Compressor and pump technology focuses on the principles, design, and operation of equipment used to move gases and liquids in industrial processes. Compressors increase the pressure of gases, while pumps transport liquids efficiently, with both technologies playing a critical role in maintaining process flow, optimizing performance, and ensuring system reliability. This comprehensive training program covers the principles, design, operation, and maintenance of compressors and pumps used across various industries. Participants will gain insights into selecting the appropriate equipment, optimizing performance, troubleshooting issues, and ensuring reliable and efficient operation.
Explore the principles and types of compressors and pumps.
Select and size compressors and pumps based on system requirements.
Analyze performance curves and optimize efficiency.
Implement maintenance and troubleshooting techniques.
Ensure safe operation and compliance with industry standards.
Maintenance and Reliability Engineers.
Mechanical and Process Engineers.
Operations and Maintenance Technicians.
Plant Managers and Supervisors.
Professionals involved in fluid and gas handling systems.
Basic principles of fluid and gas dynamics.
Types of compressors (reciprocating, centrifugal, rotary screw).
Types of pumps (centrifugal, positive displacement, diaphragm).
Components and working principles of compressors and pumps.
Performance characteristics and efficiency considerations.
Criteria for selecting the appropriate compressor or pump.
Calculating flow rate, head, pressure, and capacity requirements.
Understanding compressor and pump curves.
Factors affecting equipment selection (fluid/gas properties, system design).
Tools and software for sizing and selection.
Best practices for installation and alignment.
Startup, shutdown, and commissioning procedures.
Monitoring and optimizing performance for efficiency.
Identifying and addressing operational issues (cavitation, surge, vibration).
Methods for improving energy efficiency.
Preventive and predictive maintenance strategies.
Diagnosing common failures (seal leaks, bearing wear, impeller damage).
Techniques for vibration analysis and condition monitoring.
Maintenance of seals, bearings, valves, and impellers.
Troubleshooting issues to minimize downtime.
Safety protocols for operating compressors and pumps.
Handling hazardous fluids and gases safely.
Environmental considerations and emissions control.
Compliance with industry standards (API, ANSI, ISO).
