Large eddy simulations of a buoyant plume above a heated horizontal cylinder at intermediate Rayleigh numbers (original) (raw)

References (38)

• S. Grafsrønningen and A. Jensen. Simultaneous PIV/LIF measurements of a transitional buoyant plume above a horizontal cylinder. International Journal of Heat and Mass Transfer, 55:4195-4206, 2012.
• S. Grafsrønningen, A. Jensen, and B.A. Pettersson Reif. PIV investigation of buoyant plume from natural convection heat transfer above a horizontal heated cylinder. International Journal of Heat and Mass Transfer, 54:4975- 4987, 2011.
• V.T. Morgan. The overall convective heat transfer from smooth circular cylinders. Advances in heat transfer, 11:199-264, 1975.
• K. Kitamura, F. Kami-iwa, and T. Misumi. Heat transfer and fluid flow of natural convection around large horizontal cylinders. International Journal of Heat and Mass Transfer, 42:4093-4106, 1999.
• B.R. Gyles, B. Haegland, T.B. Dahl, A. Sanchis, S. Grafsrønningen, R.B. Schüller, and A. Jensen. Natural convection -subsea cooling; theory, sim- ulations, experiments and design. Proceedings of the ASME 30th Interna- tional Conference on Ocean, Offshore and Arctic Engineering, 2011.
• M.V. Pham, F.Plourde, and K.S. Doan. Direct and large-eddy simulations of a pure thermal plume. Phyics of Fluids, 19:125103, 2007.
• B. Eckhardt. A critical point for turbulence. Science, 333:165-166, 2011.
• B. Gebhart, Y. Jaluria, R.L. Mahajan, and B. Sammakia. Buoyancy- induced flows and transport. Hemisphere Publishing Corporation, 1988.
• T.H. Kuehn and R.J. Goldstein. Numerical solution to the navier-stokes equations for laminar natural convection about a horizontal isothermal cir- cular cylinder. International Journal of Heat and Mass Transfer, 23:971- 979, 1980.
• B. Farouk and S.I. Güçeri. Natural convection from a horizontal cylinder - laminar regime. Transactions of the ASME, 103:522-527, 1981.
• J.H. Merkin and I. Pop. A note on the free convection boundary layer on a horizontal circular cylinder with constant heat flux. Wärme-und Stoffübertragung, 22:79-81, 1988.
• T. Saitoh, T. Sajiki, and K. Maruhara. Bench mark solution to natural convection heat transfer problem around a horizontal circular cylinder. In- ternational Journal of Heat and Mass Transfer, 36(5):1251-1259, 1993.
• H. Yüncü and A. Batta. Effect of vertical separation distance on laminar natural convective heat transfer over two vertically spaced equitemperature horizontal cylinders. Applied Scientific Research, 52:259-277, 1994.
• H. Demir. Experimental and numerical studies of natural convection from horizontal concrete cylinder heated with a cylindrical heat source. Inter- national Communications in Heat and Mass Transfer, 37:422-429, 2010.
• K. Noto, K. Teramoto, and T. Nakajima. Spectra and criticla grashof num- bers for turbulent transition in a thermal plume. Journal of Thermophysics and Heat Transfer, 13:82-90, 1999.
• B. Farouk and S.I. Güçeri. Natural convection from a horizontal cylinder - turbulent regime. Transactions of the ASME, 104:228-235, 1982.
• R.J.M. Bastiaans, C.C.M. Rindt, F.T.M. Nieuwstadt, and A.A. van Steen- hoven. Direct and large-eddy simulation of the transition of two-and three- dimensional plane plumes in a confined enclosure. International Journal of Heat and Mass Transfer, 43:2375-2393, 2000.
• F. Ham, K. Mattsson, and G. Iaccarino. Accurate and stable finite volume operators for unstructured flow solvers. Center for Turbulence Research Annual Research Briefs, 2006.
• F. Ham and G. Iaccarino. Energy conservation in collocated discretization schemes on unstructured meshes. Center for Turbulcence Research -Annual Research Briefs, pages 3-14, 2004.
• F. Ham, K. Mattsson, G. Iaccario, and P. Moi. Towards time-stable and ac- curate les on unstructured grids. Center for Turbulcence Research -Annual Research Briefs, 2005.
• C.D. Pierce. Progress-variable approach for large-eddy simulation of turbu- lent combustion. PhD thesis, Stanford University, 2001.
• M. Germano, U. Piomelli, P. Moin, and W.H. Cabot. A dynamic subgrid- scale eddy viscosity model. Phys. Fluids A, pages 1760-1765, 1991.
• Stephen B. Pope. Turbulent flows. Camebridge University Press, 2000.
• Farah Rashid, Magnus Vartdal, and John Grue. Oscillating cylinder in viscous fluid: calculation of flow patterns and forces. J Eng Math, 70:281- 295, 2011.
• A.T.Webb and N.N.Mansour. Towards les models of jets and plumes. Cen- ter for Turbulcence Research -Annual Research Briefs, 2000.
• J. Worthy. Large Eddy Simulation of Buoyant Plumes. PhD thesis, Cran- field University, 2003.
• D. You and P. Moin. A dynamic global-coefficient subgrid-scale model for large-eddy simulation of turbulent scalar transport in complex geometries. Center for Turbulcence Research -Annual Research Briefs, 2007.
• J. Worthy and P. Rubini. A study of LES stress and flux models applied to a buoyant jet. Numerical Heat Transfer, Part B:Fundamentals: An International Journal of Computation and Methodology, 48:235-256, 2005.
• Z.H. Yan. Large eddy simulations of a turbulent thermal plume. Heat Mass Transfer, 43:503-514, 2007.
• J.H.Ferziger and Milovan Perić. Computational Methods for Computational Fluid Mechanics. Springer-Verlag, 2002.
• J. Kim and P. Moin. Application of a fractional time-step method to in- compressible Navier-Stokes equations. Journal of Computational Physics, 59:308-323, 1985.
• K. Mahesh, G. Constantinescu, and P. Moin. A numerical method for large- eddy simulation in complex geometries. Journal of Computational Physics, 197:215-240, 2004.
• D.D. Gray and A. Giorgini. The validity of the boussinesq approximation for liquids and gases. International Journal of Heat and Mass Transfer, 19:545-551, 1976.
• B.R. Morton, G. Taylor, and J.S. Turner. Turbulent gravitational convec- tion from maintained and instantaneous sources. Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, 234:1-23, 1956.
• G.K. Batchelor. Small-scale variation of convected quantities like temper- ature in turbulent fluid. Part 1. General discussion and the scale of small conductivity. Journal of Fluid Mechanics, 5(1):113-133, 1959.
• W. Rodi. Turbulent buoyant jets and plumes. Pergamon Press, 1982.
• F.M.White. Viscous Fluid Flow. McGraw-Hill International Editions, 1991.
• H. Schlichting and K. Gersten. Boundary-layer theory. Springer, 2000.