Reproduction data for: A preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations
L. Willeke, D. Schneider, and B. Uekermann. Software, (2023)Related to: Willeke, Leonard; Schneider, David; Uekermann, Benjamin; 2023; Ä preCICE-FMI runner to Couple FMUs to PDE-Based Simulations" (submitted).
DOI: 10.18419/darus-3549
Abstract
Input files and results for two simulation examples using the preCICE-FMI runner as described in Ä preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations". First, the simulation of a partitioned mass-spring oscillator system is considered. All model equations are based on ODEs. The coupled simulation can be executed with a FMU models, a Python solver or the combination of both. Second, we calculate a fluid flow around a moving cylinder. The flow equations are PDE-based and solved by OpenFOAM. A FMU model is coupled to OpenFOAM and used to implement a control algorithm to suppress the movement of the cylinder. Please refer to the README file for further instructions.
%0 Generic
%1 willeke2023reproduction
%A Willeke, Leonard
%A Schneider, David
%A Uekermann, Benjamin
%D 2023
%K darus mult ubs_10005 ubs_20008 ubs_30082 ubs_40116 ubs_40427 unibibliografie
%R 10.18419/darus-3549
%T Reproduction data for: A preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations
%X Input files and results for two simulation examples using the preCICE-FMI runner as described in Ä preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations". First, the simulation of a partitioned mass-spring oscillator system is considered. All model equations are based on ODEs. The coupled simulation can be executed with a FMU models, a Python solver or the combination of both. Second, we calculate a fluid flow around a moving cylinder. The flow equations are PDE-based and solved by OpenFOAM. A FMU model is coupled to OpenFOAM and used to implement a control algorithm to suppress the movement of the cylinder. Please refer to the README file for further instructions.
@misc{willeke2023reproduction,
abstract = {Input files and results for two simulation examples using the preCICE-FMI runner as described in "A preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations". First, the simulation of a partitioned mass-spring oscillator system is considered. All model equations are based on ODEs. The coupled simulation can be executed with a FMU models, a Python solver or the combination of both. Second, we calculate a fluid flow around a moving cylinder. The flow equations are PDE-based and solved by OpenFOAM. A FMU model is coupled to OpenFOAM and used to implement a control algorithm to suppress the movement of the cylinder. Please refer to the README file for further instructions. },
added-at = {2023-06-26T07:11:25.000+0200},
affiliation = {Willeke, Leonard/University of Stuttgart, Schneider, David/University of Stuttgart, Uekermann, Benjamin/University of Stuttgart},
author = {Willeke, Leonard and Schneider, David and Uekermann, Benjamin},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2a85ec4c6a90f6808065c30fc7b97b40a/unibiblio},
doi = {10.18419/darus-3549},
howpublished = {Software},
interhash = {614242a7a34919e37832bfe23d2d442e},
intrahash = {a85ec4c6a90f6808065c30fc7b97b40a},
keywords = {darus mult ubs_10005 ubs_20008 ubs_30082 ubs_40116 ubs_40427 unibibliografie},
note = {Related to: Willeke, Leonard; Schneider, David; Uekermann, Benjamin; 2023; "A preCICE-FMI runner to Couple FMUs to PDE-Based Simulations" (submitted)},
orcid-numbers = {Willeke, Leonard/0009-0004-4859-2452, Schneider, David/0000-0002-3487-9688, Uekermann, Benjamin/0000-0002-1314-9969},
timestamp = {2023-09-25T15:43:20.000+0200},
title = {Reproduction data for: A preCICE-FMI Runner to Couple FMUs to PDE-Based Simulations},
year = 2023
}
