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Meccanica

Erschienen in:

26.11.2016

Condensation process and phase-change in the presence of obstacles inside a minichannel

verfasst von: A. Asadollahi, S. Rashidi, J. A. Esfahani

Erschienen in: Meccanica | Ausgabe 10/2017

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Abstract

In this paper, the condensation process, dynamic behaviour of fluid and phase-change inside a minichannel in the presence of square blocks are investigated numerically. The blocks are placed inside the minichannel with a tandem arrangement. The analysis is performed by using the lattice Boltzmann method based on the pseudo potential model. Fluid–fluid and fluid–surface interactions are fully considered in this model. Beside this, image processing is used to perform the validation and grid independent study. The effects of the distance between the blocks (D), the number of block (N) and the vertical blockage ratio (Z) on the condensation and nucleation processes are explored in details. The simulations are performed for different values of vertical blockage ratio (\(0.05 \le Z \le 0.8\)), number of block (\(0 \le N \le 4\)), and distance between the blocks (10Lu < D < 20Lu). It was found that the maximum value of the required time to transfer all the liquid phase to the bottom wall of the channel is occurred for the case of blocked channel. Moreover, the blocked channel phenomenon may be controlled with increase in N (number of block).

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Vorheriger Artikel On constructing a Green’s function for a semi-infinite beam with boundary damping

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Agarwal A (2006) Heat transfer and pressure drop during condensation of refrigerants in microchannels. Ph.D. Dissertation, Georgia Institute of Technology

Alapati S, Kang S, Suh YK (2008) 3D Lattice Boltzmann simulation of droplet formation in a cross-junction microchannel. In: Proceedings of the 3rd IASME/WSEAS international conference on continuum mechanics (CM’08), pp 150–156

Amara MEAB, Nasrallah SB (2015) Numerical simulation of droplet dynamics in a proton exchange membrane (PEMFC) fuel cell micro-channel. Int J Hydrogen Energy 40:1333–1342CrossRef

Benzi R, Biferale L, Sbragaglia M, Succi S, Toschi F (2006) Mesoscopic modeling of a two-phase flow in the presence of boundaries: the contact angle. Phys Rev E 74(2):1–14MathSciNetCrossRefMATH

Carton JG, Lawlor V, Olabi AG, Hochenauer C, Zauner G (2012) Water droplet accumulation and motion in PEM (Proton Exchange Membrane) fuel cell mini-channels. Energy 39:63–73CrossRef

Cates ME, Henrich O, Marenduzzo D, Stratford K (2009) Lattice Boltzmann simulations of liquid crystalline fluids: active gels and blue phases. Soft Matter 5:3791–3800ADSCrossRef

Chen Y, Wu J, Shi M, Peterson G (2008) Numerical simulation for steady annular condensation flow in triangular microchannels. Int Commun Heat Mass Transf 35:805–809CrossRef

Cho SC, Wang Y (2014) Two-phase flow dynamics in a micro channel with heterogeneous surfaces. Int J Heat Mass Transf 71:349–360CrossRef

Fang C, David M, Wang F, Goodson KE (2010) Influence of film thickness and cross-sectional geometry on hydrophilic microchannel condensation. Int J Multiph Flow 36:608–619CrossRef

10.

He X, Doolen GD (2002) Thermodynamic foundations of kinetic theory and lattice Boltzmann models for multiphase flows. J Stat Phys 107:309–328CrossRefMATH

11.

Hu J, Chao C (2007) An experimental study of the fluid flow and heat transfer characteristics in micro-condensers with slug-bubbly flow. Int J Refrig 30:1309–1318CrossRef

12.

Huang H, Li Z, Liu S, Lu X (2009) Shan-and-Chen-type multiphase lattice Boltzmann study of viscous coupling effects for two-phase flow in porous media. Int J Numer Methods Fluids 61:341–354MathSciNetCrossRefMATH

13.

Huang JJ, Shu C, Chew YT (2009) Lattice Boltzmann study of droplet motion inside a grooved channel. Phys Fluids 21:0221031–02210311MATH

14.

Koch C, Paal SG, Rashidi A, Zhu Z, König M, Brilakis I (2014) Achievements and challenges in machine vision-based inspection of large concrete structures. Adv Struct Eng 17(3):303–318

15.

Liu Y, Moevius L, Xu X, Qian T, Yeomans JM, Wang Z (2014) Pancake bouncing on superhydrophobic surfaces. Nat Phys 10:515–519CrossRef

16.

Marenduzzo D, Orlandini E, Cates ME, Yeomans JM (2007) Steady-state hydrodynamic instabilities of active liquid crystals: hybrid lattice Boltzmann simulations. Phys Rev E 76:0319211–0319218CrossRef

17.

Martys NS, Chen H (1996) Simulation of multicomponent fluids in complex three-dimensional geometries by the lattice Boltzmann method. Phys Rev E 53:743ADSCrossRef

18.

Qian Y, d’Humières D, Lallemand P (1992) Lattice BGK models for Navier–Stokes equation. Europhys Lett 17:479–484ADSCrossRefMATH

19.

Rashidi A, Brilakis I, Vela P (2015) Generating absolute-scale point cloud data of built infrastructure scenes using a monocular camera setting. J Computing Civil Eng. 10.1061/(ASCE)CP.1943-5487.0000414

20.

Rashidi A, Fathi H, Brilakis I (2011) Innovative stereo vision-based approach to generate dense depth map of transportation infrastructure. Transp Res Rec: J Transp Res Board 2215:93–99CrossRef

21.

Rashidi A, Jazebi F, Brilakis I (2011) Neurofuzzy genetic system for selection of construction project managers. ASCE J Constr Eng Manag 137(1):17–29CrossRef

22.

Sbragaglia M, Benzi R, Biferale L, Succi S, Toschi F (2006) Surface roughness-hydrophobicity coupling in microchannel and nanochannel flows. Phys Rev Lett 97:2045031–2045034CrossRef

23.

Sbragaglia M, Chen H, Shan X, Succi S (2009) Continuum free-energy formulation for a class of lattice Botlzmann multiphase models. Europhys Lett 86:1–6CrossRef

24.

Shan X (2006) Analysis and reduction of the spurious current in a class of multiphase lattice Boltzmann models. Phys Rev E 73(4):1–4CrossRef

25.

Shan X, Chen H (1993) Lattice Boltzmann model for simulating flows with multiple phases and components. Phys Rev E 47(3):1815–1820ADSCrossRef

26.

Succi S (2001) The Lattice Boltzmann equation for fluid dynamics and beyond. Oxford University Press, OxfordMATH

27.

Sukop MC, Thorne DT Jr (2006) Lattice Boltzmann modeling. Springer, Berlin

28.

Valipour MS, Rashidi S, Masoodi R (2014) Magnetohydrodynamics flow and heat transfer around a solid cylinder wrapped with a porous ring. ASME J Heat Transf. doi:10.1115/1.4026371

29.

Venkatraman M, Shimpalee S, Van Zee JW, In Moon S, Extrand CW (2009) Estimates of pressure gradients in PEMFC gas channels due to blockage by static liquid drops. Int J Hydrogen Energy 34:5522–5528CrossRef

30.

Wolf-Gladrow DA (2000) Lattice-gas cellular automata and lattice Boltzmann models. Springer, BerlinCrossRefMATH

Titel: Condensation process and phase-change in the presence of obstacles inside a minichannel
verfasst von: A. Asadollahi
S. Rashidi
J. A. Esfahani
Publikationsdatum: 26.11.2016
Verlag: Springer Netherlands
Erschienen in: Meccanica / Ausgabe 10/2017
Print ISSN: 0025-6455
Elektronische ISSN: 1572-9648
DOI: https://doi.org/10.1007/s11012-016-0588-7

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