Commissioning and Performance Testing of a Large-Scale Solar PV System
Solar PV system, Commissioning,Performance testing, Large-scale, Efficiency, Reliability, Monitoring, Troubleshooting.
About Program:
A program on Commissioning and Performance Testing of a Large-Scale Solar PV System is typically designed to provide participants with the knowledge and skills required to commission and test a large-scale solar photovoltaic (PV) system. The program usually covers a wide range of topics related to commissioning and performance testing of large-scale solar PV systems. This includes an overview of solar PV technology, design principles for large-scale solar PV systems.
Aim: The aim of the program is to provide participants with the knowledge and skills necessary to ensure the successful implementation and operation of large-scale solar PV systems, and to contribute to the growth and advancement of the solar energy industry.
Program Objectives:
1. To provide participants with a comprehensive understanding of the commissioning process for large-scale solar PV systems, including pre-commissioning, commissioning, and post-commissioning activities.
2. To equip participants with the knowledge and skills necessary to perform performance testing on large-scale solar PV systems, including the use of monitoring equipment and data analysis.
3. To provide participants with an understanding of the various performance metrics used to evaluate the performance of a large-scale solar PV system, including energy yield, capacity factor, and performance ratio.
4. To teach participants how to troubleshoot and diagnose issues that may arise during the commissioning and performance testing process.
5. To provide participants with an understanding of the regulatory and compliance requirements related to commissioning and performance testing of large-scale solar PV systems.
6. To foster a community of professionals who share a passion for renewable energy and solar PV systems, allowing for networking and collaboration opportunities.
7. To inspire participants to become leaders in the renewable energy industry, making a positive impact on the environment and society.
What you will learn?
Day 1: Introduction and Fundamentals of Solar PV Systems
• Overview of solar PV systems and their applications
• Key components of a solar PV system and their functions
• Types of solar PV systems and their characteristics
• Solar irradiance measurement and forecasting
Day 2: Commissioning and Performance Testing of Solar PV Systems
• Site selection and preparation for a remote area solar PV system
• Installation and commissioning procedures for large–scale solar PV systems
• Performance testing and measurement of solar PV systems
• Inverter efficiency and power quality analysis
• Energy storage technologies for solar PV systems
Day 3: Challenges, Solutions, and Lessons Learned
• Challenges and solutions for commissioning and operating a solar PV system in a remote area
• Case studies of successful large–scale solar PV projects in remote areas
• Lessons learned from commissioning and performance testing of large–scale solar PV systems
• Planning and implementing a solar PV project in a remote area: best practices and recommendations
Fee Plan
Intended For :
Quality assurance and control personnel, Maintenance and operations personnel, Graduates, Post Graduates, Research Scholars, Academicians, Engineers, Technicians, Professionals who are involved in the design, installation, and commissioning of large-scale solar PV systems.
Career Supporting Skills
Program Outcomes
1. Enhanced knowledge of the principles and design of large-scale solar PV systems, including components, configurations, and system operation.
2. Improved skills in the installation, commissioning, and maintenance of large-scale solar PV systems, including site assessment, equipment selection, and system testing.
3. Understanding of the key performance indicators (KPIs) for large-scale solar PV systems, including energy yield, performance ratio, and availability.
4. Enhanced skills in performance testing and data analysis, including data collection, quality control, and interpretation of results.
5. Understanding of the key challenges and risks associated with large-scale solar PV systems, including environmental factors, equipment failures, and system downtime.
6. Familiarity with the regulatory and policy framework for large-scale solar PV systems, including interconnection standards, net metering, and renewable energy credits.
7. Improved ability to troubleshoot and diagnose problems with large-scale solar PV systems, including system inefficiencies and underperformance.
8. Enhanced knowledge of best practices for system maintenance, including cleaning, inspection, and repair.
9. Understanding of safety and risk management practices specific to large-scale solar PV systems, including electrical safety, personal protective equipment (PPE), and emergency procedures.
10. Increased confidence in designing, installing, and maintaining large-scale solar PV systems, contributing to the growth of the renewable energy industry and the transition to a more sustainable energy future.
