Events
Role of Agitation in Heat Transfer Efficiency and Its Troubleshooting Using CFD Models
n chemical processes, heat transfer plays a vital role in ensuring product quality, safety, and efficiency. This exclusive webinar is designed to help process engineers and technical professionals understand how agitation affects heat transfer — and how Computational Fluid Dynamics (CFD) can help troubleshoot and optimize this critical phenomenon.
Tip Speed or P/V Don’t Cut it Anymore - Scaling-up Bioprocesses the Right Way
Scaling up bioprocesses is a challenging process that requires a careful balance between equipment design and operational capabilities. Key factors influencing shear, mixing, and oxygen transfer must be considered. Traditional parameters like tip speed or power per volume (P/V) are no longer adequate. As bioprocessing grows more complex and regulatory demands tighten, it’s crucial to consider othe...
Accelerating Crystallization Process Scale-Up with Mixing Intelligence
Crystallization plays a critical role in pharmaceutical and chemical manufacturing, directly impacting product purity, particle size distribution (PSD), and downstream process efficiency. However, the path from lab-scale success to full-scale production is fraught with challenges—especially when mixing dynamics, yield, and crystallization kinetics vary across equipment scales.
Building ROMs and Digital Twins using Python Libraries
Digital twins are powerful virtual representations of physical systems, built using advanced computational models such as CFD (Computational Fluid Dynamics) and FEA (Finite Element Analysis). While highly accurate, these full-scale models often face challenges—they are expensive, demand expert users, and require heavy computational resources. Reduced Order Models (ROMs) simplify these complexities...