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The International Journal of Heat and Fluid Flow 1997: Vol 18 Index PDF

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indext o Djenidi, L. See Dubief, Y., 183 Jacobasch, H.-J. See Mala, G. M., 489 Volume 18, 1997 Doan-Kim, S. See Coulton, D., 283 Jog, M. A. and Hader, M. A.: Transient heat Dol, H. S., Hanjali¢, K. and Kenjeres, transfer to a spheroidal liquid drop S.: A comparative assessment of the suspended in an electric field, 411 second-moment differential and alge- Joshi, Y. See Yu, E., 600 braic models in turbulent natural convec- Juntasaro, E. See Dafa Alla, A. A., 443 tion, 4 Dong, Z. F. See Xin, R. C., 482 Kasagi, N. and Nishimura, M.: Direct numer- Dongging, L. See Mala, G. M., 489 ical simulation of combined forced and Dubief, Y., Djenidi, L. and Antonia, R. A.: natural turbulent convection in a vertical Author/Title Index The measurement of 8u/8y in a turbulent channel, 88 layer over a riblet surface, 183 Kazeminejad, H. See Rahnema, M., 430 Abe, K., Kondoh, T. and Nagano, Y.: On KenjereS, S. See Dol, H. S., 4 Reynolds-stress expressions and near-wall Eaton, J. K. See Hacker, J. M., 131 Kim, D.S. See Lee, D. H., 160 scaling parameters for predicting wall and Ebadian, M. A. See Xin, R. C., 482 Kim, W. N. and Hyun, J. M.: Convective heat homogeneous turbulent shear flows, 266 transfer in a cylinder with a rotating lid Abhari, R. S. See Garg, V. K., 452 Fedorov, A. G., Viskanta, R. and Mohamad, under stable stratification, 384 Ahn, J. W., Park, T. S. and Sung, H. J.: Appli- A. A.: Turbulent heat and mass transfer in Klausner, J. F. See Fu, F., 541 cation of a near-wall turbulence model to an asymmetrically heated, vertical parallel- Kondoh, M. See Nagano, Y., 346 the flows over a step with inclined wall, 209 plate channel, 307 Kondoh, T. See Abe, K., 266 Ainsworth, R. W., Thorpe, S. J. and Manners, Finnis, M. V. and Brown, A.: The linear Koutmos, P. and Mavridis, C.: A computa- R. J.: A new approach to flow-field growth of Gortler vortices, 389 tional investigation of unsteady separated measurement — A view of Doppler global Fourcher, B. and Mansouri, K.: An ap- flows, 297 velocimetry techniques, 116 proximate analytical solution to the Graetz Kumari, M., Pop, I. and Takhar, H. S.: Free- Alekseev, A. K.: On heat flux estimation problem with periodic inlet tempera- convection boundary-layer flow of a non- from isotherms, 437 ture, 229 Newtonian fluid along a vertical wavy surface, 625 Antonia, R. A. See Dubief, Y., 183 Fu, F. and Klausner, J. F.: A separated flow Awwad, A. See Xin, R. C., 482 model for predicting two-phase pressure Kundu, B. and Das, P. K.: Optimum di- drop and evaporative heat transfer for mensions of plate fins for fin-tube heat vertical annular flow, 541 exchangers, 530 Barboonu,n dAa.r ya ndl ayQeura dorveiro , riMbl.e:t s:T urCbounldietnito nal Fujita, H. See Hirota, M., 170 Kunitsugu, K. See Nishimura, T., 497 analysis of ejection-like events, 188 Fusegi, T.: Numerical study of convective Barton, I. E.: Laminar flow over a backward- heat transfer from periodic open cavities Lai, J. C. S. and Yang, C. Y.: Numerical facing step with a stream of hot particles, in a channel with oscillatory throughflow, simulation of turbulence suppression: 400 376 Comparisons of the performance of four Bayley, F. J. and Childs, P. R. N.: Prediction k-e turbulence models, 575 of ingress rates to turbine and compressor Garg, V. K. and Abhari, R. S.: Comparison of Lasance, C. J. M. See Meinders, E. R., 152 wheelspaces, 218 predicted and experimental Nusselt num- Launder, B. E. See Craft, T. J., 15 Boudjemadi, R., Maupu, V., Laurence, D. ber for a film-cooled rotating blade, 452 Laurence, D. See Boudjemadi, R., 70 and Le Quéré, P.: Budgets of turbulent Gessner, F. B. See Naimi, M., 471 Lee, C. H. and Hyun, J. M.: Spin-up of a stresses and fluxes in a vertical slot natura Gibson, M. M. and Harper, R. D.: Cal- double-diffusive fluid in a cylinder, 507 convection flow at Rayleigh Ra=10° and culation of impinging-jet heat transfer with Lee, D. H., Chung, Y. S. and Kim, D. S.: 5.4 10°, 70 the low-Reynolds-number € turbulence Turbulent flow and heat transfer mea- Bradshaw, P.: Understanding and prediction model, 80 surements on a curved surface with a fully of turbulent flow — 1996, 45 Gibson, M. M. See Dafa Alla, A. A., 443 developed round impinging jet, 160 Brown, A. See Finnis, M. V., 389 Gowda, B. S., Narasimham, G. S. V. L. and Le Quéré, P. See Boudjemadi, R., 70 Murthy, M. V. K.: Forced-air precooling of Li, D.-Y., Guo, Z.-Y. and Ma, C.-F.: Re- spherical foods in bulk: A parametric lationship between the recovery factor Chalokrr, ouR.n ,P .:W .H eaMt., tMreandshfienr, frMo.m Wr.o uagnhd, Tparyo-- Guos,tu dZy.,- Y6.1 3 See Li, D.-Y., 585 ainmdp intghien gv,i sccoiursc uldairs sjiepta toifo nh iginh -aP rcaonndftiln ed, truding discretely heated strips with and number liquid, 585 without flow acceleration, 461 Chiang, C.-S. See Wang, C.-C., 550 Hacker, J. M. and Eaton, J. K.: Measure- Ma, C.-F. See Li, D.-Y., 585 Childs, P. R. N. See Bayley, F. J., 218 ments of heat transfer in a separated and Mala, Gh. M., Donggqing, L., Werner, C., Chung, Y. S. See Lee, D. H., 160 reattaching flow with spatially varying Jacobasch, H.-J. and Ning, Y. B.: Flow Coulton, D., Doan-Kim, S. and Vuillot, F.: thermal boundary conditions, 131 characteristics of water through a Numerical simulation of vortex-shedding Hader, M. A. See Jog, M. A., 411 phenomenon in a channel with flow in- Hanjali¢, K. and Musemic, R.: Modeling the microchannel between two parallel plates with electrokinetic effects, 489 duced through porous wall, 283 dynamics of double-diffusive scalar fields Manners, R. J. See Ainsworth, R. W., 116 Craft, T. J., Launder, B. E. and Suga, K.: at various stability conditions, 360 Mansouri, K. See Fourcher, B., 229 Prediction of turbulent transitional phe- Hanjyali¢, K. See Dol, H. S., 4 nomena with a nonlinear eddy-viscosity Hanjali¢ See Meinders, E. R., 152 MMaavurpiudi,s , V.C .S eSee eB oKuodujtemmoasd,i , P.,R .2, 977 0 model, 15 Hanratty, T. J. See Papavassiliou, D. V., 55 Medhin, M. W. See Chakroun, W. M., 461 Harper, R. D. See Gibson, M. M., 80 Meinders, E. R., van der Meer, Th. H., Hirota, M., Fujita, H., Yokosawa, H., Nakai, Dafa Alla, A. A., Juntasaro, E. and Gibson, Hanjali¢, K. and Lasance, C. J. M.: H. and Itoh, H.: Turbulent heat transfer in M. M.: Computations of periodic turbulent Application of infrared thermography to a square duct, 170 boundary layers with moderate adverse the evaluation of local convective heat Hsu, C.-H. See Yang, S.-A., 567 pressure gradient, 443 Hyun, J. M. See Kim, W. N., 384 transfer on arrays of cubical protrusions, Das, P. K. See Kundu, B., 530 152 Hyun, J. M. See Lee, C. H., 507 Degan, G. and Vasseur, P.: Boundary-layer Hyun, J. M. See Shim, Y. M., 328 Mlaouah, H., Tsuji, T. and Nagano, Y.: A regime in a vertical porous layer with study of non-Boussinesgq effect on transi- anisotropic permeability and boundary tion of thermally induced flow in a square effects, 334 Itoh, H. See Hirota, M., 170 cavity, 100 Int. J. Heat and Fluid Flow 18: 635-637, 1997 © 1997 by Elsevier Science Inc. 0142-727X/97/$17.00 Pll S0142-727X(97)00075-1 655 Avenue of the Americas, New York, NY 10010 index Mohamad, A. A. See Fedorov, A. G., 307 Shim, Y. M. and Hyun, J. M.: Transient con- Subject Index Murthy, M. V. K. See Gowda, B. S., 613 fined natural convection with internal heat Musemic¢, R. See Hanjali¢ ,K ., 360 generation, 328 Acceleration, 461 Shimada, M. See Nagano, Y., 346 Algebraic truncation, 4 Nagano, Y., Kondoh, M. and Shimada, M.: Smith, C. R. See Praisner, T. J., 142 Anisotropic porous medium, 334 Multiple time-scale turbulence model for So, R. M. C. See Sarkar, A., 197 Annular helicoidal pipe, 482 wall and homogeneous shear flows based So, R. M. C. See Sommer, T. P., 29 Apparent viscosity, 489 on direct numerical simulations, 346 Sommer, T. P., So, R. M. C. and Zhang, J.: Asymmetric flow, 218 Nagano, Y. See Abe, K., 266 Modeling of nonequilibrium and history Axial seal, 218 Nagano, Y. See Mlaouah, H., 100 effects of homogeneous turbulence in a Naimi, M. and Gessner, F. B.: Calculation of stably stratified medium, 29 fully developed turbulent flow in rectangu- Srinivasan, V. and Shah, R. K.: Fin efficiency Backward-facing step, 209, 297, 400 lar ducts with two opposite roughened of extended surfaces in two-phase flow, 419 Bifurcation, 100 walls, 471 Suga, K. See Craft, T. J., 15 Blunt plates, 430 Nakai, H. See Hirota, M., 170 Sung, H. J. See Ahn, J. W., 209 Boundary layer, 183, 368, 389, 443 Narasimham, G. S. V. L. See Gowda, B. S., Sung, H. J. See Rhee, G. H., 38 Buoyancy, 88, 384 613 Ning, Y. B. See Mala, G. M., 489 Channel cold-flow, 283 Takhar, H. S. See Kumari, M., 625 Nishimura, M. See Kasagi, N., 88 Takmaz, L. See Praisner, T. J., 142 Channel flow, 88 Nishimura, T. and Kunitsugu, K.: Fluid mix- Chaotic mixing, 497 Taylor, R. P. See Chakroun, W. M., 461 ing and mass transfer in two-dimensional Tchavdarov, B. M.: Two-dimensional vortex Combined convection, 88 cavities with time-periodic lid velocity, 497 dynamics of inviscid-viscous interaction at Computational fluid dynamics, 346 Nouri, J. M. and Whitelaw, J. H.: Flow of turbulent slot-jet impingement, 316 Computational fluid dynamics (CFD), 80 Newtonian and non-Newtonian fluids in an Conditional analysis, 188 Thorpe, S. J. See Ainsworth, R. W., 116 eccentric annulus with rotation of the inner Tsuji, T. See Mlaouah, H., 100 Conditional sampling, 107 cylinder, 236 Conjugate heat transfer, 600 Conjugate laminar forced convection, 229 Oliveira, P. J. and Pinho, F. T.: Pressure drop van der Meer, Th. H. See Meinders, E. R., Convective heat transfer, 152, 384, 461, 541 coefficient of laminar Newtonian flow in 152 Convoluted plate, 253 axisymmetric sudden expansions, 518 Vargas, J. V. C. See Rocha, L. A. O., 247 Couette flow, 55 Vasseur, P. See Degan, G., 334 Cubical protrusions, 152 Papavassiliou, D. V. and Hanratty, T. J.: Viskanta, R. See Fedorov, A. G., 307 Cylinder wake flow, 297 Vuillot, F. See Coulton, D., 283 Interpretation of large-scale structures observed in a turbulent plane Couette Direct numerical simulation, 55, 70, 88 flow, 55 Wang, C.-C. and Chiang, C.-S.: Two-phase Disc, 218 Park, T. S. See Ahn, J. W., 209 heat transfer characteristics for R-22/ Discharge coefficients, 218 Pinho, F. T. See Oliveira, P. J., 518 R-407C in a 6.5-mm smooth tube, 550 Doppler global velocimetry, 116 Pop, I. See Kumari, M., 625 Waywell, M. N. See Sajjadi, S. G., 368 Double diffusion, 360 Praisner, T. J., Seal, C. V., Takmaz, L. and Werner, C. See Mala, G. M., 489 Double-diffusive fluid, 507 Smith, C. R.: Spatial-temporal turbulent Whitelaw, J. H. See Nouri, J. M., 236 Drag reduction, 188 flow-field and heat transfer behavior in Wroblewski, D. See Xie, Q., 107 end-wall junctions, 142 Eccentric annulus, 236 Xie, Q. and Wroblewski, D.: Effect of Eddy break-up, 575 Quadrio, M. See Baron, A., 188 periodic unsteadiness on heat transfer in a Eddy structure, 55 turbulent boundary layer downstream of a Eddy thermal diffusivity, 170 Rahnema, M., Yaghoubi, M. A. and cylinder-wall junction, 107 Eddy viscosity, 15, 297 Kazeminejad, H.: A numerical study of Egress, 218 convective heat transfer from an array of Electric double layer, 489 parallel blunt plates, 430 Xin, R. C., Awwad, A., Dong, Z. F. and Electric field, 411 Ebadian, M. A.: An experimental study of Rao, B. K.: Turbulent friction factor for two- Electrokinetic effects, 489 phase: Air-viscoelastic flows through a single-phase and two-phase flow pressure Elliptic tube, 567 drop in annular helicoidal pipes, 482 horizontal tube, 559 Enclosure, 100 Rhee, G. H. and Sung, H. J.: A low- Equivalent annular fin, 530 Reynolds-number, four-equation heat Yaghoubi, M. A. See Rahnema, M., 430 Evaporating film, 307 transfer model for turbulent separated and Yan, X. and Saniei, N.: Heat transfer from an reattaching flows, 38 obliquely impinging circular air jet to a flat Film condensation, 567 Rocha, L. A. O., Saboya, F. E. M. and plate, 591 Film cooling, 452 Vargas, J. V. C.: A comparative study of Yang, C. ¥.See Lai; J.'C.S.575 Fin efficiency, 247, 419 elliptical and circular sections in one- and Yang, S.-A. and Hsu, C.-H.: Free- and Finite element method, 497 two-row tubes and plate fin heat ex- forced-convection film condensation from Finite volume method, 376 changers, 247 a horizontal elliptic tube with a vertical Flow-field measurement, 116 plate and horizontal tube as special cases, Flow pattern, 550 567 SSaajbjoaydai,, SF.. GE.. aMn.d SWeae ywReolclh,a , M.L . NA..: OA.p,p l2i4c7a - Yip, T. H. See Yu, S. C. M., 253 FFoorocdesd -aini rb ulpkr,e c6o1o3l ing, 613 tion of roughness-dependent boundary Yokosawa, H. See Hirota, M., 170 Forced convection, 229, 376, 430 Yu, E. and Joshi, Y.: A numerical study of conditions to turbulent oscillatory flows, Free convection, 625 368 three-dimensional laminar natural convec- Friction coefficient, 489 Saniei, N. See Yan, X., 591 tion in a vented enclosure, 600 Friction factor, 559 Sarkar, A. and So, R. M. C.: A critical evalua- Yu, S. C. M. and Yip, T. H.: Experimental in- vestigation of two-stream mixing flows with tion of near-wall two-equation models Gortler instability, 389 against direct numerical simulation data, 197 streamwise and normal vorticity, 253 Governing equation, 100 Seal, C. V. See Praisner, T. J., 142 Green’s function, 131 Shah, R. K. See Srinivasan, V., 419 Zhang, J. See Sommer, T. P., 29 Grooved channel, 376 Int. J. Heat and Fluid Flow, Vol. 18, No. 6, December 1997 Heat and mass transfer, 307, 613 Non-linear eddy viscosity, 15 Surface roughness, 461 Heat exchanger, 419, 530 Non-Newtonian fluids, 625 Surface tension, 567 Heat flux, 29, 107, 160, 170 Numerical analysis, 411 Heat flux sensor, 437 Tall cavities, 4 Hea3t8 4,t r4a0n0s,f er4,6 1,8 0,5 411,3 1,5 501,4 2,5 911,5 2,6 001 70, 229, 247, Obliquely impinging jet, 591 Term-by-term modeling, 4 Optimum fin thickness, 530 Thermal energy, 45 Heat transfer enhancement, 376, 411 Oscillatory flow, 368, 376, 497 Thermal indicators, 437 Heat transfer on the curved surface, 160 Thermally driven flow, 100 Hexagonal fin, 530 HHoommooggeenneeoouuss dsheecaary inflgo w,f lo2w6,6 ,3 4364 6 PPaarrttiiacllley- loapdeenn efnlocwl,o s4u0re0s , 600 TThheerrmmaolc hrsoecmoincd -lmioqumiedn tcr ysctlaolssu,r es1,31 ,4 160, 591 Periodic inlet temperature, 229 3-D infrared thermography, 152 Homogeneous turbulence, 29 Hot wire measurements, 183 Periodic variation of free-stream velocity, 443 Three-dimensional Navier-Stokes analysis, 452 Hydrodynamic instabilities, 283 Pipe flow, 575 Transient heat transfer in a parallel-plate Plate fin heat exchanger, 419, 530 channel, 229 Power-law fluids, 625 Transient processes, 328 Impinging jet, 160 Pressure drop, 247, 482, 550 Transition, 15 Ingress, 218 Pressure gradient, 443, 541 Turbine, 15, 218 Injection, 88 Turbulence, 45, 55, 80, 188, 443 Pressure perturbation, 218 Inner cylinder rotation, 236 Turbulence modeling, 15, 197, 346, 360, 368, Instability, 100, 389 471, 575 Internal heat generation, 328 q-& model, 443 Turbulence suppression, 567 Inverse heat conduction problem, 437 Turbulent boundary layer, 183 Inviscid-viscous interaction, 316 R-22, 550 Turbulent convection, 4, 88, 307 R-407C, 550 Turbulent flow, 38, 142, 209, 266, 346 Jet impingement, 316 Radial seal, 218 Turbulent heat flux, 107, 170 Junction flow, 107 Recovery factor, 585 Turbulent heat transfer, 170 Rectangular duct flow, 471 Turbulent Prandtl number, 170 Riblets, 183, 188 Turbulent separated and reattaching flow, 38 Kolmogorov scale, 266 Rim seal, 218 Two-equation models, 197, 266 Rotating blade, 452 Two-phase flow, 400, 419, 482, 541, 550, 559 Laminar flow, 430, 518 Rotating disk, 384 Large-eddy break-up, 575 Rotating flow, 218 Uniform heat flux boundary condition, 160 Liquid crystal, 131, 160, 591 Rotor-stator, 218 Unsteady convection, 107 Liquid drop, 411 Rough boundary layer, 368 Liquid irnpinging jet, 585 Local convective heat transfer, 152 Scalloped lobed forced mixer, 253 Velocity, 142, 236, 443 Loss coefficient, 518 Sealing efficiency, 218 Velocity derivative, 183 Low-Reynolds-number models, 38, 266, 346 Secondary flow, 170, 471 Vented enclosures, 600 Vertical heat flux, 29 Second-moment closure, 4, 266 Magnetic force, 88 Second-moment modeling, 70 Viscoelastic, 559 Mass transfer, 307, 497, 613 Separated and impinging flow, 152 Viscosity, 15, 297, 489 Microchannel flow, 489 Separated flow, 38, 131 Viscous dissipation, 585 Mixed convection, 567 Single-phase flow, 482 Void fraction, 482 Mixed-wall roughness, 471 Solar ponds, 360 Vortex method, 316 Vortex shedding, 283, 297 Modeling, 80 Spatial-temporal velocity, 142 Modified eddy-viscosity models, 297 Spin-up, 507 Vortices, 389 Momentum transfer, 45 Square duct, 170 Multiple scale modeling, 346 Square fin, 530 Wall injection, 283 Stratified flow, 507 Wall turbulent flow, 266, 346 Natural convection, 70, 100, 328, 334, 600 Streaming potential, 489 Wavy surface, 625 Near-wall flow, 197, 346 Streamwise and normal vorticity, 253 Wheelspace, 218 Newtonian and shear-thinning fluids, 236 Suction, 88 Nonequilibrium, 29 Sudden expansion, 518 Zeta potential, 489 Int. J. Heat and Fluid Flow, Vol. 18, No. 6, December 1997

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