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Erschienen in:
Air Flow CFD Modeling in an Industrial Convection Oven Kapitel lesen Erstes Kapitel lesen

2018 | OriginalPaper | Buchkapitel

An OpenFOAM Solver for Forced Convection Heat Transfer Adopting Diagonally Implicit Runge–Kutta Schemes

verfasst von : Valerio D’Alessandro, Sergio Montelpare, Renato Ricci

Erschienen in: CFD Techniques and Thermo-Mechanics Applications

Verlag: Springer International Publishing

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Abstract

Nowadays open-source CFD codes provide suitable environments for the implementation and testing low-dissipative algorithms typically used for turbulence simulation. Therefore in this research work, we have developed a CFD solver for incompressible fluid flow and forced convection heat transfer based on high-order diagonally implicit Runge–Kutta (RK) schemes for time integration. In particular, an iterated PISO-like procedure based on Rhie–Chow correction was used for handling pressure–velocity coupling within each RK stage. It is worth emphasizing that for space discretization, the numerical technology available within the well-known OpenFOAM library was used. The first aim of this work was to explore the reliability and effectiveness of OpenFOAM library for convective heat transfer problems using high-fidelity numerics. This is a point of interest since we cannot find similar papers in the available literature. The accuracy of the considered algorithm was evaluated studying several flow benchmarks. Hence, we also provide a further contribution to the literature involving forced convection heat transfer around bluff bodies at low Reynolds numbers. Lastly, this paper is only a first step toward turbulent heat transfer simulation in complex configurations by means of DNS/LES techniques.

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Vorheriges Kapitel CFD Modeling of a Parabolic Trough Receiver of Different Cross Section Shapes
Nächstes Kapitel Multigrid and Preconditioning Techniques in CFD Applications
Fußnoten
Literatur
Abdollahzadeh M, Pascoa JC, Oliveira PJ (2016) Implementation of the classical plasma-fluid model for simulation of dielectric barrier discharge (DBD) actuators in OpenFOAM. Comput Fluids 128:77–90MathSciNetCrossRef
Braza M, Chassaing P, Ha Minh H (1986) Numerical study and physical analysis of the pressure and velocity fields in the near wake of a circular cylinder. J Fluid Mech 165:79–130MathSciNetCrossRefMATH
Buffo A, Vanni M, Marchisio DL (2016) On the implementation of moment transport equations in OpenFOAM: Boundedness and realizability. Int J Multiph Flow 85:223–235MathSciNetCrossRef
Churchill SW, Bernstein MJ (1977) A correlating equation for forced convection from gases and liquids to a circular cylinder in cross flow. J Heat Transf 99:300–306CrossRef
D’Alessandro V, Zoppi A, Binci L, Ricci R (2016) Development of OpenFOAM solvers for incompressible Navier-Stokes equations based on high-order Runge-Kutta schemes. Advances in Fluid Mechanics XI, Ancona-Italy
D’Alessandro V, Montelpare S, Ricci R (2016b) Detached-eddy simulations of the flow over a cylinder at Re = 3900 using OpenFOAM. Comput Fluids 136:152–169MathSciNetCrossRef
Ding H, Shu C, Yeo YO, Xu D (2007) Numerical simulation of flows around two circular cylinders by mesh-free least square-based finite difference methods. Int J Numer Methods Fluids 53:305–322CrossRefMATH
Favero JL, Secchi AR, Cardozo NSM, Jasak H (2007) Viscoelastic flow simulation: development of a methodology of analysis using the software OpenFOAM and differential constitutive equations. Comput Aided Chem Eng 27:915–920CrossRefMATH
Fiorina C, Clifford I, Aufiero M, Mikityuk K (2015) GeN-Foam: a novel OpenFOAM based multi-physics solver for 2D/3D transient analysis of nuclear reactors. Nucl Eng Des 294:24–37CrossRef
Franke R, Rodi W, Schonug B (1990) Numerical calculation of laminar bortex-shedding flow past cylinders. J Wind Eng Ind Aerodyn 35:237–257CrossRef
Hairer E, Wanner G (2010) Solving ordinary differential equation II, stiff and differential-algebraic problems. Springer, 1996
Harimi I, Saghafian M (2012) Numerical simulation of fluid flow and forced convection heat transfer from tandem circular cylinders using overset grid method. J Fluids Struct 28:309–327CrossRef
Karrholm FP (2008) Numerical modelling of diesel spray injection, turbulence interaction and combustion. Ph.D. thesis, Chalmers University of Technology
Kassem HI, Saqr KM, Aly HS, Sies MM, Wahid MA (2011) Implementation of the eddy dissipation model of turbulent non-premixed combustion in OpenFOAM. Int Commun Heat Mass Transfer 38:363–367CrossRef
Kazemi-Kamyab V, van Zuijlen A, Bijl H (2015) Analysis and application of high order implicit Runge-Kutta schemes to collocated finite volume discretization of the incompressible Navier-Stokes equations. Comput Fluids 109:107–115MathSciNetCrossRef
Liu C, Zheng X, Sung CH (1998) Preconditioned multigrid methods for unsteady incompressible flows. J Comput Phys 139:35–37CrossRefMATH
Mahfouz FM, Badr HM (2000) Forced convection from a rotationally oscillating cylinder placed in a uniform stream. Int J Heat Mass Transf 43:3093–3104CrossRefMATH
Mahir N, Altac Z (2008) Numerical investigation of convective heat transfer in unsteady flow past two cylinders in tandem arrangements. Int J Heat Fluid Flow 29:1309–1318CrossRef
Norberg C (2003) Fluctuating lift on a circular cylinder: review and new measurements. J Fluids Struct 17:57–96CrossRef
Patnana VK, Bharti RP, Chabra RP (2010) Two-dimensional unsteady forced convection heat transfer in power-law fluids from a cylinder. Int J Heat Mass Transf 53:4152–4167CrossRefMATH
Sanderse B, Koren B (2012) Accuracy analysis of explicit Runge-Kutta methods applied to the incompressible Navier-Stokes equations. J Comput Phys 231:3041–3063MathSciNetCrossRefMATH
Sharma A, Eswaran V (2004) Heat and fluid flow across a square cylinder in the two-dimensional laminar flow regime. Numer Heat Transf Part A 45:247–269CrossRef
Shen C, Sun F, Xia X (2010) Implementation of density-based solver for all speeds in the framework of OpenFOAM. Comput Phys Commun 185:2730–2741CrossRefMATH
Shimizu Y, Tanida Y (1978) Fluid forces acting on cylinders of rectangular cross section. Trans Jpn Soc Mech Eng B 44:2699–2706CrossRef
Silva LFLR, Lage PLC (2011) Development and implementation of a polydispersed multiphase flow model in OpenFOAM. Comput Chem Eng 35:2653–2666CrossRef
Sohankar A, Norberg C, Davidson L (1995) Numerical simulations of unsteady flow around a square two-dimensional cylinder. In: Proceedings of 12th Australian fluid mechanics conference, pp 517–530
Vuorinen V, Keskinen JP, Duwig C, Boersma BJ (2014) On the implementation of low-dissipative Runge-Kutta projection methods for time dependent flows using OpenFOAM. Comput Fluids 93:153–163MathSciNetCrossRef
Weller HG, Tabor G, Jasak H, Fureby C (1998) A tensorial approach to computational continuum mechanics using object-oriented techniques. Comput Phys 12:620–631CrossRef
Williamson CHK (1991) 2-D and 3-D aspects of the wake of a cylinder and their relation to wake computations. In: Anderson CR, Greengard C (eds) Vortex dynamics and vortex methods, vol 28. American Mathematical Society. Lectures in Applied Mathematics, pp 719–751
Metadaten
Titel
An OpenFOAM Solver for Forced Convection Heat Transfer Adopting Diagonally Implicit Runge–Kutta Schemes
verfasst von
Valerio D’Alessandro
Sergio Montelpare
Renato Ricci
Copyright-Jahr
2018
Buch
CFD Techniques and Thermo-Mechanics Applications

Print ISBN: 978-3-319-70944-4

Electronic ISBN: 978-3-319-70945-1

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-3-319-70945-1_5

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