Xin Shi
ABSTRACT
Physically-based realistic simulation of cloth and fluid are both important research areas in Computer Graphics. There is significant research of fluids interacting with porous materials in applied physics. However, only a few research studies have been conducted for the dynamics of liquid transportation between porous materials with wetting effects. [Huber, et al. 2014] presented a two-way coupling method between fluid and infinitesimally thin cloth. However, their approach cannot handle porous solids or oversaturated piece. [Patkar and Chaudhuri 2013] proposed a three-stage method to support liquid diffusion in volumetric objects. However, fluid transport between porous materials which is tightly close to each other was not considered.
- Lenaerts, T., Adams, B., and Dutre, P. 2008. Porous Flow in Particle-Based Fluid Simulations. ACM Trans. Graph. 27, 49:1--49:8. Google Scholar
Digital Library
- Huber, M., Eberhardt, B., and Weiskopf, D. 2014. Boundary Handling at Cloth--Fluid Contact. Computer Graphics Forum. Google ScholarDigital Library
- Patkar, S., and Chaudhuri, P. 2013. Wetting of Porous Solids. IEEE Trans. Vis. Comput. Graph., 19, 9, 1592--1604. Google ScholarDigital Library
Index Terms
- Fluid transport in and between porous materials
Recommendations
Creeping flow of micropolar fluid past a porous sphere
The creeping flow of incompressible micropolar fluid past a porous sphere with permeability k is studied assuming uniform flow far away from the body. The stream function is determined by matching the solutions of Stokes equations for the flow outside ...
Fluid absorption and diffusion in and between porous materials
VRCAI '15: Proceedings of the 14th ACM SIGGRAPH International Conference on Virtual Reality Continuum and its Applications in IndustryThis paper presents a physically based method to simulation the mechanics of a fluid flowing through porous deformable materials. We introduce Darcy's law to governing fluid absorption and diffusion. Over-saturated part of porous solid loses excess ...
Peristaltic transport of a magneto-fluid with porous boundaries
Peristaltic pumping by a sinusoidal traveling wave in the porous walls of a two-dimensional channel filled with a viscous incompressible conducting fluid under the effect of transverse magnetic field is investigated theoretically and graphically. It has ...
Comments