Computational Fluid Dynamics is a design assessment tool which provides
visualization of air distribution patterns in controlled spaces. Thus, helps
to achieve efficient air distribution, avoiding stagnant air pockets.
CFD Simulation allows to conduct real world testing of your models
to understand how design changes can help you to achieve desired objectives.
For a variety of building design applications,
detailed knowledge of ventilation
flow field distribution within occupied spaces is needed to provide thermal
comfort evaluation.
CFD provides the reliable predictions of laboratory room airflow
patterns and contaminant distributions. Many common laboratory practices
involve dealing with gaseous, virus, bacteria, fungi, powders, vapors etc.
and because of weighing, pipetting, transfer, handling, autoclaving, and
incubating particles get suspended into air. To maintain the controlled
environment within laboratory, CFD helps the designer
to simulate and maintain
uniform air flow within the spaces.
CFD tools help for making fast, accurate comparisons of thermal
comfort and air quality issues for different types of HVAC system.
Engineers are able to demonstrate how a design approach will achieve
energy efficiency standards, energy certifications or air quality requirements
before construction.
With the help of Autodesk CFD simulation tool participants understand how
design changes can help to optimize desired conditions.
