This course will feature the importance and relevance of the important and expensive items of equipment known as heat exchangers that are used in a wide variety of industries. It will familiarise engineers and technicians with the various standards and practices used for design, manufacture, operation, and maintenance of heat exchangers.
To all these engineers with diverse backgrounds and expertise, the principle of heat exchangers design and codes will allow them to understand the recommended practices. This course will cover all these aspects with respect to engineering design in general and shell and tube exchangers in particular.
This course will feature:
Heat Exchangers Design Characteristics
Understanding of Heat Transfer principles
Integration of network facilities
International Codes in fabrication, operation, and maintenance activities
Integration of fouling considerations and performance monitoring
By the end of this course, participants will be able to:
Understand heat transfer fundamentals
Analyze exchanger operational parameters
Determine correct troubleshooting techniques
Determine the correct selection criteria for heat exchangers
Troubleshoot exchange problems
This course will benefit all levels of personnel in a process plant environment. It will enable them to understand the design considerations, construction details and operational parameters associated with process heat exchangers.
This course is suitable to a wide range of electrical engineering professionals but will greatly benefit:
Maintenance Professionals
Inspection Personnel
Process Supervisors
Plant Operators
Plant/Technical Managers
Day 1:
Types and Applications of Heat Exchangers
Overview and Basic Fundamentals
Heat Transfer Fundamentals and Heat Transfer Coefficients
Heat Exchanger Types and Application
Geometry Of Shell & Tube Heat Exchangers (STHE)
Double Pipes TEMA Nomenclature, Front End Head Types, Shell Types
Rear End Types, Double Pipe Units, Selection Guidelines
Day 2:
Thermal and Hydraulic Design of Heat Exchangers
Sizing and Specifying the Heat Exchanger
Flow vs. Temperature Difference in STHE
Temperature Difference in STHE
Day 3:
Mechanical Design of Heat Exchangers
Mechanical Design Of Heat Exchangers
Basic Design Of Heat Exchangers
Special Design Considerations
Piping Loads on Exchanger Nozzles
Materials of Construction On Heat Exchangers
Fabrication of Heat Exchangers
Day 4:
Operation and Maintenance of Heat Exchangers
Fouling in Heat Exchangers
Corrosion and Erosion in Heat Exchangers
Heat Exchanger Inspection Methods
Operation and Troubleshooting
Performance Monitoring and Testing
Cost-Effective Maintenance and Repair of Heat Exchangers
Day 5:
Performance Enhancement and Optimisation of Heat Exchangers
Heat Transfer Augmentation Techniques
Finned Tubes
Heat Integration Basics
Pinch Technology
Heat Exchanger Train Optimisation
Tube Bundle Replacement - Alternative Enhanced Tube Bundle Designs