N
Nikolaus A. Adams
Researcher at Technische Universität München
Publications - 436
Citations - 14368
Nikolaus A. Adams is an academic researcher from Technische Universität München. The author has contributed to research in topics: Turbulence & Large eddy simulation. The author has an hindex of 53, co-authored 408 publications receiving 11879 citations. Previous affiliations of Nikolaus A. Adams include École Polytechnique Fédérale de Lausanne & Center for Turbulence Research.
Papers
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An approximate deconvolution procedure for large-eddy simulation
Steffen Stolz,Nikolaus A. Adams +1 more
TL;DR: An alternative approach to large-eddy simulation based on approximate deconvolution (ADM) is developed in this article, where the main ingredient is an approximation of the nonfiltered field by truncated series expansion of the inverse filter operator.
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A multi-phase SPH method for macroscopic and mesoscopic flows
Xiangyu Hu,Nikolaus A. Adams +1 more
TL;DR: A multi-phase smoothed particle hydrodynamics (SPH) method for both macroscopic and mesoscopic flows is proposed, and a new simple algorithm capable for three or more immiscible phases is developed.
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A generalized wall boundary condition for smoothed particle hydrodynamics
TL;DR: A new formulation of the boundary condition at static and moving solid walls in SPH simulations based on a local force balance between wall and fluid particles and applies a pressure boundary condition on the solid particles to prevent wall penetration.
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An approximate deconvolution model for large-eddy simulation with application to incompressible wall-bounded flows
TL;DR: In this article, an approximate deconvolution model for large-eddy simulation of incompressible flows is applied to turbulent channel flow and the effect of nonrepresented scales is modeled by a relaxation regularization involving a secondary filter operation.
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A High-Resolution Hybrid Compact-ENO Scheme for Shock-Turbulence Interaction Problems
Nikolaus A. Adams,Karim Shariff +1 more
TL;DR: In this paper, a class of upwindbiased finite-difference schemes with a compact stencil is proposed in general form, suitable for the time-accurate direct numerical simulation of fluid-convection problems.