Industry: Rail Transportation Challenge: Ensuring the effectiveness of fire detection systems in locomotives is crucial for safety and regulatory compliance. Solution: Our team employed advanced computational fluid dynamics (CFD) simulations to validate the performance of a fire detection system in a locomotive under various operating conditions and fire scenarios. Approach: Results: Benefits: Summary: This case […]
Industry: Agricultural Equipment Challenge: To ensure effective cooling of the Syntrac 400’s engine bay at both stationary (0 km/h) and operational (10 km/h) conditions, a comprehensive heat balance and airflow simulation study was conducted using computational fluid dynamics (CFD). Objectives: Methodology: Results and Discussion: Stationary Conditions (0 km/h): Operational Conditions (10 km/h): Pressure Resistance Curve:
Industry: Construction Equipment (e.g., Concrete Pumps, Generators) Challenge: Manufacturers of construction equipment face a constant struggle to balance noise reduction with optimal engine performance and cooling efficiency. Muffler placement within the exhaust shaft plays a crucial role in achieving this balance. Traditional methods of physical testing and experimentation can be time-consuming and resource-intensive. Solution: Advanced
Industry: Rail Transportation This case study explores how Computational Fluid Dynamics (CFD) simulations can be used to analyze and improve the cooling system of a complex industrial component – an engine power pack for a railway vehicle. Challenge: Ensure efficient heat dissipation within the power pack under two operating conditions: stationary and cruising speed. Solution:
Industry: Rail Transportation This case study explores how Computational Fluid Dynamics (CFD) simulations can be used to analyze and improve the cooling system of a complex industrial component – an engine power pack for a vehicle. Challenge: Ensure efficient heat dissipation within the power pack at cruising speed. Solution: CFD simulations were employed to evaluate
