SimDrop
Your Advanced Droplet Impact Simulation Tool
SimDrop is an advanced software solution tailored to meet your droplet impact analysis needs. Whether you're an engineer, manufacturer, or researcher, SimDrop offers a specialised platform to model and understand droplet impact scenarios.
What does SimDrop do?
SimDrop is your dedicated tool for simulating droplet impact scenarios and gaining critical insights into the behaviour of droplets on various surfaces. It equips you with powerful features to enhance your workflow:
Optimal Nozzle Parameters
SimDrop assists in determining optimal nozzle parameters, such as droplet velocity, size distribution, and ideal liquid temperature.
Drop Prop Utility Software
Create your library of property files effortlessly using the Drop Prop Utility Software.
Material Libraries
Access a comprehensive library of different liquid and substrate materials for accurate simulations.
User-Friendly Interface
Enjoy a seamless experience with easy-to-use Quick Help guides and a detailed manual covering CFD fundamentals.
Applications & Features
SimDrop goes beyond the basics and offers a plethora of applications
and features:
Versatile Liquid Analysis
It helps you analyze and develop various types of liquids and molten metals for coating applications.
Spread Size and Thickness
Determine the spread size and thickness of the liquid film for precise results.
Coating Development
Analyse and develop various liquids and molten metals for coating applications.
Parameter Optimization
Determine optimal parameters such as droplet velocity, size distribution, and temperature for both liquid and substrate.
Thickness Analysis
Find the thickness of solidified liquids on a substrate.
Benefits
Versatility
Simulate droplet impact and solidification on any angled surface.
Specialized Focus
Unlike other CFD software, SimDrop is specialised for droplet impact and solidification, using free surface flow algorithms.
Time and Cost Savings
Cut down on prototyping and experimentation costs with efficient simulations.
Realistic Results
Provide valid results that closely resemble real-life behaviour.
Comprehensive Simulation
Simulate the entire drop impact process, including deposition and solidification of single or multiple droplets.