CFD is a powerful analytical tool that enables project teams to identify, visualize, and interrogate solutions to engineering problems before putting real-world resources at stake.
Under the governance of the conservation laws of physics (that is, the conservation of mass, momentum, and energy), CFD can describe all problems of fluid dynamics in three-dimensional space and time. This makes it an especially effective approach in the philosophical study of fluid mechanics, alongside theoretical studies and physical experimentation.
Computational Fluid Dynamics (CFD) is the branch of mechanics which deals with heat transfer, mass transfer and momentum transfer associated with fluid.
Existing techniques are more difficult and complex with more limitation, such as:
Advantages of CFD :
CFD enables you to break the wall of your imagination and existential reality
CFD gives insight,
insight give you the knowledge,
knowledge brings the innovation
CFD simulations aid in the design and optimization of ventilation systems to ensure uniform and controlled airflow, reducing the risk of contamination.
By analyzing air flow patterns, CFD helps identify potential areas of contamination and suggests strategies to prevent them, enhancing cleanroom system performance.
CFD is instrumental in achieving compliance with industry standards such as ISO 14644 and Good Manufacturing Practices (GMP) by providing insights into airflow patterns and particulate count control.