Advanced simulation software, known as Computational Fluid Dynamics (CFD) is capable to model real world ventilation, wind dispersion and energy-related problems in buildings. This state of the art tool is used during (preliminary) design to maximize efficiency and safety of built environments. Niyyat can help you with Civil Engineering CFD simulations.

• The effects of wind on building
• Controlled, clean environments such as clean rooms and operation rooms
• Server room and data center designcooling efficiency
• Manufacturing facilities & their processes for thermal load and proper ventilation
• Labs
• Ventilation air patterns and efficiency
• Indoor and outdoor air quality
• Human comfort in buildings such as offices and facilities
• Indoor temperature uniformity

Swimming Pool

A proper swimming pool design can be challenging in many ways. To ensure full human comfort, proper disinfectant distribution, removal of pollutants and homogeneous temperature distribution, a swimming pool CFD analysis is the most cost-effective and accurate way.

By analyzing the flow field in a pool you can decrease costs of building and operating a swimming pool facility and equipment. Besides analyzing the pool, Niyyat offers calculations on the pumps, inlet vents, drains and duct-work designs.

Biomedical Engineering Applications

Fluid flows are encountered in everyday life, such as, thunderstorm, environmental disaster, engineering fields such as internal and external combustion kinetics, air-conditioning and finally in biology to understand complex processes such as blood flow, breathing and renal flow. Thus understanding flow physics is necessary for performing detailed engineering and product development, for example a stent. This model can be numerically solved as what is known as CFD to yield a quantitative estimation.

Since its introduction in biomedical engineering, CFD has attracted significant interest from researchers and provided opportunities to study the complex human anatomy and physiological processes, response to diseases and its usefulness to develop prosthetics. The widespread adoption of CFD will dramatically accelerate the improvement of healthcare in the near future by patient specific customization.