







Computational Fluid Dynamics Analysis of Butterfly Valve Butterfly valves are widely used in various industries for controlling the flow of fluids. They are known for their simple design, compact size, and low cost. However, the performance of a butterfly valve can be greatly influenced by the fluid dynamics involved. Computational Fluid Dynamics (CFD) analysis is…
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Introduction to Steady-state CFD Simulation of Cyclone Separator Cyclone separators are widely used in various industries for the separation of solid particles from gas or liquid streams. They are particularly effective in applications where the particles have a high density and are relatively large in size. The efficiency of a cyclone separator depends on its…
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AI – Simulating Cyclones with OpenFOAM: A Comprehensive Guide Simulating Cyclones with OpenFOAM: A Comprehensive Guide Cyclones are one of the most devastating natural disasters that can occur. They can cause widespread destruction, loss of life, and leave communities in ruins. As such, it is important to understand how they form and how they can…
Eiffel Tower CFD Simulation The Eiffel Tower, an iconic landmark in Paris, France, is not only a symbol of architectural brilliance but also a subject of scientific study. Computational Fluid Dynamics (CFD) simulation has been used to analyze the aerodynamic behavior of the Eiffel Tower, providing valuable insights into its structural stability and wind resistance….
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GRIDPRO was founded in 1989 by Dr. Peter Eiseman – the president of PDC and a noted international authority in grid generation technology. Dr. Eiseman has authored more than 150 related publications and is a founding member of the International Society of Grid Generation as well as the U.S. Association of Computationtal Mechanics.
Introduction to GRIDPRO – A Meshing Software GridPro is a powerful meshing software that has been designed to help engineers and scientists create high-quality computational models for a wide range of applications. This software is widely used in the aerospace, automotive, and energy industries, as well as in academic research. One of the key features…
OpenFOAM simulation of cyclone using MPPIC solver, with implicit packing and isotropy modelling from OpenFOAM tutorial. Introduction:Cyclone simulation is a crucial aspect of fluid dynamics and process engineering, particularly in industries such as chemical engineering and environmental sciences. Cyclones are devices used to separate particles from a fluid stream based on their density and size….
Steady-state CFD simulation of cyclone separator is performed using ANSYS Fluent. Particles are tracked using DPM. One-way coupling is considered without drag. Meaning fluid phase will influence particulate phase via drag and turbulence whereas particulate phase has no influence on the gas phase.
Drone with vertical takeoff and horizontal movement using propulsive propeller simulated with ANSYS CFX. For turbulence scale adaptive simulation (SAS) model is used. Around 17.3 Million grid cells are used in this case. Immersed body solver is used to solve the simulation of this concept drone. How to improve a CFD Simulation Improving a CFD…
Flow simulation of a Football is performed using ANSYS CFX in this project. Around 6.8 million mesh elements are used in this analysis. Inlet velocity is 8 m/s. For modeling turbulence SST turbulence model is used. Original 3D model of the football is from Xan San.
Daniel LaCroixdlacroix@pointwise.com Radek Mácaradek.maca@cfdsupport.com This report presents the benchmark validation of CFD simulation results of the Potsdam PropellerTest Case (PPTC), using TCFD® with POINTWISE® mesh. PPTC is a marine propulsor that wasextensively measured by SVA Potsdam and related data were published [1] [2] [3]. The aim of thisbenchmark was to evaluate the TCFD®, computational fluid…
3D Print The Ultimaker 3 3D printer with two extruders is available to the Institute for visualization and haptic perception of flow simulation results. The possibility to touch the research object allows completely new impressions and perceptions of the underlying question.
FIELDS OF RESEARCH AND METHODS Modelling of the Unsteady Dynamics of Turbulence Disperse Bubby flows Large Eddy Simulation modelling of Liquid atomization Direct Numerical Simulation of turbulent premixed Combustion Biomimetic Wing Configurations Simulation of laminar separation on airfoils Turbulent boundary and initial conditions Turbulence modelling of Leading edge vortices Shock-Flame Interaction Turbulent Emulsions Unsteady aerodynamics…
Computational fluid dynamics (CFD) is a branch of fluid mechanics that uses numerical analysis and data structures to analyze and solve problems that involve fluid flows. Computers are used to perform the calculations required to simulate the free-stream flow of the fluid, and the interaction of the fluid (liquids and gases) with surfaces defined by boundary conditions. With high-speed supercomputers, better solutions can be achieved, and are…
WHAT IS MESHING? Meshing is the process in which the continuous geometric space of an object is broken down into thousands or more of shapes to properly define the physical shape of the object. This process typically consumes a significant portion of the time in acquiring simulation results. As a result, Ansys meshing has created…
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