A general simulation methodology for rigid buoyant objects in multi-phase flows using ANSYS-CFX
College
Gokongwei College of Engineering
Department/Unit
Mechanical Engineering
Document Type
Conference Proceeding
Source Title
RCMME 2014
Publication Date
2014
Abstract
The study will discuss the development of a computational fluid dynamics model for the simulation of buoyant effects on a rigid body immersed in a multiphase fluid using ANSYS-CFX. Consequently, the study will be significant as it will provide a new simulation methodology in the design of different floatation devices. The researchers identified four main challenges in developing the model: addressing the negative volume element error, minimizing calculation cost, defining fluid composition in a multiphase fluid domain, and formulating a meshing strategy that is easily adaptable to a variety of geometries. Different options and methodologies explored to address the challenges were discussed in this paper. The model underwent simulation on two different geometries for adaptability. The researchers' were able to setup an air-water fluid interface for the model. Convergence errors occurred in the simulation when geometries have un-rounded edges. Mesh deformation was prevented if the time step was reduced from a range of 0.01 to 0.001 seconds. Mesh independence was also achieved when mesh size was adjusted to fine levels. A floating body was successfully simulated using the strategies mentioned.
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Recommended Citation
Pantua, C. R., Lopez, N. A., Marfori, I. V., Seva, R. R., & Chua, A. (2014). A general simulation methodology for rigid buoyant objects in multi-phase flows using ANSYS-CFX. RCMME 2014 Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/9246
Disciplines
Mechanical Engineering
Keywords
Computational fluid dynamics; Buoyant ascent (Hydrodynamics)
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