TURBULENCE RESEARCH LABORATORY
LaTeX bibliography database

trl.bib
(started in October 1993 - currently: 438 entries)

03 February 2000

About This Bibliography Database

This bibliography database is a constantly growing file for the TRL group with the sole purpose to save you lots of time (!!!) when creating your reference list in a LaTeX document. There a two files:

trl.bib
The actual bibliography database with all the entries
trlbib.tex
A LaTeX file that creates this manual.

How to Use It

Do not copy the file trl.bib to your account. This way you ensure that you always have the latest version available. There are two ways of accessing trl.bib:

  1. add setenv TEXINPUTS .:/net/trl/trl4/TeX/:\ to the .aliases file in your Unix home directory. It will make LaTeX look in the /net/trl/trl4/TeX/\ directory where trl.bib resides.
  2. and/or simply create a link to it in the Unix-directory you are working in with the command
    ln -s /net/trl/trl4/TeX/trl.bib trl.bib\

Include \bibliography{trl} in the the LaTeX file of your document. Define a \bibliographystyle{...} , e.g. plain , alpha , unsrt or a journal-provided style, e.g. jfm . Use the \cite{key} command with the correct key in your document, e.g. use \cite{Batchelor53} to reference a book/article/etc. written by somebody called Batchelor in 1953. Now run
latex myfile.tex
bibtex myfile
latex myfile.tex
latex myfile.tex
and you will find (depending on your \bibliographystyle{...} command) something like ``[4]'' in your document text and something like

[4]G. K. Batchelor. The Theory of Homogeneous Turbulence. Cambridge University
Press, Cambridge, UK, 1953.

in your reference list. You will never have to write a reference list on your own, bibtex will do it for you!

The Logic Behind the Citation Keys

To verify the used key, you can check

How to Make Bibliography Database Entries

Go to the directory /net/trl/trl4/TeX/ and ``check the file out" by typing sccs edit trl.bib (this creates traceable backups). You can now edit trl.bib with the editor of your choice (even vi !).

There are entry types like book, article, inproceedings, etc. following a ``@''-character, e.g.
@book{Batchelor67,..., followed by the key in braces and different fields like author, title, publisher, journal, etc. Follow the examples of already existing entries when adding new entries to the trl.bib file or consult a LaTeX manual. Please try to be consistent! Note the abbreviations you can use for journals and publishers when entering a new item to the bibliography database (you find them at the beginning of the trl.bib file).

Note: Do not change the keys of any entries in trl.bib\ while adding your own! Someone else's LaTeX files will not compile ( bibtex ) properly if you do. Of course you can correct or update entries in entry fields if necessary.

When done, type sccs delget trl.bib to ``return'' the file and chmod a+r trl.bib to open read-permission so others can use it (very important!). (more information can be found at
http://www.eng.buffalo.edu/Research/trl/publications/addentry.html\ , this document is at
http://www.eng.buffalo.edu/Research/trl/publications/trlbib.html\ )

LaTeX is simple because it is logical! Martin

References

Abrahamsson97
H. Abrahamsson. On turbulent wall jets. PhD thesis, Chalmers University of Technology, 1997.

Adrian96
R. J. Adrian. Variation of temperature and velocity fluctuations in turbulent thermal convection over horizontal surfaces. International Journal of Heat Mass Transfer, 39(11):2303-2310, 1996.

AEG96
H. Abrahamsson, J. G. Eriksson, and W. K. George. A similarity theory for the plane wall-jet. Bulletin of the American Physical Society, 41(9):1687, 1996.

AG78
R. E. A. Arndt and W. K. George. Pressure fields and cavitation in turbulent shear flows. In Proc. of the 12th Symposium on Naval Hydrodynamics, pages 327-339, Washington, DC, June 5-9 1978.

AG88
C. Anderson and C. Greengard, editors. Vortex Methods, volume 1360. Springer-Verlag, New York, NY, 1988.

Ahmad80
M. Ahmad. An experiment study of the axisymetric turbulent buoyant plume. Master's thesis, University at Buffalo, 1980.

AJL94
H. Abrahamsson, B. Johansson, and L. Löfdahl. A turbulent plane two-dimensional wall-jet in a quiescent surrounding. Eur. J. Mech. B/Fluids, 13(5):533-556, 1994.

AM93
R. A. Antonia and J. Mi. Temperature dissipation in a turbulent round jet. Journal of Fluid Mechanics, 250:531-551, 1993.

Aris62
R. Aris. Vectors, Tensors and the Basic Equations of Fluid Mechanics. reprint by Dover, 1962.

Arndt98
R. E. A. Arndt. The impact of turbulence research on hydraulic engineering. In Turbulence Reasearch Laboratory 20th Anniversary Symposium, November 20 1998.

AS72
M. Abramowitz and I. A. Stegun. Handbook of Mathematical Functions and Formulas, Graphs, and Mathematical Tables. Government Printing Office, Washington, D.C., 1972.

AS88
M. Al-Arabi and B. Sakr. Natural convection heat transfer from inclined isothermal plates. Int. Journal of Heat Mass Transfer, 31:559-566, 1988.

ATP84
D. A. Anderson, J. C. Tannehill, and R. H. Pletcher. Computational Fluid Mechanics and Heat Transfer. Hemisphere Publishing Co., Washington, D.C., 1984.

Baker77
C. T. H. Baker. The Numerical Treatment of Integral Equations. Clarendon Press, Oxford, 1977.

Baker80
C. B. Baker. An Analysis of the Turbulent Buoyant Jet. PhD thesis, University at Buffalo, May 1980.

Baker93
J. K. Baker. Analysis of the turbulent plane wake using laser doppler anemometry and laser induced fluorescence. Master's thesis, University at Buffalo, June 1993.

Barenblatt78
G. I. Barenblatt. Similarity, Self-Similarity, and Intermediate Asymptotics. Plenum, New York, 1978.

Barenblatt87
G. I. Barenblatt. Dimensional Analysis. Gordon and Breach, New York, 1987.

Barenblatt93
G. I. Barenblatt. Scaling laws for fully developed shear flow. Part 1. Basic hypotheses and analysis. Journal of Fluid Mechanics, 248:513-520, 1993.

Barenblatt96
G. I. Barenblatt. Scaling, Self-Similarity, and Intermediate Asymptotics. Cambridge University Press, Cambridge, UK, 1996.

Batchelor53
G. K. Batchelor. The Theory of Homogeneous Turbulence. Cambridge University Press, Cambridge, UK, 1953.

Batchelor67
G. K. Batchelor. An Introduction to Fluid Dynamics. Cambridge University Press, Cambridge, UK, 1967.

Bayley55
F. J. Bayley. An analysis of turbulent free convection heat transfer. Proc. Inst. Mech. Engrs., 169:361-368, 1955.

BB95
P. L. Betts and I. H. Bokhari. New experiments on turbulent natural convection of air in a tall cavity. Mech. Eng. Rep., C510/091/95, 1995.

BC98
G. I. Barenblatt and A. J. Chorin. New perspectives in turbulence: Scaling laws, asymptotics and intermittency. SIAM Rev., 40(2):265-291, 1998.

BC98b
G. I. Barenblatt and A. J. Chorin. Scaling of the intermediate region in wall-bounded turbulence: The power law. Physics of Fluids, 10(4):1043-1044, 1998.

BCP97
G. I. Barenblatt, A. J. Chorin, and V. M. Prostokishin. Scaling laws for fully developed flow in pipes. Applied Mech. Rev., 50(7):413-429, 1997.

Beuther80
P. D. Beuther. Experimental Investigation of the Axisymmetric Turbulent Buoyant Plume. PhD thesis, University at Buffalo, May 1980.

BF74
W. B. Bush and F. E. Fendell. Asymptotic analysis of turbulent boundary layer and channel flow. Journal of Fluid Mechanics, 56:657-681, 1974.

BFJ64
P. Bradshaw, D. H. Ferriss, and R. F. Johnson. Turbulence in the noise producing region of a circular jet. Journal of Fluid Mechanics, 19:591-625, 1964.

BG60
P. Bradshaw and M. T. Gee. Turbulent wall jets with and without an external stream. In Aero. Res. Council R and M, number 3252, 1960.

BG74
N. S. Berman and W. K. George. Time scale and molecular weight distribution contributions to dilute polymer solution fluid mechanics. In Proc. of the 1974 Heat Transfer and Fluid Mechanics Institute, pages 348-364, Palo Alto, CA., 1974. Stanford Univ. Press.

BG78
P. Buchhave and W. K. George. Bias corrections in turbulence measurements by the laser doppler anemometer. Technical Report No. TRL-102, Turbulence Research Laboratory, July 1978.

BG78b
P. Buchhave and W. K. George. Errors and correction methods in turbulence measurements with an LDA. In Stevenson et al., editor, Proc. of LDV-III Laser Velocimetry in Hostile Environments, pages 221-229. Purdue University, July 11-13 1978.

BG82
P. D. Beuther and W. K. George. Measurement of the turbulent energy and temperature balances in an axisymmetric buoyant plume in a stably stratified environment. In Proc. of the 7th Inter. Heat Trans. Conf., pages 163-178, Munich, 1982. Hemisphere Press, NY.

BGL79
P. Buchhave, W. K. George, and J. L. Lumley. The measurement of turbulence with the laser-doppler anemometer. In Van Dyke, Wehausen, and Lumley, editors, Annual Review of Fluid Mechanics, volume 11, pages 443-503. Academic Press, Palo Alto, CA., 1979.

BGT79
C. B. Baker, W. K. George, and D. B. Taulbee. An analysis of the turbulent buoyant jet. Bulletin of the American Physical Society, 24(8), 1979.

BGT80
C. B. Baker, W. K. George, and D. B. Taulbee. Entrainment in an axisymmetric turbulent buoyant jet. Bulletin of the American Physical Society, 25(9):1086, 1980.

BH83
R. F. Blackwelder and J. H. Haridonitis. Scaling of the bursting frequency in turbulent boundary layers. Journal of Fluid Mechanics, 132:87-103, 1983.

BH95
P. Bradshaw and G. P. Huang. Law of the wall in turbulent flows. In Reynolds Anniversary Symposium. Univ.Manchester, UK, 1995.

Blasius08
H. Blasius. Grenzschichten in Flüssigkeiten mit kleiner Reibung. Z. Math. u. Phys., 56:1-37, 1908.

Blake83
W. K. Blake. Fluid Mechanics Measurements, chapter Differential Pressure Measurement, pages 61-97. Hemisphere Publishing Co., Washington, 1983.

Blackwelder88
R. F. Blackwelder. Reynolds meeting paper, 1988?

BLL91
P. Bradshaw, B. Launder, and J. L. Lumley. CTTM. Technical Report 91 - 0215, AIAA, 1991.

BM89
R. Borghi and S. N. B. Murthy, editors. Turbulent Reacting Flows, volume 40 of Lecture Notes in Engineering. Springer-Verlag, New York, NY, 1989.

BO78
C. M. Bender and S. A. Orszag. Advanced Mathematical Methods for Scientists and Engineers. McGraw-Hill, New York, NY, 1978.

Book81
D. L. Book, editor. Finite-Difference Techniques for Vectorized Fluid Dynamics Calculations. Springer-Verlag, New York, NY, 1981.

BP93
G. I. Barenblatt and V. M. Prostokishin. Scaling laws for fully developed shear flow. Part 2. Processing of experimental data. Journal of Fluid Mechanics, 248:521-529, 1993.

BR86
L. P. Bernal and A. Roshko. Streamwise vortex structure in plane mixing layers. Journal of Fluid Mechanics, 170:499-525, 1986.

Bradshaw91
P. Bradshaw. Turbulence: The chief outstanding difficulty of our subject. In 3rd Stewartson Mem. Lecture, Symposium on Numerical and Physical Aspects of Aerodynamic Flows, Long Beach, CA, 1956.

Bradshaw94
P. Bradshaw. Turbulence: The chief oustanding difficulty of our subject. Experiments. in Fluids, 16:203-216, 1994.

Breidenthal81
R. Breidenthal. Structure in turbulent mixing layers and wakes using a chemical reaction. Journal of Fluid Mechanics, 109:1-24, 1981.

BS89
I. N. Bronstein and K. A. Semendjajew. Taschenbuch der Mathematik. Nauka, Moscow and B. G. Teubner, Leipzig, 1989.

BSG87
P. D. Beuther, A. Shabbir, and W. K. George. X-wire response in turbulent flows of high intensity turbulence and low mean velocities. In Proc. of Symp. on Thermal Anemometry, Cinn., OH, 1987. ASME.

BSG87a
P. D. Beuther, A. Shabbir, and W. K. George. X-wire response in turbulent flows of high intensity turbulence and low mean velocities. In Proc. of Symp. on Thermal Anemometry, Cinn., OH, 1987. ASME.

BTG79
C. B Baker, D. B. Taulbee, and W. K. George. Eddy viscosity calculations for turbulent buoyant plumes. In 18th International Heat Transfer Conference, volume 79-HT-51. ASME, 1979.

BTG82
C. B. Baker, D. B. Taulbee, and W. K. George. An analysis of the buoyant jet. In Heat Transfer 1982, Proc. of the 7th Inter. Heat Trans. Conf., Munich, pages 131-144, NY, NY, 1982. Hemisphere Press.

Buchhave79
P. Buchhave. The Measurement of Turbulence with the Burst-type Laser Doppler Anemometer-Errors and Correction Methods. PhD thesis, University at Buffalo, July 1979.

Burmeister83
L. C. Burmeister. Convective Heat Transfer. John Wiley and Sons, New York, NY, 1983.

Busse67
F. H. Busse. The stabilitiy of finite amplitude cellular convection and its relation to an extremum principle. Journal of Fluid Mechanics, 40(4):625-649, 1967.

BW76
F. K. Browand and P. D. Weidman. Large scales in the developing mixing layer. jfm, 76(1):127-144, 1976.

BW98
W. Bussman and J. White. Explicit equation for flow through american society of mechanical engineers nozzle meters. AIAA Journal, 36(9), 1998.

BWV91
J.-L. Balint, J. M. Wallace, and P. Vuskoslavcevic. The velocity and vorticity vector fields of a turbulent boundary layer, part 2: Statistical properties. Journal of Fluid Mechanics, 228:53-86, 1991.

Capp83
S. P. Capp. Experimental Investigation of the Turbulent Axisymmetric Jet. PhD thesis, University at Buffalo, May 1983.

Carlson97
Shawn Carlson. Caught in a wind tunnel, the amateur scientist. Scientific American, 277(5), November 1997.

Castillo97
L. Castillo. Similarity Analysis of Turbulent Boundary Layers. PhD thesis, University at Buffalo, 1997.

CC71
S. C. Crow and F. H. Champagne. Orderly structure in jet turbulence. jfm, 48:547-591, 1971.

CCC98
B. Castaing, B. Chabaud, X. Chanal, J. Chaussy, X. Chavanne, F. Chillà, B. Hébral, A., and Naert. Helium gas turbulence experiments in Grenoble: Techniques and results. In R. J. Donnelly and K. R. Sreenivasan, editors, Flow at Ultra-High Reynolds and Rayleigh Numbers, pages 336-344. Springer Verlag, 1998.

CE97
J. H. Citriniti and D. Ewing. Stochastic estimation of large scale structures. In 1000 Islands Fluids Conference, 1997.

CEG94
J. H. Citriniti, D. Ewing, and W. K. George. Long hot-wires and the measurement of large scale turbulent fluctuations. In Fluid Measurement and Instrumentation 1994, pages 45-52, ASME FED-Vol. 183, 1994.

CG83
S. P. Capp and W. K. George. Detection of angular bias in burst mode laser doppler anemometry. Bulletin of the American Physical Society, 28(9):1371, 1983.

CG94
L. Castillo and W. K. George. New view of the turbulent thermal boundary layer on a flat plate. Bulletin of the American Physical Society, 39(9):1966, 1994.

CG94a
J. H. Citriniti and W. K. George. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. Bulletin of the American Physical Society, 39(9):1966, 1994.

CG94b
J. H. Citriniti and W. K. George. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. In Int. Symp. of Turb. Heat and Mass Transfer, volume 1, pages 1.4.1-1.4.4, 1994.

GCE94b
J. H. Citriniti and W. K. George. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. Bulletin of the American Physical Society, 39(9):1966, 1994.

GCE94c
J. H. Citriniti and W. K. George. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. In Int. Symp. of Turb. Heat and Mass Transfer, volume 1, pages 1.4.1-1.4.4, 1994.

CG96b
L. Castillo and W. K. George. A refined theory for the zero pressure gradient turbulent boundary layer. Bulletin of the American Physical Society, 41(9), 1996.

CG96a
J. H. Citriniti and W. K. George. Dynamics of large scale structures in a high reynolds number, axisymmetric shear layer. Bulletin of the American Physical Society, 41(9):1802, 1996.

CG96
J. H. Citriniti and W. K. George. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. In W. Begell, editor, Turbulence, Heat and Mass Transfer, New York, NY, 1996. Begell House.

CG97
J. H. Citriniti and W. K. George. The reduction of spatial aliasing by long hot-wire anemometer probes. Expts. in Fluids, 23,3:217-224, 1997.

CG99
J. H. Citriniti and W. K. George. Reconstruction of the global velocity field in the axisymmetric mixing layer utilizing the proper orthogonal decomposition. jfm, 1999. Submitted for publication.

CG00
L. Castillo and W. K. George. Boundary layers with pressure gradient. accepted for publication in AIAA Journal, 2000.

CGB94a
T. C. Corke, M. N. Glauser, and G. Berkooz. Utilizing low-dimensional dynamical systems models to guide control experiments. In Proc. Twelfth US Natl. Congress Appl. Mech., pages s132-s138, Seattle, Wash., 1994.

CGB94b
T. C. Corke, M. N. Glauser, and G. Berkooz. Utilizing low-dimensional dynamical systems models to guide control experiments. In AS Kobayashi, editor, Appl. Mech. Rev., volume 47, no. 6, part 2, pages s132-s138, 1994.

CGH89
Bernard Castaing, Gemunu Gunaratne, François Heslot, Leo Kadanoff, Albert Libchaber, Stefan Thomae, Xiao-Zhong Wu, Stéphane Zaleski, and Gianluigi Zanetti. Scaling of hard thermal turbulence in Rayleigh-Bénard convection. jfm, 204:1-30, 1989.

CH30
A. P. Colburn and O. A. Hougen. Studies in heat transmission--flow of fluids at low velocity. Industrial and Engineering Chemistry, 22:522-539, 1930.

Cheesewright68
R. Cheesewright. Turbulent natural convection from a vertical plane surface. Journal of Heat Transfer, 90:1-8, 1968.

CI82
R. Cheesewright and E. Ierokiopitis. Velocity measurements in a turbulent natural convection boundary layer. In Proceedings of the Seventh International Heat Transfer Conference, volume II, pages NC 31,305-309, Munich, 1982.

Citriniti96
J. H. Citriniti. Experimental Investigation Into the Dynamics of the Axisymmetric Mixing Layer Utilizing the Proper Orthogonal Decomposition. PhD thesis, State University of New York at Buffalo, 1996.

Citriniti97
J. H. Citriniti. Aximuthal mode interaction in an unforced high reynolds-number axisymmetric shear layer. In Proc. AIAA Fourth Shear Flow Control Conference, Snowmass, CO, June 29-July 2 1997.

Citriniti97b
J. H. Citriniti. Noise and digital filtering of the bad blocks in the 138 channel data set. Technical report, Thermo and Fluid Dynamics, Chalmers University of Technology, 1997.

Citriniti97c
J. H. Citriniti. POD coefficient interaction and it relation to structure evolution in a turbulent axisymmetric shear layer. Technical report, Thermo and Fluid Dynamics, Chalmers University of Technology, 1997.

CK75
T. Cebeci and A. Khattab. Prediction of turbulent free convective heat transfer from a vertical plate. Journal of Heat Transfer, 97:469-471, 1975.

CK81
J. D. Cole and J. Kevorkian. Perturbation Methods in Applied Mathematics. Springer-Verlag, New York, 1981.

CK93
T. C. Corke and S. M.. Kusek. Resonance in axisymmetric jets with controlled helical-mode input. jfm, 249:307-336, 1993.

CL84
G. M. Corcos and S. J. Lin. The mixing layer: deterministic models of a turbulent flow. part 2. the origin of the three-dimensional motion. jfm, pages 67-95, 1984.

Clauser54
F. H. Clauser. The turbulent boundary layer. Adv. Appl. Mech., IV:1-51, 1954.

Clausing83
A. M. Clausing. Natural convection correlations for vertical surfaces including influences of variable properties. Journal of Heat Transfer, 105:138-143, 1983.

CM80
V. P. Carey and J. C. Mollendorf. Variable viscosity effects in several natural convection flows. Int. Journal of Heat Mass Transfer, 23:95-109, 1980.

Coles56
D. C. Coles. The law of the wake in turbulent boundary layers. Journal of Fluid Mechanics, 1:191-226, 1956.

Coles62
D. C. Coles. The turbulent boundary layer in a compressible fluid. Technical Report R-403-PR, Rand Report, 1962.

Cole68
J. D. Cole. Perturbation Methods in Applied Mathematics. Blaisdell Publishing Company, 1968.

Coles68
D. C. Coles. The young person's guide to the data. In D. C. Coles and E. A. Hirst, editors, Proc AFOSR-IFP-Stanford Conf on Computation of Turbulent Boundary Layers, volume 2, pages 1-45, Thermo Sci. Div., Dept. Mech. Eng., Stanford Univ., Palo Alto, CA, 1968.

Corrsin63
S. Corrsin. Handbuch Der Physik, volume VII/2, chapter Turbulence: Experimental Methods, pages 525-590. 1963.

Coutanceau69
J. Coutanceau. Convection naturelle turbulente sur une plaque verticale isotherme, transition, échange de chaleur et frottement pariétal, lois de répartition de vitesse et de température. Int. Journal of Heat Mass Transfer, 12:753-769, 1969.

CRW97
S. A. Cain, M. A. Ram, and S. H. Woodward. Qualitative and quantitative wind tunnel measurements of the airflow through a shrouded airborne aerosol sampling probe. Journal of Aerosol Science, 29(9):1157-1169, 1998.

CJS67
J. P. Johnston J. J. Carlson and C. J. Sagi. Effects of wall shape on flow regimes and performance in straight, two-dimensional diffusers. Journal of Basic Engineering, 87(1):151-160, March 1967.

CS74
T. Cebeci and A. M. O. Smith. Analysis of Turbulent Boundary Layers. Academic Press, New York, NY, 1974.

CSW67
F. H. Champagne, C. A. Sleicher, and O. H. Wehrmann. Turbulence measurements with inclined hot-wires, part 1. jfm, 28:153-175, 1967.

CTW93
J. H. Citriniti, K. D. Taulbee, S. H. Woodward, and W. K. George. Design of 150 channel hot-wire anemometers. Bulletin of the American Physical Society, 38, 1993.

CTW94
J. H. Citriniti, K. D. Taulbee, S. H. Woodward, and W. K. George. Design of multiple channel hot-wire anemometers. In Fluid Measurement and Instrumentation 1994, pages 67-73, ASME FED-Vol. 183, 1994.

CWW00
L. Castillo, D. Walker, and M. Wosnik. The effect of the upstream conditions on the mean velocity deficit of turbulent boundary layers. In AIAA Fluids 2000 Meeting, volume AIAA 2000-2309, Denver, CO, June 2000.

CYA92
M. K. Chung, H. C. Yun, and R. J. Adrian. Scale analysis and wall-layer model for the temperature profile in turbulent thermal convection. International Journal of Heat Mass Transfer, 35(1):43-51, 1992.

DBB90
J. Delville, S. Bellinin, and J. P. Bonnet. Use of the proper orthogonal decomposition in a plane turbulent mixing layer. In O. Metias and M. Lesieur, editors, Turbulence 89: organized structures and turbulence in fluid mechanics, pages 75-90. Kluwer Academic Publishers, 18-21 September 1990.

DGR86a
M. G. Dunn, W. K. George, W. J. Rae, S. H. Woodward, J. C. Moller, and P. J. Seymour. Heat flux measurements for the rotor of a full-stage turbine: Part II - description of analysis technique and typical time resolved measurements. Trans. of ASME, J. of Turbomachinery, 108:98-107, 1986.

DGR86b
M. G. Dunn, W. K. George, W. J. Rae, S. H. Woodward, J. C. Moller, and P. J. Seymour. Heat flux measurements for the rotor of a full-stage turbine: Part II - description of analysis technique and typical time resolved measurements. International Gas Turbine Conf., 86-GT-78, June8-12 1986.

DH87
D. L. Dwoyer and M. Y. Hussaini, editors. Stability of Time Dependent and Spatially Varying Flows. Springer-Verlag, New York, NY, 1987.

DJS95
F. Durst, J. Jovanovic, and J. Sender. LDA measurement in the near-wall region of a turbulent pipe flow. Journal of Fluid Mechanics, 295:305-335, 1995.

Donnelly94
Rusell J. Donnelly. Cryogenic helium gas convection research. Technical Report Grant No. DE-FG05-94ER40878, DOE Rept., U. Oregon, Eugene, OR, 1994.

Driscoll82
R. J. Driscoll. The Influence of Spectral Transfer and Molecular Diffusion on Turbulent Mixing and Combustion. PhD thesis, University at Buffalo, 1982.

DS98
R. Donnelly and K. R. Sreenivasan. Flow at Ultra-High Reynolds and Rayleigh Numbers: A Status Report. Springer Verlag, New York, 1998.

DSW89
M. G. Dunn, P. J. Seymour, S. H. Woodward, W. K. George, and R. E. Chubb. Phase-resolved heat-flux measurements on the blade of a full-stage turbine. International Gas Turbine Conf., 111(88-GT-173), June5-9 1989.

DTY70
W. J. Duncan, A. S. Thom, and A. D. Young. Mechanics of Fluids. American Elsevier, New York, NY, 2nd edition, 1970.

DW65
J. W. Deardorff and G. E. Willis. The effect of two-dimensionality upon the suppression of thermal turbulence. Journal of Fluid Mechanics, 23:337-353, 1965.

DW80
M. R. Davis and H. Winarto. Jet diffusion from a circular nozzle above a solid plane. jfm, 101:201-221, 1980.

VanDyke64
M. Van Dyke. Perturbation Methods in Fluid Mechanics. Parabolic Press, Stanford, Ca., 1964.

VanDyke82
M. Van Dyke. An album of fluid motion. Parabolic Press, Stanford, California, 1982.

EBP97
D. Ewing, A. Benaissa, A. Pollard, J. Citriniti, H. Abrahamsson, and L. Lofdahl. Contribution of large structures to the anisotropic spread rate in a wall jet issuing from a round nozzle. In Tenth International Symposium on Transport Phenomena in Thermal Science and Process Engineering, Kyoto, Japan, 1997.

EC97b
D. Ewing and J. H. Citriniti. Abstract: Examination of LSE-based velocity field estimations using instantaneous, full field measurements in an annular mixing layer. In Turbulent Shear Flows 11, Grenoble, France, 1997.

EC97a
D. Ewing and J. H. Citriniti. Examination of LSE-based velocity field estimations using instantaneous, full field measurements in an annular mixing layer. In Turbulent Shear Flows 11, Grenoble, France, 1997.

EC98
D. Ewing and J. H. Citriniti. Examination of a LSE/POD complementary technique using single and multi-time information in the axisymmetric shear layer. In J. N. Soresen, E. J. Hopfinger, and N. Aubry, editors, Simulation and Identification of Organized Structure in Flows. Kluwer Academic Press, 1998.

Ede67
A. J. Ede. Advances in free convection. In Advances in Heat Transfer, volume 4, pages 1-64. Academic Press, New York, NY, 1967.

EG93
D. Ewing and W. K. George. The dynamics of large scale structures in an axisymmetric shear layer. Bulletin of the American Physical Society, 38, 1993.

EG94
D. Ewing and W. K. George. Application of a similarity hypothesis to the proper orthogonal decomposition for spatially evolving shear layers. In Int. Symp of Turb. Heat and Mass Transfer, volume 1, pages 1.1.1-1.1.5, Lisbon, Portugal, 1994.

EG94b
D. Ewing and W. K. George. Similarity of the two point correlation tensor for arbitrary separation in the far field of an axisymetric jet. Bulletin of the American Physical Society, 39(9):1923, 1994.

EG94a
D. Ewing and W. K. George. Spatial attenuation of vorticity measurements measured by multi-wire probes. Fluid Measurement and Instrumentation, 183, 1994.

EG95
D. Ewing and W. K. George. Similarity analysis of the two-point velocity correlation tensor in a turbulent axisymmetric jet. Turbulence, Heat, and Mass Transfer, 1995.

EG00
D. Ewing and W. K. George. The effect of cross flow on the mean square derivatives measured using hot wires. Expts. in Fluids, 29:418-428, 2000.

EHG95
D. Ewing, H. J. Hussein, and W. K. George. Spatial resolution of parallel hot-wire probes for derivative measurements. J. Experimental Thermal and Fluid Science, 11(2):155-173, August 1995.

EJ50
E. R. G. Eckert and Thomas W. Jackson. Analysis of turbulent free convection boundary layer on flat plate. Technical Report TN 2207, National Advisory Committee for Aeronautics, 1950.

EKP97
J. Eriksson, R. I. Karlsson, and J. Persson. An experimental study of a two-dimensional plane turbulent wall jet. Technical Report US91:17O, Vattenfall Utveckling AB, 1997.

EKP98
J. Eriksson, R. I. Karlsson, and J. Persson. An experimental study of a two-dimensional plane turbulent wall jet. Experiments in Fluids, 25:50-60, 1998.

EKP99
J. Eriksson, R. I. Karlsson, and J. Persson. Some new results for the turbulent wall jet, with focus on the near-wall region. In Proc. 8th Int. Conf. on Laser Anemometry - Advances and Applications, Rome, Italy, Sept. 6-8, 1999., pages 327-334, 1999. Paper XIII:1.

Elder65a
J. W. Elder. Laminar free convection in a vertical slot. Journal of Fluid Mechanics, 23:76-98, 1965.

Elder65b
J. W. Elder. Turbulent free convection in a vertical slot. Journal of Fluid Mechanics, 23:99-111, 1965.

ELM88
B. Enquist, M. Luskin, and A. Majda, editors. Computational Fluid Dynamics and Reacting Gas Flows, volume 12 of The IMA Volumes in Mathematics and its Applications. Springer-Verlag, 1988.

EW00
D. Ewing and S. H. Woodward. Evaluating the accuracy of the LSE-POD technique in an axisymetric shear layer. In European Turbulence Conferance, Madrid, Spain, 2000.

Ewing95
D. Ewing. On Multi-point Similarity Solutions in Turbulent Free Shear Flows. PhD thesis, University at Buffalo, 1995.

Fang97
Fuh-Min Fang. A design method for contractions with square end sections. Journal of Fluids Engineering, 119:454-458, June 1997.

Frank37
D. A. Frank-Kamenickij. Copt. Rend. Acad. Sci. SSSR, 17:9, 1937.

FKN95
H. H. Fernholz, E. Krause, M. Nockemann, and M. Schober. Comparative measurements in the canonical boundary layer at on the wall of the German-Dutch windtunnel. Phys. Fluids, 7(6):1275-1281, 1995.

Fletcher88I
C. A. J. Fletcher. Computational Techniques for Fluid Dynamics, Volume I. Springer-Verlag, Berlin, 1988.

Fletcher88II
C. A. J. Fletcher. Computational Techniques for Fluid Dynamics, Volume II. Springer-Verlag, Berlin, 1988.

Freymuth77
P. Freymuth. Frequency response and electronic testing for constant temperature hot-wire anemometers. J. Physics E, 10, pages 705-710, 1977.

Frisch91
U. Frisch. From global scaling, à la Kolmogorov, to local multifractal scaling in fully developed turbulence. Proc. R. Soc. Lond. A, 434:89-99, 1991.

Frisch95
U. Frisch. Turbulence. Cambridge University Press, Cambridge, UK, 1995.

FTF70
T. Fujii, M. Takeuchi, M. Fujii, K. Suzaki, and H. Uehara. Experiments on natural convection heat transfer from the outer surface of a vertical cylinder to liquids. Int. Journal of Heat Mass Transfer, 13:753-787, 1970.

FY96
Cesar Farell and Sadek Youssef. Experiments on turbulence management using screens and honeycombs. Transactions of the ASME, 118, March 1996.

GA80
W. K. George and M. Ahmad. A direct method for measurement of turbulent intensity measurements and heat flux using hot wires. Bulletin of the American Physical Society, 25(9):1074, 1980.

GA88
W. K. George and R. E. A. Arndt. Advances in Turbulence. Hemisphere Press, McGraw-Hill, NY, NY, October 1988.

GAE00
W. K. George, H. Abrahamsson, J. Eriksson, R. Karlsson, L. Löfdahl, and M. Wosnik. A similarity theory for the turbulent plane wall jet without external stream. under consideration for publication in J.Fluid Mechanics, 2000.

Gamard99
S. Gamard. A new similarity analysis for the turbulence energy spectrum. Master's thesis, University at Buffalo, 1999.

GAT77
W. K. George, R. L. Alpert, and F. Tamanini. Turbulence measurements in an axisymmetric buoyant plume. Int. J. Heat and Mass Transfer, 20:1145-1154, 1977.

GB73
W. K. George and N. S. Berman. Doppler ambiguity in laser doppler velocimeters. Applied Physics Letters, 23(5):222-223, 1973.

GB74
W. K. George and N. S. Berman. The influence of polydispersity on drag reduction. In Bulletin of the American Institute of Chemical Engineers, volume 67th Annual Meeting, 1974.

GB78
W. K. George and P. Buchhave. the measurement of unsteady flow with the burst processor laser doppler anemometer. In Proceedings of the 15th annual meeting of the society of engineering science, Gainsville, Florida, December4-6 1978.

GB80
W. K. George and C. B. Baker. Analysis of hot wire measurements in turbulent jets. Bulletin of the American Physical Society, 25(9):1074, 1980.

GB94
M. Gad-el-Hak and P. R. Bandyopadhyay. Reynolds number effects in wall-bounded flows. Applied Mech. Rev., 47:307-365, 1994.

GBA84
W. K. George, P. D. Beuther, and R. A. Arndt. pressure spectra in turbulent free shear flows. Journal of Fluid Mechanics, 148:155-191, 1984.

GBD75
W. K. George, P. Buchhave, J. M. Delhaye, F. Durst, K. Refslund, and J. H. Whitelaw. The accuracy of flow measurements by laser doppler methods. In Proceedings of the LDA Symposium, Copenhagen, page 635, Skovlunde, Denmark, 1975. Dantec.

GBG86
F. F. Grinstein, J. P. Boris, and O. W. Griffin. Direct numerical simulations of axisymmetric jets. AIAA J., 25:92, 1986.

GBL78
W. K. George, P. D. Beuther, and J. L. Lumley. Processing of random signals. In Proceedings of the Dynamic Flow Conference, pages 757-800, Skovlunde, Denmark, 1978.

GBS87
W. K. George, P. D. Beuther, and A. Shabbir. Polynomial calibrations for hot-wires in thermally varying flows. In D. Stock, editor, ASME Symposium on Thermal Anemometry, Cincinnati, Ohio, June 14-17 1987.

GBS89
W. K. George, P. D. Beuther, and A. Shabbir. Polynomial calibrations for hot-wires in thermally varying flows. J. of Exp. Thermal and Fluid Science, 2:230-235, 1989.

GC76
W. K. George and S. P. Capp. An analysis of turbulent natural convection along a constant temperature vertical surface. Bulletin of the American Physical Society, 21(10):1229, 1976.

GC78
W. K. George and S. P. Capp. Natural convection turbulent boundary layers next to heated vertical surfaces. Technical Report TRL-103A, Turbulence Research Laboratory, University at Buffalo, 1978.

GC79
W. K. George and S. P. Capp. A theory for natural convection turbulent boundary layers next to heated vertical surfaces. Int. Journal of Heat Mass Transfer, 22:813-826, 1979.

GC93
W. K. George and L. Castillo. Boundary layers with pressure gradient: Another look at the equilibrium boundary layer. In R. M. C. So, C. G. Speziale, and B. E. Launder, editors, Near Wall Turbulent Flows, pages 901-910. Elsevier, NY, 1993.

GC92
W. K. George and L. Castillo. A theory for tubulent pipe and channel flows. Technical report, Disquisitiones Mechanicae, University of Illinois, Dept. of Theoretical and Applied Mechanics, Urbana, Illinois, October24-26 1996.

GC97
W. K. George and L. Castillo. Zero-pressure-gradient turbulent boundary layer. Applied Mech. Rev., 50(12):689-729, 1997.

GCE94a
W. K. George, J. H. Citriniti, and D. Ewing. Experimental investigation into the dynamics of the axisymmetric jet mixing layer. In Proc. of Twelfth U.S. National Congress of Applied Mechanics, Seattle, WA, 1994.

GCK96
W. K. George, L. Castillo, and P. Knecht. The zero pressure-gradient turbulent boundary layer. Technical Report TRL-153, Turbulence Research Laboratory, University at Buffalo, 1996.

GCP96
W. K. George, L. Castillo, and J. P. Persson. Is there a mesolayer in wall-bounded turbulent flows? Bulletin of the American Physical Society, 1996.

GCW97
W. K. George, L. Castillo, and M. Wosnik. A theory for turbulent pipe and channel flows. Technical Report TAM 872, UILU-ENG-97-6033, Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign, 1997.

GCZ97
M. N. Glauser, J. H. Citriniti, X. Zheng, and W. K. George. An application of the proper orthogonal decomposition to the axisymmetric mixing layer. part 1: Determination of the POD eigenfuncitons. jfm, 1997. In preparation.

GCZ98
M. N. Glauser, J. H. Citriniti, X. Zheng, and W. K. George. An application of the proper orthogonal decomposition to two component velocity measurements in the axisymmetric mixing layer. jfm, 1998. In preparation.

GD31
E. Griffiths and A. H. Davis. The transmission of heat by radiation and convection. In British Food Investigation Board Spec. Rept. 9. D.S.I.R. London, 1922,1931.

Gebhardt62
B. Gebhardt. Effects of viscous dissipation in natural convection. Journal of Fluid Mechanics, 14:225-232, 1962.

Gebhardt73
B. Gebhardt. Instability, transition, and turbulence in buoyancy-induced flows. Annual Review of Fluid Mechanics, 5:213-246, 1973.

George71
W. K. George. An analysis of the laser-doppler velocimeter and its application to the measurement of turbulence. PhD thesis, Johns Hopkins University, 1971.

George72
W. K. George. Limitations on the measurement of unsteady flow velocities with a laser doppler velocimeter. In David Cockrell, editor, Proc. of the DISA Conferance on Flow in Industrial and Medical Environments, pages 88-89, Leicester, England, April 1972. Univ. of Leicester Press.

George74
W. K. George. Analysis of turbulent flow measurements from LDV data. In Stevenson, editor, Proc. of Workshop on the Use of the LDV for Flow Measurement, pages 167-182, Lafayette, IN, 1974. Purdue University.

George74b
W. K. George. The equilibrium range of turbulent pressure spectra. Bulletin of the American Physical Society, 19(10):1158, 1974.

George74a
W. K. George. The measurement of turbulence intensities using real-time laser-doppler velocimetry. Journal of Fluid Mechanics, 66(1):11-16, 1974.

George85
W. K. George. Burst-mode processing of laser doppler anemometer signals: A state-of-the-art review. In Proc. of 2nd Symp. on Dynamic Flow Measurements, pages 176-198, Tokyo, Japan, 1985. JSME.

George87
W. K. George. The decay of isotropic turbulence. In Hirata and Kasaji, editors, Proc. of 2nd Int. Conf. on Transport Phenomena in Turbulent Flows, Tokyo, NY, 1987. Hemisphere.

George87a
W. K. George. A theory for the decay of isotropic homogeneous turbulence. Technical Report 116, Turbulence Research Laboratory, University at Buffalo, July 1987.

George88
W. K. George. Another look at the log (or is it a power law?) velocity profile for a zero-pressure gradient boundary layer. Bulletin of the American Physical Society, 33(10):2301, 1988.

George88b
W. K. George. Burst-mode processing of laser doppler anemometer signals. Journal of Exp. Thermal and Fluid Science, 1:48-68, 1988.

George88c
W. K. George. Governing equations, experiments and the experimentalist. In R. Shah and E. N. Ganic, editors, Proc. of First World Cong. on Heat Transfer, pages 40-84, Elsevier, Amsterdam, NL, 1988. Fluid Mechanics and Thermodynamics, Dubrovnik, Yugoslavia.

George88a
W. K. George. Insight into the dynamics of coherent structures from a proper orthogonal decomposition. In Symposium on Near Wall Turbulence, Dubrovnik, Yugoslavia, May 16-20 1988.

George88d
W. K. George. Insight into the dynamics of coherent structures from a proper orthogonal decomposition. In S. Kline, editor, The Structure of Near Wall Turbulence, Proc. of Symp. on Near Wall Turbulence, pages 168-180, Dubrovnik, Yugoslavia, 1988. Hemisphere, NY.

George88e
W. K. George. A theory for the self-preservation of temperature fluctuations in isotropic turbulence. Technical Report 117, Turbulence Research Laboratory, January 1988.

George89
W. K. George. The self-preservation of turbulent flows and its relation to initial conditions and coherent structures. In Advances in Turbulence, pages 39-73. Hemisphere, NY, 1989.

George89a
W. K. George. A theory for the decay of homogeneous isotropic turbulence. Unknown, 1989.

George89b
William K. George. A new heat transfer law for turbulent natural convection between heated horizontal surfaces of large extent. In Proceedings of 26th Nat. Heat Transfer Conf. and Exhib., HTD, ASME, Philadelphia, PA, 1989.

George90
W. K. George. Another look at the log (or is it a power law?) velocity profile for a zero-pressure gradient boundary layer. 3rd Joint ASME/ASCE Mech. Conf. LaJolla, CA July 9-12, 1990.

George90a
W. K. George. Governing equations, experiments and the experimentalist. In Experimental Thermal and Fluid Sciences, volume 3, pages 557-566, 1990.

George92
W. K. George. The decay of homogeneous isotropic turbulence. Physics of Fluids A, 4(7):1492-1509, 1992.

George92b
W. K. George. The decay of homogeneous isotropic turbulence. Physics of Fluids B, 5:1-29, 1992.

George95
W. K. George. Some new ideas for similarity of turbulent shear flows. In Hanjalic and Pereira, editors, Proc. ICHMT Symposium on Turbulence, Heat and Mass Transfer, Lisbon, Portugal (1994). Elsevier, Amsterdam, 1995.

GG87a
M. N. Glauser and W. K. George. The dynamics of coherent structures and the generation of turbulence in the axisymmetric jet mixing layer. Bulletin of the American Physical Society, 32(10):2066, 1987.

GG87
M. N. Glauser and W. K. George. An orthogonal decomposition of the axisymmetric jet mixing layer utilizing cross-wire velocity measurements. In Proc. Sixth Symp. Turb. Shear Flows, pages 10.1.1-10.1.6. Springer Verlag, 1987.

GG91
W. K. George and M. N. Glauser. Flow structure identification from multi-point measurements. In J. F. Keffer, R. K. Shah, and E. N. Ganic, editors, Proc. of 2nd World Conference on Experimental Heat Transfer, pages 92-106, Elsevier, Amsterdam, June 1991. Fluid Mechanics and Thermodynamics, Dubrovnik, Yugoslavia.

GG92
W. K. George and M. M. Gibson. The self-preservation of homogeneous shear flow turbulence. Experiments in Fluids, 13:229-238, 1992.

GG92a
M. N. Glauser and W. K. George. Application of multipoint measurements for flow characterization. Journal of Experimental Thermal and Fluid Science, 5:617-632, 1992.

GG98
S. Gamard and W. K. George. Finite reynolds number effects on turbulence spectra. Bulletin of the American Physical Society, 43(9):1982, 1998.

GG00
S. Gamard and W. K. George. Reynolds number dependence of energy spectra in the overlap region of isotropic turbulence. Flow, Turbulence and Combustion, 9:1982, 2000. Special B.E. Launder Birthday Issue.

GGB75
W. K. George, G. B. Gurney, and N. S. Berman. Technique for rapid friction factor fluid characterization. Journal of Hydronautics, 9(1):36-0-38, January 1975.

GGG95
F. F. Grinstein, M. N. Glauser, and W. K. George. Fluid Vortices, chapter Vorticity in Jets. Kluwer, 1995.

GGP95
F. F. Grinstein, E. J. Gutmark, T. P. Parr, D .M. Hanson-Parr, and U. Obeysekare. Streamwise and spanwise vortex interaction in a circular reacting jet - an experimental and computational study. In Turb. Shear Flows X, Penn. State, 1995.

GGT85
M. N. Glauser, W. K. George, and D. B. Taulbee. Evaluation of an alternative to the orthogonal decomposition. Bulletin of the American Physical Society, 30(10):1695, 1985.

GH76
W. K. George and C. M. Hamilton. Eddy viscosity calculations for turbulent buoyant plumes. Bulletin of the American Physical Society, 21:1225, 1976.

GH91
W. K. George and H. J. Hussein. Locally axissymmetric turbulence. Journal of Fluid Mechanics, 233:1-23, 1991.

GHW89
W. K. George, H. J. Hussein, and S. H. Woodward. An evaluation of the effect of fluctuating convection velocity on the validity of taylor's hypothesis. In Perry et al., editor, Proc. 10th Australasian Fluid Mechanics Conference V. II, pages 11.5-11.8, University of Melbourne, December 11-15 1989.

Gibson97
M. M. Gibson. private communication to WKG, 1997.

Givi89
P. Givi. Model free simulations of turbulent reactive flows. Prog. Energy Combustion Science, 15:1-107, 1989.

GKC92
W. K. George, P. Knecht, and L. Castillo. The zero pressure-gradient boundary layer revisited. In X. B. Reed, editor, 13th Symposium on Turbulence, Rolla, MO, 1992.

GL72
W. K. George and J. L. Lumley. Doppler ambiguity and the measurement of turbulence. In Stevenson et al., editor, Proc. of Workshop on the Use of the LDV for Flow Measurement, pages 199-218, Lafayette, IN, March 9-10 1972. Purdue University.

GL73
W. K. George and J. L. Lumley. the laser-doppler velocimeter and its application to the measurement of turbulence. Journal of Fluid Mechanics, 60, part 2:321-362, 1973.

Glauser87
M. N. Glauser. Coherent Structures in the Axisymmetric Turbulent Jet Mixing Layer. PhD thesis, State University of New York at Buffalo, 1987.

GLG85
M. N. Glauser, S. J. Leib, and W. K. George. Coherent structures in the axisymmetric mixing layer. In Proc. of 5th Symp. on Turbulent Shear Flows, Ithiaca, NY, 1985. Cornell University.

GLG87
M. N. Glauser, S. J. Leib, and W. K. George. Coherent structures in the axisymmetric mixing layer. In F. Durst et.al., editor, Turbulent Shear Flows 5, pages 4.21-4.26. Springer Verlag, 1987.

GO77
D. Gottlieb and S. A. Orszag. Numerical Analysis of Spectral Methods: Theory and Applications. SIAM, Philadelphia, PA, 1977.

GO93
B. Galperin and S. A. Orszag, editors. Large Eddy Simulations of Complex Engineering and Geophysical Flows. Cambridge University Press, Cambridge, UK, 1993.

Goertler58
H. Görtler, editor. Grenzschichtforschung. Springer-Verlag, Berlin, 1958.

GRS87
W. K. George, W. J. Rae, P. J. Seymour, and J. R. Sonnenmeier. An evaluation of analog and numerical techniques for unsteady heat transfer with thin film gauges in transient facilities. In Proc. of 1987 ASME-JSME Thermal Engr. Joint Conf., volume II, pages 611-617, Honolulu, HW, 1987. ASME.

GRW86
W. K. George, W. J. Rae, and S. H. Woodward. Preliminary draft: An evaluation of analog and numerical techniques for unsteady heat transfer with thin film gauges in transient facilities. In Proc. of 1987 ASME-JSME Thermal Engr. Joint Conf., volume II, pages 611-617, Honolulu, HW, 1986. ASME.

GS91
K. E. Gustafson and J. A. Sethian, editors. Vortex Methods and Vortex Motion. SIAM, Philadelphia, PA, 1991.

GST85
W. K. George, A. Shabbir, and D. B. Taulbee. The effect of screens on attempts to generate free turbulent shear flows. Bulletin of the American Physical Society, 30(10):1735, 1985.

GT80
R. J. Goldstein and S. Tokuda. Heat transfer by thermal convection at high Rayleigh numbers. International Journal of Heat Mass Transfer, 23:738-740, 1980.

GT92
W. K. George and D. B. Taulbee. Designing experiments to test closure hypothesis. J. Experimental Thermal and Fluid Sciences, 5(3):249-60, 1992.

GT91
W. K. George and D. B. Taulbee. Preliminary draft: Designing experiments to test closure hypothesis. J. Experimental Thermal and Fluid Sciences, 5(3):249-60, 1992.

GW01
William K. George and Honglu Wang. The integral scale in homogeneous and isotropic turbulence. Journal of Fluid Mechanics, under consideration, 2001.

GWC97
W. K. George, M. Wosnik, and L. Castillo. Similarity theory for forced convection thermal boundary layers. In Proc. Tenth International Symposium on Transport Phenomena in Thermal Science and Process Engineering, Kyoto, Japan, 1997.

GZD92
M. N. Glauser, X. Zheng, and C. Doering. A low-dimensional dynamical systems description of the axisymmetric mixing layer. Clarkson Unversity Report MAE-427, 1992.

GZG90
M. N. Glauser, X. Zheng, and W. K. George. the streamwise evolution of coherent structures in the axisymmetric jet mixing layer. In The Lumley symposium: recent developments in turbulence, Newport News, VA, November11-13 1990. Springer-Verlag.

HA93
A. Honkan and J. Andreopoulis. Experimental investigation of time resolved vorticity in two dimensional turbulent boundary layer flows. In AIAA 24th Fluid Dynamics Conference, Orlando, Florida, July 1993.

Hama54
F. R. Hama. Boundary layer characteristics for smooth and rough surfaces. Trans. Soc. Nav. Archt. Marine Engrs., 62:333-358, 1954.

Hansen64
A. G. Hansen. Similarity Analyses of Boundary Value Problems in Engineering. Prentice-Hall, Englewood Cliffs, NJ, 1964.

Han88
Y. O. Han. The Effect of a Contraction on Grid- Generated Turbulence. PhD thesis, University at Buffalo, May 1988.

Hardin86
J. C. Hardin. Introduction to Time Series Analysis. NASA Reference Publication 1145, 1986.

HVAS77
K. N. Helland, C. W. Van Atta, and G. R. Stegen. Spectral energy transfer in high reynolds number turbulence. Journal of Fluid Mechanics, 79:337-359, 1977.

HVS77
K. N. Helland, C. W. Van Atta, and G. R. Stegen. Spectral energy transfer in high reynolds number turbulence. jfm, 70:337-359, 1977.

HC81
A. K. M. F. Hussain and A. R. Clark. On the coherent structure of the axisymmetric mixing layer: a flow-visualization study. jfm, 104:263-294, 1981.

HCG94
H. J. Hussein, S. P. Capp, and W. K. George. Velocity measurements in a high-reynolds-number, momentum-conserving, axisymmetric, turbulent jet. Journal of Fluid Mechanics, 258:31-75, 1994.

HE78
C. J. Hoogendoorn and H. Euser. Velocity profiles in the turbulent free convection boundary layer. In Proceedings of the Sixth International Heat Transfer Conference, volume 2, pages NC 2,193-198, Toronto, 1978.

Herzog86
S. Herzog. The Large Scale Structure in the Near-Wall Region of Turbulent Pipe Flow. PhD thesis, Cornell University, 1986.

HG87
H. J. Hussein and W. K. George. Assessment of taylor's frozen field hypothesis in an axisymmetric turbulent jet. Bulletin of the American Physical Society, 32(10):2045, 1987.

HG88
H. J. Hussein and W. K. George. Effect of the fluctuating convection velocity on the velocity moments in a fully developed jet. In ASCE Engr. Mechanics Division Specialty Conference, Blacksburg, VA, May 22-25 1988.

HG90
H. J. Hussein and W. K. George. Influence of wire spacing on derivative measurement with multiple hot-wire probes. In ASME Fluids Engineering Division Meeting, Toronto, Ontario, Canada, June3-9 1990.

HG91
H. J. Hussein and W. K. George. A eulogy for the AXI-probe. Bulletin of the American Physical Society, 36(10):2623, 1991.

HG94
H. J. Hussein and W. K. George. Influence of wire spacing on derivative measurement with parallel hot-wire probes. ASME Fluids Engineering Division, 94:121-124, 1994.

HGC88
H. J. Hussein, W. K. George, and S. P. Capp. Comparison between hot-wire and burst-mode LDA velocity measurements in a fully developed turbulent jet. In AIAA 26th Aerospace Science Meeting, volume AIAA-88-0424, Reno,NV, 1988.

HH89
R. A. W. M. Henkes and C. J. Hoogendoorn. Comparison of turbulence models for the natural convection boundary layer along a heated vertical plate. Int. Journal of Heat Mass Transfer, 32:157-169, 1989.

HH90
R. A. W. M. Henkes and C. J. Hoogendoorn. Numerical determination of wall functions for the turbulent natural convection boundary layer. Int. Journal of Heat Mass Transfer, 33:1087-1097, 1990.

Hill78
R. J. Hill. Models of the scalar spectrum for turbulent advection. Journal of Fluid Mechanics, 88:541-562, 1978.

Hinze75
J. O. Hinze. Turbulence. McGraw-Hill, New York, NY, 1975.

HL74
K. Hanjalic and B. E. Launder. Contribution towards a Reynolds stress closure for low-Reynolds number turbulence. Rept. HTS/74/24, Imperial College, 1974.

HL76
K. Hanjalic and B. E. Launder. Contribution towards a Reynolds-stress closure for low-Reynolds-number turbulence. Journal of Fluid Mechanics, 74:593-610, 1976.

HLB96
P. Holmes, J. L. Lumley, and G. Berkooz. Turbulence, Coherent Structures, Symmetry and Dynamical Systems. Cambridge, 1996.

Hussain83
A. K. M. F. Hussain. Coherent structures - reality and myth. Phys. Fluids, 26:2816, 1983.

Hussain86
A. K. M. F. Hussain. Coherent structures and turbulence. jfm, 173:303, 1986.

Hussein88
H. J. Hussein. Measurement of small scale turbulence in an axisymmetric jet using moving hot wires. PhD thesis, University at Buffalo, 1988.

Hussein97
H. J. Hussein. Measurements of turbulent flows with flying hot-wire anemometry. ASME Fluids Engineering Division, 97:77-80, 1997.

HV91
C. R. Hunt and J. C. Vassilicos. Kolmogorov's contributions to the physical and geometrical understanding of small-scale turbulence and recent developments. Proc. R. Soc. Lond. A, 434:183-210, 1991.

HZ80
A. K. M. F. Hussain and K. B. M. Q. Zaman. Vortex pairing in a circular jet under controlled excitation. part 2. coherent structure dynamics. jfm, 101(3):493-54, 1980.

IW85
F. P. Incropera and D. P. de Witt. Fundamentals of Heat and Mass Transfer. John Wiley and Sons, New York, NY, 1985.

Irwin73
H. P. A. Irwin. Measurements in a self-preserving plane wall jet in a positive pressure gradient. Journal of Fluid Mechanics, 61:33-63, 1973.

MOC99
Niels Olhoff Jens I. Madsen and Thomas J. Condra. Optimization of straight, two-dimensional diffusers by wall contouring and guide vane insertion. In 3rd World Congress of Structural and Multidisciplinary Optimization, Niagara Falls/Amherst, NY, May17-21 1999.

JC00
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Scott Woodward
Tue May 15 21:33:45 EDT 2001