Introduction of industrial wastewater treatment
Brief of unit operations in industrial wastewater treatment process
Classification of contaminants and respective treatment processes
Computational aspect of wastewater treatment Scope of process efficiency improvement
Challenges in wastewater treatment plant management and monitoring
Zero-liquid discharge concept and improved economics with computational modeling
Value addition by computational modeling AI in industrial wastewater treatment
How can Paanduv help?
Defect on Metal 3D printing Free Webinar
This webinar will shed light on the metal 3D printing aspects, defects, underlying physics, and technical and research challenges. It will also emphasize on how 3D computational modeling simulations can reduce the cycle time and improve economics.
Data Center Modeling
Data is all we have. Data is private and should be secured. That’s what data centers are there for. Data security in data centers is highly dependent on the temperature the servers experience and overheating the servers and data centers can be dangerous for the data.
Using data center and HVAC modeling, engineers can make informed decisions about design, equipment selection, operational strategies, and overall cooling optimization. This can help to reduce costs, improve efficiency, and ensure that the data center operates reliably and safely.
In this webinar, we will cover the modeling strategies for optimized data center cooling.
Computational Fluid Dynamics with Open-Source Software
Searching for a sustainable CFD solution with open-source nature, where the code is visible and editable, a free license, extensively covered physics, and most importantly, more accurate results.
In this introduction and live demo of AM PravaH, we will showcase its different capabilities of AM PravaH. AM PravaH is a parallelized computational modeling software with a Graphical User Interface (GUI) dedicated to AM processes and developed by Paanduv R&D. AM PravaH is powered by an ensemble of advanced numerical programs that are developed by researchers around the globe and by us; tailored and improvised by Paanduv R&D for AM specific tasks.
In this webinar, we cover multiscale (macro, meso, and micro) multiphase modeling of various 3D Printing processes such as Laser Powder Bed Fusion (LPBF), Direct Energy Deposition (DED) and traditional welding, all using OpenFOAM.
"Truly" n-phase interface tracking, evolution of interface (free surface) tracking solvers, validations with traditional and state-of-art interface tracking solvers, tailings dam failures, vertical drops, bubble rise, sediment scouring, flood routing, weirs, stormwater drop shafts, bioreactors, reaction kinetics, wastewater treatment, ship tank sloshing, fluidized beds, ship hulls, and advanced post-processing. All this, with OpenFOAM and Paraview!
This webinar covers conjugate heat transfer modeling (conduction, convection, radiation) of the energy systems i.e. electric vehicle battery packs, heating ventilation, and air conditioning (HVAC) modeling of car seats, nacelle in a wind turbine, and underwater data center.
Explore how this powerful computational tool enables us to simulate and analyze the complex dynamics of sediment transport in rivers, oceans, and more. Discover the science behind erosion, sediment deposition, and the impact on infrastructure and the environment. Join us in unraveling the secrets of sediment scour with OpenFOAM, an open-source solution for hydraulic and environmental simulations."
In this informative video, we delve into the versatile world of CFD with OpenFOAM, exploring its application in aerodynamics, multiphase flows, and HVAC systems. Witness how OpenFOAM empowers engineers and scientists to simulate and optimize the behavior of fluids in aircraft design, multiphase processes, and heating, ventilation, and air conditioning systems. Join us on this journey through the endless possibilities of CFD with OpenFOAM, and take your understanding of fluid dynamics to new heights