Fundamentals Of Solar Photovoltaic Technologies And Systems

PV Technologies & Systems

What you'll learn
Describe various energy sources
Describe the fabrication process of solar-PV cells.
State the functions of various assemblies, and subassemblies comprising solar-PV systems considering various modes of operation.
Realize the requirements, and validity of the simplified assumptions for fast analysis of the performance of solar-PV systems.
Evaluate the performance of various solar-PV systems.
Select appropriate solar-PV topologies for various operation modes, and load types.
Learn the quantitative characterizations of various generations of solar-PV technologies.
Learn the near optimal design of various configurations of solar-PV systems.
Use of software tools for design, and performance analysis of solar-PV systems.
Searching the internet, and libraries for reporting advanced topics.
Requirements
Basics of electrical engineering
Description
The course presents the basics, and advances of solar-PV technologies, and systems. It starts from the basics of energy and the fabrication and then covers the major theoretical, and practical methods for successful implementation of solar-PV systems for electric energy production. Various modes of operation (off-grid, and grid-connected), load types (non-deferrable, and deferrable), system configurations are well covered. The course also provides several case studies, and use of computer software for modeling, analysis, and sizing of various solar-PV configurations. The topics of the course are coupled with relevant numerical examples to demonstrate the use of international online software modules and the given mathematical models. The course also presents practical sizing methods for the design of solar-PV systems. Relevant standards are considered in the sizing process. The overall outcome of the course is to facilitate to the students the required knowledge, skills, and tools for successful design, and implementation of various solar-PV systems.The course consists of 15 lectures and two quizzes. The titles of the lectures are:     1. Course overview and ILOs.     2. Energy.     3. Classification of energy resources.     4. Solar-PV technological generations.     5. PV module (panel), and array.     6. Fabrication of solar cells.     7. Quantitative Characterization of solar-PV technologies.     8. Basic scheme of solar-PV generators and loads.     9. Sun tracking mechanisms.     10. MPPT and DC-DC converters.     11. PCU and Inverters.     12. Energy storage options.     13. Simplified PV Energy Production Models.     14. Off-grid systems supplying non-deferrable loads.     15. Grid-connected Solar-PV Systems and Battery Backup

Overview

Lecture 1 Course overview & ILOs

Section 1: Energy resources, and technologies

Lecture 2 Energy

Lecture 3 Classification of Energy Resources

Section 2: Basics of solar energy characteristics and technologies

Lecture 4 Solar-PV technological generations

Lecture 5 PV module (panel), and array

Section 3: Fabrication of solar cells

Lecture 6 Fabrication of solar cells

Section 4: Quantitative Characterization of solar-PV technologies

Lecture 7 Quantitative Characterization of solar-PV technologies

Section 5: Layout of solar-PV systems

Lecture 8 Basic scheme of solar-PV generators and loads

Lecture 9 Sun tracking mechanisms

Lecture 10 MPPT and DC-DC converters

Lecture 11 PCU and Inverters

Lecture 12 Energy storage options

Section 6: Simplified energy production models

Lecture 13 Simplified PV Energy Production Models

Section 7: Sizing of components

Lecture 14 Off-grid systems supplying non-deferrable loads

Lecture 15 Grid-connected Solar-PV Systems and Battery Backup

Section 8: Assess your learning - part 2

Engineering students.,Electrical engineering students.,Energy engineering students.,Engineers and technicians working in the field of photovoltaics.