Pump System Fundamentals Course - January 11, 2023
- Registration Closed
Pump System Fundamentals (PSF) Course
January 11, 2023 | 10:00 a.m. - 6:00 p.m. EST
Description
The Pump System Fundamentals (PSF) Live Virtual Course is a Live (Virtual) Instructor-Led training course designed to educate and train pump engineers, technical sales, pump system owners, designers, and operators on the fundamentals of pump and system design, including system hydraulics and calculations, pump and system curves, system components, factors affecting reliably and energy consumption, and control.
Course Objectives
- Importance of focusing on the pump system and optimization
- Energy Consumption
- System Hydraulics and System Curves
- Pump Curves
- Pump and System Curve Interaction and Control
- Total Head Net Positive Suction Head
- Preferred and Allowable Operating Regions
- Common operating problems & troubleshooting
- Rotodynamic & Positive Displacement Pump Fundamentals
- Driver & VFD Fundamentals
Course Materials
Participants will also receive the following course materials:
- Pump System Optimization and Assessment Course Manual in Electronic Format
- Pump System Optimization Guidebook in Electronic Format – Retail Value $205
- Pump System Assessment Pre-screening Checklist
- Follow-up activities such as webinars and surveys
Features and Benefits
- No travel costs, no time away from your company: Join from your office or from home
- Attend classes held by the same expert instructors who deliver courses at our live courses
- Cover the same content as in our traditional classroom courses. Participants will receive course materials electronically
- Participants can see each other, talk to each other, and speak to their instructor via microphone and camera. One-on-one conversations can be set up if required
Technical Requirements
- Computer, monitor, and Internet connection
- Option of computer audio or a dial-in number
- WEBEX video conference platform
SKU: VC101A
PSF outline:
• Introduction to pump systems
• System curves
o Measuring the system curve exercise
• Introduction to pump curve & operating point
• Pump system energy consumption & efficiency
o Pump output power exercise
o Pump input power exercise
o Motor input power exercise
o Pump efficiency exercise using motor curve
• Pump total head measurement and calculation
• Introduction to positive displacement and rotodynamic pumps
• Rotodynamic pump fundamentals
o Common types & configuration
o Performance curves
o Specific speed
Specific speed and attainable efficiency Exercise
o Impellers, Inducers and casings
o Rotodynamic pump classifications
• Positive displacement pump fundamentals
o Common types & configurations
o Performance curves
o General application considerations
o Reciprocating pump classifications and application considerations
o Rotary pump classifications and application considerations
• Varying the operating point
o Modifications to the pump curve
o Modifications to the system head
o Variable speed and Variable Frequency Drive (VFD) considerations
o Control valve hydraulic loss exercise
o Parallel pumping
o Series pumping
• Factors that affect reliability
o Net Positive Suction Head and Margin
NPSHA calculation exercise 1
NPHSA calculation exercise 2
Suction specific speed exercise
o Operating point
Preferred operating region
Allowable operating region
o Pump installation
• Discussion of common operating problems
o Flow or head to low
o Power to high
o Vibration and noise
o Bearing and seal failures
Alex Moser
Senior Engineer of Standards and Training
Hydraulic Institute
Alex Moser is the Senior Engineer of Standards and Training at the Hydraulic Institute with technical responsibility for standards, guidebooks, training, and technical programs as well as assisting the governmental regulations committees with technical expertise. Prior to joining the Hydraulic Institute, he held new product development and engineering management positions with a major pump manufacturer, with a focus on new pump design, system analysis, and testing. Mr. Moser obtained his B.S. Degree in Chemical Engineering at the University of Alabama.