Pumps and Compressors: Rotating and Static Equipment Design
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Pumps and Compressors: Rotating and Static Equipment Design Course
Introduction:
The general technology of pumps and compressors is covered throughout the course. It covers the process, mechanical elements, wear, lubrication, and vibration analysis and other methods of diagnosing these devices. Participants will leave the course with the fundamental knowledge needed to examine pumps and compressors as well as identify and diagnose faults.
Course Objectives:
Extensive use is made of case study material to underline the key aspects of the course and to give the delegates exposure to current best practice.
Who Should Attend?
This course is intended for engineers, supervisory and technical staff involved in the maintenance and inspection of pumps, compressors and plant engineers in the oil, chemical and other process industries who require a wider and deeper appreciation of pumps and compressors design, including their design, performance, and operation. No prior knowledge of the topic is required
Course Outlines:
Technology of Pumps
- Parts of the machine: casing, rotor, bearing, coupling.
- Auxiliaries: heating, cooling, lubrication.
- Maintenance: strip-down, assembly, inspection, clearance, adjustment.
- Video: Basic Pump Types and Technology.
- Summary of Thermodynamic Concepts involving Entropy.
TECHNOLOGY OF COMPRESSORS
- Minimizing Compressor Work. Polytrophic processes. Multi-stage compression with Inter-cooling. Isentropic efficiency of turbines. Isentropic efficiency of compressors and pumps
- Reciprocating and rotating machines.
- Parts of the machine: casing, rotor, piston, bearings, couplings.
- Auxiliaries: heating, cooling, lubrication.
- Maintenance: strip-down, assembly, inspection, clearance, adjustment.
- Axial Flow Compressor: Velocity triangles. Torque calculation and torque coefficient. Power calculation and power coefficient.
Operation & Performance
- Process aspects
- Operating parameters; head, flow, rpm, efficiency.
- Characteristic curves.
- Effect of wear.
- Mechanical issues.
- Video: Fundamentals of Pump Performance 1.
- Design Aspects of Turbomachines: Linear cascades. Linear cascade with drag. Linear cascade results. Radial cascades. Three- dimensional aspects of axial- flow machines. Elementary design considerations. Cavitations.
Deterioration
- Forces created by the pressure, by inertia, by friction: effects on bearings and internal parts.
- Defects and typical failures of valves, piston rings and packing rings, piston rod.
- Dismantling and mounting procedures.
Lubrication and Bearing Problems
- Purpose, different types of oil and grease.
- Anti-friction bearings: types, lifetime, mounting, applications, related problems.
- Plain and pad bearings, thrust bearings: operation, maintenance, incidents.
Couplings & Misalignment
- Different types of couplings, related problems
- Different methods of alignment.
Seals
- Mechanical pump seals, types, operation, related problems.
- Other seals for positive displacement pumps and reciprocating compressors.
- Pump Sales: Affinity laws. Pump software. Suction lift. Viscosity. Re-rate/retrofit. Head-rise. Radial/horizontal split case
- Video: Fundamentals of Pump Performance 2
- Video: Bearings, Seals and Couplings
Rotors and Shafts
- Balancing.
- VIBRATION MONITORING
- What to monitor and where.
- Measurement devices
- Overall and spectral measurements.
- Vibration limits
- Introduction to spectrum analysis.
Lubricant Monitoring
- What to monitor and where.
- Shape, size, amount, chemical composition of debris.
- Debris limits.
- Analytical technique
- Written Test and Discussion
- Video: Special Pump Topics.
- Test Results and Final Discussion.