2 - 6 Mar 2025
Istanbul (Turkey)
Hotel : DoubleTree by Hilton Istanbul Esentepe
Cost : 5775 € Euro
The Heat Rate Optimization training program is designed to equip participants with the knowledge and skills necessary to improve the thermal efficiency and overall performance of power plants, industrial facilities, and processes. This program is intended for professionals working in energy production, facility management, and those seeking to enhance their understanding of heat rate optimization.
This training program is suitable for:
Power plant engineers and operators
Energy and utilities professionals
Facility managers and engineers
Maintenance and reliability personnel
Anyone interested in optimizing energy efficiency and reducing operational costs
By the end of this training program, participants will be able to:
Understand the concept of heat rate and its importance in energy efficiency.
Identify key factors affecting heat rate in various processes and systems.
Implement strategies and best practices to optimize heat rate.
Enhance energy efficiency, reduce fuel consumption, and minimize environmental impact.
Apply performance monitoring and analysis techniques to assess heat rate improvements.
Day 1: Introduction to Heat Rate and Energy Efficiency (5 hours)
Overview of energy efficiency in industrial processes
Understanding heat rate and its significance
Factors affecting heat rate in power generation and industrial processes
Basics of energy balance and efficiency calculations
Day 2: Boiler Efficiency and Heat Rate Optimization (5 hours)
Boiler types and their efficiency characteristics
Boiler operation and maintenance best practices
Strategies for optimizing boiler heat rate
Case studies on boiler efficiency improvements
Day 3: Steam Turbine and Generator Efficiency (5 hours)
Steam turbine fundamentals and performance considerations
Generator efficiency and maintenance
Turbine and generator control systems
Heat rate optimization in combined-cycle power plants
Day 4: Cooling Systems and Heat Exchangers Efficiency (5 hours)
Cooling system types and their energy efficiency
Heat exchanger design and performance
Cooling water treatment and fouling prevention
Energy-efficient cooling system operation
Day 5: Performance Monitoring and Future Trends (5 hours)
Performance monitoring and data analysis techniques
Continuous improvement in heat rate optimization
Emerging technologies and trends in energy efficiency
Course review, Q&A, and certification