OpenFOAM-preCICE: Coupling OpenFOAM with External Solvers for Multi-Physics Simulations

Chourdakis, Gerasimos; Schneider, D. P.; Uekérmann, Benjamin

doi:10.51560/ofj.v3.88

Cited by 21 publications

(15 citation statements)

References 34 publications

(86 reference statements)

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“…Specifically, the first sub-goal was to implement the model and a novel algorithm for time stepping in the well-known CFD solver OpenFOAM (OpenFOAM® v2206 was used, see Appendix A for details). Similarly to Laitinen et al [15] and Chourdakis et al [14], the solver "chtMultiRegionFoam" was used as the basis for the work. The second sub-goal was to perform a sensitivity analysis of the model prediction with respect to key input parameters (i.e.…”

Section: Objectivesmentioning

confidence: 99%

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A Fast Calibrated CFD Model for Timber-Concrete Composite Ventilated Façades

Pastori,

Salehi,

Radl

et al. 2024

Preprint

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Timber-concrete composite (TCC) systems join the positive aspects of engineered wood products (good seismic behaviour, low thermal conductivity, environmental sustainability, good behaviour under fire if appropriately designed) with those of concrete (high thermal inertia, durability, excellent fire resistance). TCC facades are typically composed by an internal insulated timber-frame wall and an external concrete slab, separated by a ventilated air cavity. However, there is very limited knowledge concerning the performance of TCC facades, especially for what concerns their thermal behaviour. The present paper deals with the development and optimisation of a 2D CFD model for the analysis of TCC ventilated façades thermal behaviour. The model is calibrated and validated against the experimental data collected during the annual monitoring of a real TCC ventilated envelope in the north of Italy. Also, a new solver algorithm is developed to significantly speed up the simulation. The final model can be used for the time-efficient analysis and optimisation of the thermal performance of TCC ventilated facades, as well as other ventilated facades with external massive cladding, avoiding the expensive and time-consuming construction of mock-ups, or the use of comparably slow (conventional) CFD solvers that are less suitable for optimization studies.

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Section: Objectivesmentioning

confidence: 99%

“…with the slowest thermal response) dictates the number of time steps to be performed. Potential solutions to such a strategy are parallelization, implicit thermal coupling [14], or the simplification of the regions (usually the solid regions; sometimes simply the grid resolution is reduced).…”

Section: Introductionmentioning

confidence: 99%

A Fast Calibrated CFD Model for Timber-Concrete Composite Ventilated Façades

Pastori,

Salehi,

Radl

et al. 2024

Preprint

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“…Extra boundary conditioning is implemented using a source called "acousticDamping". 30 This introduces an artificial damping source term in the governing equations, and it diminishes the strength of the waves within an absorbing region before they reach the boundaries to eliminate any residual reflections.…”

Section: Dφmentioning

confidence: 99%

Simulations of multi-rotor interaction noise at hovering & forward flight conditions

Afari

Mankbadi

2023

International Journal of Aeroacoustics

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A high-fidelity simulation of two in-line counter-rotating propellers in hover, and in forward flight conditions are performed. Near field flow and acoustic properties were resolved using Hybrid LES-Unsteady RANS. Far-field sound predictions were performed using Ffowcs-Williams-Hawkings formulation. The two-propeller results in hovering are compared with that of the single propeller. This enabled us to identify the aerodynamic changes resulting from the proximity of the two propellers to each other and to understand the mechanisms causing the changes in the radiated sound. We then considered the forward flight case and compared it with the corresponding hovering case. This enabled us to identify the aerodynamic changes resulting from the incoming stream. By examining the near acoustic field, the far-field spectra, the Spectral Proper Orthogonal Decomposition, and by conducting periodic averaging, we were able to identify the sources of the changes to the observed tonal and broadband noise.

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“…The OpenFOAM adapter 19 is currently the most frequently used of the listed adapters and OpenFOAM represents the fluid solver in most of our tutorial cases. It is also the adapter with the highest number of contributions in the context of student and research projects 62 – 65 . The adapter is being actively developed and more features have been added in the past years by multiple contributors.…”

Section: Official Adaptersmentioning

confidence: 99%

“…Function objects are plug-ins that OpenFOAM uses mainly for optional post-processing tools. Implementing the adapter in this way allows using the adapter with any standard or in-house OpenFOAM solver (each being a stand-alone application) that supports function objects, without modifying the code of the solver 63 . The separation between the solver and the adapter has facilitated development and increased user adoption, such that we now aim for this model wherever possible.…”

Section: Official Adaptersmentioning

confidence: 99%

preCICE v2: A sustainable and user-friendly coupling library

Chourdakis¹,

Davis²,

Rodenberg³

et al. 2022

Open Res Europe

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preCICE is a free/open-source coupling library. It enables creating partitioned multi-physics simulations by gluing together separate software packages. This paper summarizes the development efforts in preCICE of the past five years. During this time span, we have turned the software from a working prototype -- sophisticated numerical coupling methods and scalability on ten thousands of compute cores -- to a sustainable and user-friendly software project with a steadily-growing community. Today, we know through forum discussions, conferences, workshops, and publications of more than 100 research groups using preCICE. We cover the fundamentals of the software alongside a performance and accuracy analysis of different data mapping methods. Afterwards, we describe ready-to-use integration with widely-used external simulation software packages, tests, and continuous integration from unit to system level, and community building measures, drawing an overview of the current preCICE ecosystem.

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OpenFOAM-preCICE: Coupling OpenFOAM with External Solvers for Multi-Physics Simulations

Cited by 21 publications

References 34 publications

A Fast Calibrated CFD Model for Timber-Concrete Composite Ventilated Façades

A Fast Calibrated CFD Model for Timber-Concrete Composite Ventilated Façades

Simulations of multi-rotor interaction noise at hovering & forward flight conditions

preCICE v2: A sustainable and user-friendly coupling library

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