This training program is designed to provide guidance on operating, troubleshooting, and maintaining propane-based refrigeration systems. Through it, participants will acquire essential skills and knowledge to ensure efficient, reliable, and optimized performance in industrial applications.
By the end of this program, participants will be able to:
Identify propane properties and their role in refrigeration systems.
Analyze heat transfer factors affecting propane refrigeration system performance.
Design and configure propane refrigeration systems effectively.
Operate and control propane refrigeration systems efficiently.
Implement maintenance procedures to enhance system reliability and longevity.
Operation Engineers and Supervisors.
Process Engineers.
Maintenance Engineers and Supervisors.
Managers and Team Leaders.
Design Engineers.
Operators and Senior Operators.
Introduction to refrigeration principles and industrial applications.
Understanding propane properties and their relevance in refrigeration.
Heat transfer mechanisms in refrigeration processes.
Overview of refrigeration systems and key components.
Basic refrigeration cycle and its operation.
Single and multi-stage refrigeration cycles explained.
Function and operation of propane surge drums and pump loading.
Role and design of expansion valves in refrigeration systems.
Introduction to propane chillers and economizers.
Operation and maintenance of propane condensers.
Principles and configurations of centrifugal compressors.
Multi-stage centrifugal compressors and their operation.
Components: casings, rotors, guide vanes, and seals.
Compressor cooling, lubrication, and seal oil systems.
Compressor drivers, couplings, controls, performance, and safety devices.
Principles of reciprocating compressors and gas compression.
Typical designs and operation of reciprocating compressors.
Key components: pistons, valves, cylinders, and lubrication systems.
Overview of drive units and different compressor types.
Balanced-opposed, integral, and multi-stage reciprocating compressors.
Identifying indicators and diagnosing system issues.
Operating checks and troubleshooting techniques.
Refrigeration system controls and operational factors.
Strategies for addressing fouling problems and optimizing efficiency.
Maintenance types, plans, and preventive measures for reliable operation.
