Making you Digital Transformation, Data Analytics and AI Ready
res370-4
4 Week Professional Certification Training
AI-Based Predictive Maintenance Specialist
for Solar PV and Wind Turbine Systems
www.eurotraining.com/bro/res370-4.php
Training Dates Certification Programs
London
| New York
|
Seattle, USA
| New Delhi
|
Kualalumpur
| New Delhi
|
London
| New York
|
Seattle
| Istanbul
|
New Delhi
| Kualalumpur
|
New Delhi
| London
|
New York
| Seattle, USA
|
London
| Dubai
|
Kualalumpur
| Dubai
|
London
| New York
|
Seattle, USA
| Istanbul
|
New York
| Dubai
|
Kualalumpur
| London 25 May-19 June 2025
|
AI-Based Predictive Maintenance Skills for Solar PV and Wind Turbine Systems
AI-Based Predictive Maintenance Skills for Solar PV and Wind Turbine Systems
Building Multi-discipline Understanding, Knowledge, Process Understanding, Skills, and Competencies to Perform and Improve each of the Work Performance included in the Program Content Below
Program Overview
The AI-Based Predictive Maintenance Skills for Solar PV and Wind Turbine Systems program is an advanced training initiative designed to equip participants with specialized knowledge and skills in using artificial intelligence (AI) for predictive maintenance of solar photovoltaic (PV) and wind turbine systems. This program aims to empower engineers, technicians, and renewable energy professionals with expertise in leveraging AI-driven technologies to enhance the reliability, performance, and efficiency of renewable energy installations. This program covers the key aspects of applying AI and data analytics to enable predictive maintenance for solar PV and wind turbine systems.
This Program provides participants with the knowledge and skills to utilize these advanced technologies for optimizing system reliability, minimizing downtime, and improving the overall performance of renewable energy systems.
This program provides deeper insights into the advanced aspects of AI-based predictive maintenance for solar PV and wind turbine systems.
Program addresses emerging trends, techniques, and challenges in leveraging AI and data analytics to optimize maintenance strategies, enhance system reliability, and improve overall operational efficiency in the renewable energy sector.
Course Objectives
- Introduction to AI-Driven Predictive Maintenance: Participants will gain an understanding of predictive maintenance principles, the role of AI in condition monitoring, and the benefits of AI-based maintenance for solar PV and wind turbine systems.
- Data Acquisition and Condition Monitoring: The program will cover data acquisition methods, sensor technologies, and data preprocessing techniques for condition monitoring of PV and wind turbine systems.
- AI Algorithms for Predictive Maintenance: Participants will learn about AI algorithms used for predictive maintenance, including machine learning models, anomaly detection, and failure prediction.
- Predictive Maintenance Data Analytics: The program will explore data analytics techniques for extracting insights from maintenance data and making informed decisions.
- Fault Detection and Diagnostics: Participants will understand how AI can be used to detect and diagnose faults in PV and wind turbine systems, enabling proactive maintenance actions.
- Health Monitoring and Remaining Useful Life (RUL) Estimation: The program will focus on health monitoring techniques and RUL estimation using AI-driven prognostics.
- Predictive Maintenance for Wind Turbine Systems: Participants will explore specific AI applications for predictive maintenance in wind turbine systems, including gearbox health, blade monitoring, and vibration analysis.
- Predictive Maintenance for Solar PV Systems: The program will cover AI applications for predictive maintenance of solar PV installations, including module degradation analysis and inverter health assessment.
- Data-Driven Decision Making: Participants will learn how to use AI-generated insights for data-driven decision making in maintenance planning and resource allocation.
- Integration of Predictive Maintenance in Asset Management: The program will address the integration of AI-based predictive maintenance in overall asset management strategies.
- Real-time Monitoring and Remote Diagnostics: Participants will explore real-time monitoring solutions and remote diagnostics enabled by AI technologies.
- Case Studies and Best Practices: The program will include case studies and best practices from real-world applications of AI-driven predictive maintenance in renewable energy systems.
Program Content
AI-Based Predictive Maintenance Skills for Solar PV and Wind Turbine Systems
Day 1
- Introduction to Predictive Maintenance
- Data Collection and Condition Monitoring
Day 2
- Machine Learning for Anomaly Detection
- Fault Diagnosis and Prognostics
Day 3
- Predictive Maintenance Strategies
- Data Analytics for Performance Optimization
Day 4
- Failure Prediction and Risk Assessment
- Integration of Maintenance and Operations Data
Day 5
- Remote Monitoring and Real-Time Diagnostics
- Case Studies and Best Practices
Day 6
- Data Fusion and Feature Engineering
- AI-Enabled Asset Health Monitoring
Day 7
- Uncertainty Quantification in Predictive Maintenance
- Optimization of Maintenance Scheduling
Day 8
- Integration of IoT and Edge Computing
- Deep Learning for Image-Based Anomaly Detection
Day 9
- Digital Twin Modeling for Predictive Maintenance
- AI-Driven Spare Parts Inventory Management
Day 10
- Maintenance Decision Support Systems
- Ethics and Privacy Considerations
Who Should Attend
AI-Based Predictive Maintenance for Solar PV and Wind Turbine Systems Training Workshop is ideal for professionals involved in :
- AI-Based Predictive Maintenance for Solar PV and Wind Turbine Systems Professionals
- Solar PV and Wind Turbine Technicians: Technicians responsible for the maintenance, repair, and operation of solar PV and wind turbine systems can learn about the application of AI in predictive maintenance, including fault detection, condition monitoring, and performance optimization of these systems.
- Asset Managers and Maintenance Engineers: Asset managers and maintenance engineers responsible for managing and optimizing the performance of solar PV and wind turbine assets can gain insights into AI-based predictive maintenance strategies, data-driven decision-making, and maintenance planning techniques.
- Renewable Energy Project Developers: Renewable energy project developers interested in understanding the maintenance and reliability aspects of solar PV and wind turbine systems can learn about the use of AI and data analytics in improving system performance, reducing downtime, and maximizing energy production.
- Energy Managers and Facility Managers: Energy managers and facility managers overseeing solar PV and wind turbine installations can gain knowledge of AI-based predictive maintenance techniques to ensure the efficient and reliable operation of these systems, minimize downtime, and optimize energy generation.
- Data Analysts and Researchers: Data analysts and researchers interested in the analysis of performance data and development of AI models for predictive maintenance can explore the application of machine learning algorithms, data analytics, and anomaly detection techniques specific to solar PV and wind turbine systems.
- Equipment Manufacturers and Suppliers: Manufacturers and suppliers of solar PV modules, wind turbines, and related components can gain insights into the integration of AI-based predictive maintenance capabilities into their products. This knowledge can inform product development and customer support strategies.
- Consultants and Advisors: Consultants and advisors specializing in renewable energy, maintenance, or AI technologies can enhance their understanding of AI-based predictive maintenance for solar PV and wind turbine systems. This knowledge can enable them to provide guidance and support to clients in implementing predictive maintenance strategies.
- Researchers and Academics: Researchers and academics in fields such as renewable energy, electrical engineering, data science, and AI can explore the latest advancements in AI-based predictive maintenance for solar PV and wind turbine systems. They can contribute to the development of innovative models, algorithms, and techniques in this field.
- Students and Future Professionals: Students pursuing degrees in renewable energy, electrical engineering, data science, or related fields can gain foundational knowledge of AI-based predictive maintenance for solar PV and wind turbine systems. This knowledge can prepare them for careers in maintenance engineering, data analysis, research, or technology development in the renewable energy sector.
Registration Form
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Registration Information
4 Week Professional Certification Training Program
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To register: Please send us an official letter confirming registration (on organizational letterhead). Also send us a completed registration form ?electronically fill-able is at- available at http://www.eurotraining.com/etl-reg-4w.doc You can request or registration form by Emailing regn@eurotraining.com and eurotraining@gmail.com
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For Program Fee Information Email: fees@eurotraining.com . Fees are Payable by Bank Transfer or Bank Draft. Fee information is also available at: http://www.eurotraining.com/fees.php .
Program Fee is
4 week (120 hrs)
At Dubai, Kuwait, New Delhi, Qatar £13,990 (USD $17,800) per participant.
At London, US Locations, Europe, Malaysia, Singapore £15,389 (USD $19,580) per participant.
Online eTraining Fee £6,000 (USD $7,500) per participant.
Accommodation is not included in Program fee. Special rates will be available at venue hotel for the class room training program participants.
Special discount of 10% is offered for participants who pay their fees at least 45 days before start of the program.
Refund will not be considered where the participants cancels his registration less than 3 weeks before start of the program. Alternate nominations will be allowed anytime before program start. In case of exceptional hardship or emergency participant may be allowed to attend at another location.
All participants are required to fill in Participant Information form - on first day of the program. Each program Undergoes Customization to Better Meet Participant Present and Future Career Needs. Please be prepared to let the Instructor/s know about your organization's Special Needs, Interests or Initiatives.
It is always useful for participants to bring their existing problems or case studies, work-process flow charts or job related problems for discussion - consideration will be at sole discretion of the program director/s.
Provisional Registration : You can make a provisional registration request by sending us an email with an official provisionsl registration request this will ensure we will reserve a seat for you for 14 days. After this you have 2 weeks to send us an official registration request. Provisional registration is automatically cancelled at the earlier of (1) 2 weeks after Provisional Confirmation if registration is not confirmed from your side (2) Two weeks before start of the program. We do request you to inform us ASAP you have decided either way. Please note All provisional registrations automatically cancel 2 weeks before program start unless confirmed.
Information required for Provisional Registration: Program Title, Location, Dates, Your Organization Name, Your Email Address, Your FAX No and your Mobile Number.