E. Hicken scite author profile

E. Hicken

5Publications

44Citation Statements Received

21Citation Statements Given

How they've been cited

178

How they cite others

Affiliations

University of Toronto, Forschungszentrum Jülich, Gesellschaft für Anlagen und Reaktorsicherheit

Publications

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A Parallel Newton-Krylov-Schur Flow Solver for the Navier-Stokes Equations Using the SBP-SAT Approach

Hicken

Zingg

2010

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This paper presents a three-dimensional Newton-Krylov flow solver for the NavierStokes equations which uses summation-by-parts (SBP) operators on multi-block structured grids. Simultaneous approximation terms (SAT's) are used to enforce the boundary conditions and the coupling of block interfaces. The discrete equations are solved iteratively with an inexact Newton method. The linear system of each Newton iteration is solved using a Krylov subspace iterative method with an approximate-Schur parallel preconditioner. The algorithm is validated against an established two-dimensional flow solver. Additionally, results are presented for laminar flow around the ONERA M6 wing, as well as low Reynolds number flow around a sphere. Using 384 processors, the solver is capable of obtaining the steady-state solution (reducing the flow residual by 12 orders of magnitude) on a 4.1 million node grid around the ONERA M6 wing in 4.2 minutes. Convergence to 3 significant figures in force coefficients is achieved in 83 seconds. Parallel scaling tests show that the algorithm scales well with the number of processors used. The results show that the SBP-SAT discretization, solved with the parallel Newton-Krylov-Schur algorithm, is an efficient option for three-dimensional Navier-Stokes solutions, with the SAT's providing several advantages in enforcing boundary conditions and block coupling.

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Investigation of natural convection in large pools

Krepper

Hicken

Jaegers

2002

International Journal of Heat and Fluid Flow

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Das Temperaturfeld in laminar durchströmten Kanälen mit Rechteck-Querschnitt bei unterschiedlicher Beheizung der Kanalwände

Hicken¹

1968

Wärme- und Stoffübertragung

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Operation conditions of the emergency condenser of the SWR1000

Schaffrath

Hicken

Jaegers

et al. 1999

Nuclear Engineering and Design

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Modelling of void formation in the subcooled boiling regime in the athlet code to simulate flow instability for research reactors

Hainoun

Hicken

Wolters

1996

Nuclear Engineering and Design

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E. Hicken

A Parallel Newton-Krylov-Schur Flow Solver for the Navier-Stokes Equations Using the SBP-SAT Approach

Investigation of natural convection in large pools

Das Temperaturfeld in laminar durchströmten Kanälen mit Rechteck-Querschnitt bei unterschiedlicher Beheizung der Kanalwände

Operation conditions of the emergency condenser of the SWR1000

Modelling of void formation in the subcooled boiling regime in the athlet code to simulate flow instability for research reactors

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