Our off-site training offers a comprehensive course that covers the fundamentals and fills the gaps between university learning and real-world problems.
Training | Time | Introductory Price |
|---|---|---|
Full Course (discounted) (Fundamentals + Liquid + Gas + Slurry + non-Newtonian + Two-Phase) | 8 days | $3250 / attendee |
Fundamentals + Liquid + Slurry + non-Newtonian | 5 days | $2250 / attendee |
Fundamentals + Liquid + Gas | 5 days | $2250 / attendee |
Fundamentals + Liquid + Gas + Two-Phase | 6 days | $3250 / attendee |
Fundamentals + Liquid | 3 days | $1500 / attendee |
** Receive a discounted price when you purchase for more than 3 attendees.
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Limited spaces are available.
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Introduction to Hydraulic Calculation
Understanding Fluid Flow
Objectives of Hydraulics
Typical Hydraulic System Components
Mass, Energy, and Friction Loss Equations
FluidFlow User Interface
Basic FluidFlow Operations
Solver Overview
Hydraulic Calculation Workflow
Line Sizing
Guesstimating Pipe Lengths
Understanding Stagnation and Static Pressure
Improvising Missing Modeling Components
FluidFlow Autosize Feature
Basic Liquid System Hydraulic Model Building Exercise
Basic Gas System Hydraulic Model Building Exercise
Troubleshooting Over-constrained Models
Introduction to Pumps
Direct and Indirect Pump Sizing Outputs
Pump Sizing Input Variables
Pump Sizing Checklist and Tips
Developing Basic Pump Process Datasheets
Centrifugal Pump Performance Curve
Centrifugal Pump Curve Viscosity Correction
Centrifugal Pump Affinity Laws
Reviewing Centrifugal Pump Performance in FluidFlow
Control Valve Basics
Control Valve Hydraulics
Control Valve Sizing and Selection: Pumped systems
Control Valve Sizing and Selection: Non-pumped systems
Control Valve Sizing and Selection: Gas systems
Design and Operational Issues Involving Control Valves
Compressible Flow – Theory
Compressible Flow – Equation
Stagnation Properties
FluidFlow Compressible Flow Calculations
Calculation Settings
Line Sizing for Gas/Vapor
Fans, Blowers, and Compressors
Introduction to Slurries
Liquid vs. Settling Slurry Hydraulic Modelling
Deposition Velocity
Settling Slurry Friction Loss
Specific Energy Consumption
Settling Slurry Line Sizing
Pipe Orientation
Slurry Pump Derating
Settling Slurry Modelling Exercise
Introduction to Non-Newtonian Liquids
Newtonian vs. Non-Newtonian Hydraulic Modelling
Non-Newtonian Viscosity Models
Defining Non-Newtonian Viscosity
Non-Newtonian Friction Loss Calculations
Centrifugal Pump Viscosity Correction
Modeling Exercises
Two-Phase Flow Theory
Two-Phase Flow Regimes
Two-Phase Flow Modeling Approach
Two-Phase Flow Correlations
Two-Phase Flow Regimes – An Example Case
Line Sizing of Two-Phase Flow
Modeling Exercises
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