Details
Title
Lozinski, Alexei
Sciper ID
139054
Publications
A Fokker-Planck based numerical method for modelling non-homogeneous flows of dilute polymeric solutions
An Anisotropic Error Estimator For The Crank-Nicolson Method: Application To A Parabolic Problem
An Easily Computable Error Estimator In Space And Time For The Wave Equation
Finite element approximation of multi-scale elliptic problems using patches of elements
Fokker-Planck simulations of fast flows of melts and concentrated polymer solutions in complex geometries
Motion of gas bubbles, considered as massless bodies, affording deformations within a prescribed family of shapes, in an incompressible fluid und[...]
On the numerical simulation of flows of polymer solutions using high-order methods based on the Fokker-Planck equation
Spectral methods for kinetic theory models of viscoelastic fluids
Time and space adaptivity of the wave equation discretized in time by a second-order scheme
Towards more realistic kinetic models for concentrated solutions and melts
An Anisotropic Error Estimator For The Crank-Nicolson Method: Application To A Parabolic Problem
An Easily Computable Error Estimator In Space And Time For The Wave Equation
Finite element approximation of multi-scale elliptic problems using patches of elements
Fokker-Planck simulations of fast flows of melts and concentrated polymer solutions in complex geometries
Motion of gas bubbles, considered as massless bodies, affording deformations within a prescribed family of shapes, in an incompressible fluid und[...]
On the numerical simulation of flows of polymer solutions using high-order methods based on the Fokker-Planck equation
Spectral methods for kinetic theory models of viscoelastic fluids
Time and space adaptivity of the wave equation discretized in time by a second-order scheme
Towards more realistic kinetic models for concentrated solutions and melts
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Lozinski, A.
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