Industry: Agricultural Equipment Challenge: This study aimed to optimize the design of an intake manifold for a specified vehicle model. The goal was to improve airflow characteristics, minimize drag forces, and reduce side force oscillations experienced by the vehicle. Solution: Computational fluid dynamics (CFD) simulations were employed to analyze the performance of six different intake […]
Industry: Rail Transportation Challenge: Minimizing aerodynamic drag on locomotives is essential for improving operational efficiency and reducing environmental impact. However, traditional locomotive cabin designs can create significant aerodynamic resistance. Solution: Our team of engineers employed advanced computational fluid dynamics (CFD) simulations to analyze the aerodynamic performance of a new locomotive cabin design under two distinct
Industry: Renewable Energy (Energy Storage) Challenge: Ensure the optimal cooling performance of an energy storage container by analyzing the pressure drop associated with varying gap widths between the battery modules. This analysis is crucial for determining the impact of aisle width on the cooling system’s effectiveness and reducing design uncertainties. Solution: Computational fluid dynamics (CFD)
Industry: Rail Transportation Challenge: Minimizing aerodynamic drag, a major contributor to energy consumption for locomotives, is essential for improving operational efficiency and reducing environmental impact. Solution: Our team of engineers employed advanced computational fluid dynamics (CFD) simulations to meticulously analyze the aerodynamic performance of a locomotive design under two distinct operating conditions (potentially cruising and
