Complete Pipe Flow
Simulation Software
Solve any pipe flow system: model liquid, gas, two‑phase, slurry, and non‑Newtonian flow from a single software solution.
Model complex fluid systems faster—trusted by engineers.
Accurate hydraulics, pressure loss, equipment sizing, cavitation risk, and system optimization.
Proven Accuracy
Methods verified by 40+ years of engineering practice. Used and trusted by engineers since 1984.
Exceptional ROI & Value
Enterprise‑grade capability at a fraction of typical cost. Save up to 80% design time.
Intuitive by Design
Build models quickly, run complex calculations, and visualize results clearly.
Unrivaled Capabilities for Every Flow Challenge
Liquid
Model simple to complex liquid networks, size pumps, and evaluate performance; identify energy-saving and reliability-improvement opportunities.
Gas
Accurately analyze gas systems with real gas behavior. No ideal gas, isothermal or adiabatic flow assumptions.
Slurry & non-Newtonian
Model liquid-solid and non-Newtonian fluid flow using state-of-the-art and industry-accepted methodologies.
Two Phase
Predict liquid‑gas behavior with advanced correlations and flow regime mapping.
Comprehensive Analysis & Sizing
Model Building & Interface
Build piping networks quickly with an intuitive visual interface. Model any piping system using standard, generic, and customized FluidFlow components to suit your project requirements.
Comprehensive Engineering Databases
Access over 1,200 fluid properties and 800+ equipment entries in the expandable database, giving you the data you need to model real-world systems accurately.
Equipment Sizing & Performance Analysis
Analyze performance against manufacturer specifications and size pipes, pumps, compressors, control valves, relief devices, and other piping equipment with confidence.
Thermal & Heat Transfer Analysis
Assess heat transfer effects on fluid behavior across a range of scenarios, including insulated and buried piping systems operating under varying thermal conditions.
Advanced Calculation Tools
Accelerate design iterations and explore multiple scenarios with powerful features including Back Calc, Multi Calc, and Scripting tools to streamline complex workflows.
Integration & Reporting
Generate comprehensive project documentation and integrate with CAD systems for seamless, efficient workflows across your engineering and design teams.
One model for every flow challenge in your pipe network
Use FluidFlow to analyze steady-state pressure drop, pump performance, control valves, compressible gas flow, liquid-solid slurry, non-Newtonian flow, liquid-gas two-phase behavior, and heat-transfer effects across connected pipe networks. Start with the workflow that matches your engineering problem, then test it with your own system data using guided free training or a 14-day free trial.
Parallel and branching flow pipe network pressure drop
Estimate pressure drop across connected pipe networks where flow can split, recombine, and redistribute across branches.
Size pumps and model the fluid system against pump performance curves
Size pumps or review pump performance against system pressure drop and changes in fluid properties, or use it to shortlist and select pumps from different manufacturers.
Identify cavitation and flashing risks across pumps, valves and pipework
Check operating conditions that can create cavitation and flashing risks across pumps, control valves, and connected pipework.
Size control valves and model performance against system pressure balance
Size control valves and review valve performance against flow, pressure drop, and the connected system balance.
Model real gas and compressible flow networks
Analyze compressible gas pipe networks using real gas equations of state — not simplifying isothermal or adiabatic assumptions — for accurate pressure, density, velocity, and equipment results across the connected model.
Model liquid-solid flow and settling slurry piping and pumping systems
Model liquid-solid and settling slurry systems where solids behavior, velocity, pipe size, and pump performance affect pressure drop.
Analyze non-Newtonian flow in piping and pump systems
Review non-Newtonian flow behavior in pipe and pump systems where rheology affects pressure drop and operating performance.
Model liquid-gas two-phase flow in piping systems
Review liquid-gas two-phase flow behavior across piping systems, including pressure drop, quality, flow regime, slug-flow risk, and operating effects.
Model heat-transfer effects in pipe network pressure balance and fluid behaviour
Account for heat-transfer effects that can change fluid properties, pressure drop, equipment performance, and network pressure balance.
Start with guided FluidFlow training or test a model with your own system data.
Trusted Across Industries
Used by 1,000+ companies in mining, power generation, oil & gas, chemical processing, pharmaceuticals, and marine.
Process & Chemical
Mining & Metals
Utilities
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FluidFlow Success Stories
Experience FluidFlow Today
What’s Included in your Free Trial:
Full Professional Features
Access to all simulation modules and advanced tools
14 full days
Plenty of time to test with your real projects
Sample Projects Included
Pre-built examples to get you started immediately
Live Support During Trial
Get help from our engineering team via chat and email
