Recent trends and progress in the immersed boundary method
The immersed boundary method is a methodology for dealing with boundary conditions at
fluid–fluid and fluid–solid interfaces. The immersed boundary method has been attracting …
fluid–fluid and fluid–solid interfaces. The immersed boundary method has been attracting …
An immersed boundary method for fluid–structure interaction with compressible multiphase flows
This paper presents a two-dimensional immersed boundary method for fluid–structure
interaction with compressible multiphase flows involving large structure deformations. This …
interaction with compressible multiphase flows involving large structure deformations. This …
Effects of jet in crossflow on flame acceleration and deflagration to detonation transition in methane–oxygen mixture
The fluidic jet turbulator has been a novel perturbation generator in the pulse-detonation
engines research field for the past few years. In this paper, an experiment is performed to …
engines research field for the past few years. In this paper, an experiment is performed to …
A block-based adaptive particle refinement SPH method for fluid–structure interaction problems
The multi-resolution method, eg, the Adaptive Particle Refinement (APR) method, has been
developed to increase the local particle resolution and therefore the solution quality within a …
developed to increase the local particle resolution and therefore the solution quality within a …
A new formulation for air-blast fluid–structure interaction using an immersed approach: part II—coupling of IGA and meshfree discretizations
In this two-part paper we begin the development of a new class of methods for modeling
fluid–structure interaction (FSI) phenomena for air blast. We aim to develop accurate, robust …
fluid–structure interaction (FSI) phenomena for air blast. We aim to develop accurate, robust …
Fluid–structure interaction modeling with nonmatching interface discretizations for compressible flow problems: simulating aircraft tail buffeting
Many aerospace applications involve complex multiphysics in compressible flow regimes
that are challenging to model and analyze. Fluid–structure interaction (FSI) simulations offer …
that are challenging to model and analyze. Fluid–structure interaction (FSI) simulations offer …
[HTML][HTML] Fluid–structure interaction solver for compressible flows with applications to blast loading on thin elastic structures
In this study, we report the development and application of a fluid–structure interaction (FSI)
solver for compressible flows with large-scale flow-induced deformation of the structure. The …
solver for compressible flows with large-scale flow-induced deformation of the structure. The …
Consequence analysis of premixed flammable gas explosion occurring in pipe using a coupled fluid-structure-fracture approach
Y Du, F Zhou, L Ma, J Zheng, C Xu, G Chen - Journal of Loss Prevention in …, 2019 - Elsevier
A coupled fluid-structure-fracture approach incorporating a high-efficiency detonation
modeling algorithm was proposed to study the consequences of premixed flammable gas …
modeling algorithm was proposed to study the consequences of premixed flammable gas …
Effects of transverse jet parameters on flame propagation and detonation transition in hydrogen–oxygen–argon mixture
Two-dimensional numerical simulation is performed with the open-source program AMROC
to study the effects of transverse jets (act as fluidic obstacles within a detonation tube) on the …
to study the effects of transverse jets (act as fluidic obstacles within a detonation tube) on the …
A novel fluid-structure interaction algorithm for compressible flows and deformable structures
J Ning, H Zhang, X Xu, T Ma - Journal of Computational Physics, 2021 - Elsevier
In this study, we propose a new immersed boundary method for compressible fluid-structure
interaction simulations. We take a partitioned coupling strategy that comprises three parts …
interaction simulations. We take a partitioned coupling strategy that comprises three parts …