Factors affecting solar radiation availability

2.4 Site assessment for solar power systems

Module 3: Photovoltaic (PV) Systems

3.1 Introduction to photovoltaic technology

3.2 PV system components: solar panels, inverters, and batteries

3.3 Types of PV systems: grid-tied, off-grid, and hybrid systems

3.4 Sizing and design considerations for PV systems

PV Module Fundamentals

3.5 Types of PV systems and their features and benefits.

3.6 How solar cells convert sunlight into electric power.

3.7 Explore how sunlight can be converted to usable power and understand module output values.

3.8 Label key points on an IV curve.

3.9 Illustrate effect of series and parallel connections on IV curve.

3.10 Measurement conditions for solar cells and modules.

3.11 How to compute electrical output, as well as how to compare characteristics of various module technologies.

Module 4: PV System Installation and Maintenance

4.1 Safety considerations for PV system installation

4.2 Installation process and best practices

4.3 Commissioning and testing of PV systems

4.4 Learn how to work safely around operational and non-operational PV systems.

4.5 Identify safety hazards, practices and protective equipment used during PV system installation and maintenance.

4.6 Maintenance and troubleshooting of PV systems

Module 5: Solar Thermal Systems

5.1 Overview of solar thermal technology

5.2 Types of solar thermal systems: flat plate collectors, evacuated tube collectors, and concentrating collectors

5.3 Applications of solar thermal systems: water heating, space heating, and cooling

5.4 Sizing and design considerations for solar thermal systems

Module 6: Solar Power Policies and Regulations

6.1 Global and regional solar power policies

6.2 Incentives and subsidies for solar power systems

6.3 Net metering and feed-in tariffs

6.4 Environmental and regulatory considerations for solar power projects

Module 7: Solar Power Project Development and Economics

7.1 Project development process for solar power projects

7.2 Financial analysis and feasibility assessment

7.3 Project financing options and models

7.4 Economic and financial benefits of solar power projects

Module 8: Emerging Trends in Solar Power

8.1 Advanced solar power technologies: thin-film PV, concentrated solar power, and solar tracking systems

8.2 Energy storage technologies for solar power systems

8.3 Integration of solar power with smart grids and microgrids

8.4 Future prospects and challenges in solar power

9. Inverters

9.1 Off Grid

9.2 On Grid

9.3 Hybrid

9.4 Generators and Inverters

9.5 UPSes

9.6 Line Interactive

9.7 Online

9.8 Standby

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Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!