Fiber suspension simulations are challenging since they involve transient fluid flow with immersed solid objects subject to large displacements and rotations. In the present work, a beam model in co-rotational formulation is coupled with a fluid solver using immersed boundary methods. The model is used to simulate a fiber in a shear flow and excellent agreement is found with Jeffery\u27s equations. The shapes of fibers deforming in a shear flow are found to be in qualitative agreement with shapes observed in experiments.The flow of a fiber suspension is studied by simulating early paper forming with one-way and semi-two-way coupling. It is found that the flow through the fiber web needs to be resolved in order to predict the retention of fi...
International audienceA numerical method to simulate fibre suspensions in transient and steady state...
International audienceFiber suspension flow and fiber orientation through a parallel- plate channel ...
A numerical tool has been developed for particle-level simulations of fibre suspension flo...
Fiber suspension simulations are challenging since they involve transient fluid flow with immersed s...
Computer simulations are important to increase the knowledge of the processes involved in paper maki...
Abstract. We present an approach for numerically simulating the dynamics of flexible fibers in a thr...
The dynamics of fiber suspensions are of great importance in applications such as the dry-forming pr...
Paper forming is the first step in the paper machine where a fiber suspension leaves the headbox and...
We investigate the dynamics of a flexible, elastic fibre, suspended in a fluid and subjected to a 3D...
A numerical model based on the Fokker–Planck equation for studying the orientation of paper fibers i...
In the thesis a sphere fiber model is developed and implemented to study flocs of flexible and stiff...
Abstract. We perform numerical simulations of the sedimentation of rigid fibers sus-pended in a visc...
An immersed boundary method for three-dimensional, time-dependent flows is presented in this work an...
Paper forming is the first step in the paper machine where a fiber suspension leaves the headbox and...
Immersed fibres are a very useful tool for modeling moving, elastic interfaces that interact with a ...
International audienceA numerical method to simulate fibre suspensions in transient and steady state...
International audienceFiber suspension flow and fiber orientation through a parallel- plate channel ...
A numerical tool has been developed for particle-level simulations of fibre suspension flo...
Fiber suspension simulations are challenging since they involve transient fluid flow with immersed s...
Computer simulations are important to increase the knowledge of the processes involved in paper maki...
Abstract. We present an approach for numerically simulating the dynamics of flexible fibers in a thr...
The dynamics of fiber suspensions are of great importance in applications such as the dry-forming pr...
Paper forming is the first step in the paper machine where a fiber suspension leaves the headbox and...
We investigate the dynamics of a flexible, elastic fibre, suspended in a fluid and subjected to a 3D...
A numerical model based on the Fokker–Planck equation for studying the orientation of paper fibers i...
In the thesis a sphere fiber model is developed and implemented to study flocs of flexible and stiff...
Abstract. We perform numerical simulations of the sedimentation of rigid fibers sus-pended in a visc...
An immersed boundary method for three-dimensional, time-dependent flows is presented in this work an...
Paper forming is the first step in the paper machine where a fiber suspension leaves the headbox and...
Immersed fibres are a very useful tool for modeling moving, elastic interfaces that interact with a ...
International audienceA numerical method to simulate fibre suspensions in transient and steady state...
International audienceFiber suspension flow and fiber orientation through a parallel- plate channel ...
A numerical tool has been developed for particle-level simulations of fibre suspension flo...