1. Factory and Industrial Ventilation & Thermal Analysis
We conduct CFD-based ventilation and thermal analyses for industrial and factory environments to assess airflow patterns, heat buildup, and temperature distribution. The study helps identify stagnant zones, optimize exhaust and supply air locations, and improve worker comfort and equipment cooling. Results support the design of efficient ventilation systems that enhance indoor air quality, reduce energy consumption, and maintain safe operating conditions under various process loads.
2. External Ventilation and Dispersion Analysis
We perform CFD analyses to evaluate air movement, contaminant dispersion, and exhaust gas behavior in both enclosed and outdoor environments. The study covers ventilation effectiveness, pollutant or gas concentration patterns, and the influence of wind or thermal effects on air quality. Results help optimize ventilation layouts, stack heights, and exhaust configurations to ensure safety, regulatory compliance, and environmental performance across industrial, oil & gas, and utility facilities.
3. Fluid Mixing analysis in Process and Water Treatment Plants
We perform CFD studies to evaluate flow patterns and mixing efficiency in process tanks, basins, and reactors used in industrial and water treatment plants. The simulations help ensure proper blending of chemicals, uniform concentration, and consistent temperature distribution. By optimizing jet, impeller, or inlet arrangements, we enhance process reliability and treatment effectiveness across various operating conditions.
4.Sloshing and Dynamic Fluid Interaction Analysis
We perform advanced CFD simulations to evaluate liquid sloshing behavior in storage tanks, vessels, and offshore structures under various operating and motion conditions. The analysis helps predict fluid movement, pressure variation, and free surface dynamics. Results are used to optimize baffle arrangements, improve tank design, and ensure safe and stable operation during transportation or seismic events.
5. Thermal Energy Storage (TES) Tank CFD Analysis
Our TES tank CFD studies assess temperature stratification, charging and discharging behavior, and overall thermal performance. The analysis helps identify thermal mixing zones, improve diffuser design, and optimize energy retention efficiency. We provide insights that lead to better system performance and reduced energy losses across operating cycles.
6. Spray, Misting, and Nozzle Flow Analysis
Our CFD analysis for misting systems, sprinklers, and nozzles focuses on droplet distribution, spray angle, and coverage uniformity. We model complex multiphase flow behavior to predict cooling effectiveness, fire suppression efficiency, or dust control performance. This ensures system reliability and optimal design under real operating conditions..
