Simulate multiphase fluid flow and heat transfer problems to optimise system performance.
WHAT IS CFD MODELLING? Computational Fluid Dynamic (CFD) is a numerical simulation tool utilized to address and analyze problems involving fluid flows. CFD analysis helps manufacturing companies to get a solid understanding of the situation and provides a platform to generate practical ideas to make the best decision about the most productive and flawless design.
WHAT CAN IT DO?
Heating, Ventilation and Air Conditioning (HVAC)
Rotating Equipment/Turbomachinery
Multiphase Processing Equipment
Thermal Analysis & Heat Transfer
Erosion Analysis
Flow Assurance
External Aerodynamics
Wind Loading
Benefits of using CFD
Engineering companies are always seeking ways to enhance products before hitting the market. Often the goals include right-first-time, reducing the requirement for expensive prototypes and minimizing development costs. Simulation technology like CFD offers solutions to overcome these design challenges.
CFD simulation brings several benefits that seek to obtain these aspirations:
- Visualise performance before manufacturing or modifying equipment.
- Without installing or modifying a real system, CFD modelling can anticipate which changes in your design layout are most critical for enhancing performance.
- CFD simulation delivers comprehensive and precise info about heating, ventilation, & air condition design parameters.
- Improve energy efficiency and reduce running costs of equipment
- CFD simulation saves turnaround time and cost and it drives reliable results.
In a nut shell, CFD modelling analyzes fluid-flow & heat-transfer mechanisms, enabling manufacturing companies to identify how a design will perform under real-world challenges and conditions. In addition, it outlines opportunities for enhancement ahead of time, thus minimizing risks and avoiding expensive warranty problems.
WHY USE ARMECH SOLUTIONS FOR CFD MODELLING
Our collaborative approach will empower you to make better design desicions.
We are experts in CFD simulation and thermofluid mechanics.
We use state-of-the-art workstations and industry leading ANSYS CFD software.
We deliver simple solutions to complex problems.
find out more about ansys cfd
HVAC
HVAC Cost-effective, iterative design methodology
Test multiple scenarios to optimise the system design
Improve energy efficiency
Improve comfort/system quality
Data centre cooling
Vehicular environments
Process Equipment
Predict seperator performance
Cyclonic devices
Scrubbers
Estimate gas bubble carry-under, liquid droplet carry-over and overall separation performance
Fluid-structures interaction
Mixing tanks
Erosion Analysis
Sand erosion
Liquid droplet erosion
Cavitation bubbles Satisfy regulatory codes such as DNV RP 0501
Two stage coupling: flow equations and discrete phase model (DPM) to calculate sand particle trajectory
Wind Loading
Steady state and transient
Aerodynamic effect on slender structures
Fluid-structures interactions
Fatigue analysis
Outdoor structures
Gas dispersion analysis
Thermal Analysis
Conduction, convection and radiation through solid and fluid bodies
Natural, forced and mixed convection
Electronics cooling and heat dissipation
Analyse complex geometry and non-homogenous materials
Increase product efficiency
Heat exchangers
Flow Assurance
Minimise loss of production
Optimise injection points
Analyse complex flow problems
Analyse slugging
Optimise flow parameters
Rotating Machinery
Advanced turbulent models
Real gas properties and multiphase effects, such as cavitation
Improve design performance and reduce running costs
Pressure rise generated by centrifugal compressor
Visualise velocity and pressure profiles
External Aerodynamics
Drag reduction
Flow analysis over a aerofoil
Virtual wind tunnel testing Influence of vortex and turbulent flow
Wind power industry Aeroacoustics
Rheology
Optimise manufacturing process
Improve environmental efficiency
Cost-effective
Extrusion
Thermoforming
Concrete shaping
