61. HotJobs - A Yahoo! Service RaviChandra Palaparthi's Resume Ph.D in Chemical Engineering with specialization in Interfacial Sciences and fluid mechanics. Experienced in experimental and computational aspects of these areas. http://resumes.hotjobs.com/rav_00_2000/phdchemicaleng/

Ravi Chandra Palaparthi 10225 East Girard Ave, #P103 Denver, CO 80231 Phone: 917 405 2808(Cell)/ 303 268 5105(Work)/ 303 368 0713(Home) rpalaparthi@hotmail.com SUMMARY OF QUALIFICATIONS · Holds doctorate in chemical engineering with specialization in computational and experimental aspects of fluid dynamics and interfacial phenomena. · Adept and knowledgeable in CFD techniques and writing codes, and mathematical modeling of physical processes. · Familiar with chemical engineering processes and operations. Over two years of industrial experience. EDUCATION Ph.D., Chemical Engineering 08/1996 - 02/2001 The City College of The City University of New York GPA 3.9/4.0 Thesis: “Effect of Surfactant Transport on the Mobility of Bubbles in Liquids- An Experimental and Computational Study". B.Tech., Chemical Engineering 08/1991-5/1995 Indian Institute of Technology (IIT), Madras, India GPA 8.8/10 PROFESSIONAL EXPERIENCE Orica USA, Denver, CO 03/2001-Present Research Scientist · Successfully implemented techniques for the characterization and testing of emulsion, slurry and granular type explosives.

62. Bienvenue Au Centre De Mise En Forme Des Materiaux / Welcome To The Center For M Solid and fluid mechanics, metal and polymer physics and chemistry. http://www-cemef.cma.fr/

Enseignement-Formation-Recrutement Recherche Le CEMEF recherche des stagiaires pour ce printemps 2004. Plus d'infos son master ses doctorats des post-docs P lus d'infos English Contact ... Armines

63. Begell House Inc. - Journals - International Journal Of Fluid Mechanics Research For the past 20 years, fluid mechanics Research (prior to 1992 fluid mechanicsSoviet Research) has offered broad coverage of the entire field of fluid http://www.begellhouse.com/fmr/fmr.html

if(location.href != getCookie('back')) setCookie('back', location.href, null, '/'); ITEMS modern scholarly publishers in the finest tradition Journals Login Register Home Books Journals A-Z Index Author Index For Our Authors Shopping Cart Contact Electronic Data Center Search International Journal of Fluid Mechanics Research Chief-in-Editor Victor T. Grinchenko Institute of Hydromechanics, National Academy of Science of Ukraine, Kyiv, Ukraine Editorial Board click on link to see the list AIMS AND SCOPE For the past 20 years, Fluid Mechanics Research (prior to 1992 Fluid Mechanics-Soviet Research ) has offered broad coverage of the entire field of fluid mechanics including flow of compressible and incompressible fluids, vapor-liquid and slurry flows, turbulence, waves, boundary layers, wakes, channel and nozzle flow, fluid-structure interaction, lubrication, flow in porous media, flow through turbo-machinery, aerodynamics and rheology as well as new and innovative measurement techniques. The journal's coverage is now being broadened to encompass research in the general area of transport phenomena where convective, diffusional and chemical reaction processes are important and to include biological systems as well as technological and geophysical systems. Fluid Mechanics Research has now merged with the TsAGI Journal , a publication of the world-famous Central Aero-Hydrodynamics Institute in Russia. This will position the new

64. Navier-Stokes Equations: Introduction A brief summary of the NavierStokes equations governing fluid dynamics and fluid mechanics. http://www.eng.vt.edu/fluids/msc/ns/nsintro.htm

Navier-Stokes Equations Introduction The Navier-Stokes equations are the foundation of fluid mechanics and, strangely enough, are rarely recorded in their entirety. Furthermore, their presentation is frequently muddled in both texts and in the classroom. Sometimes this confusion is appropriate (or at least is the product of understandable compromises); examples include the desire to "derive" these equations and to provide "warm fuzzies", e.g., examples, motivations, applications, etc. Less appropriate confusion is due to, ..... well, don't get me started ....... The main idea of these notes is to write an easily accessible, i.e., web-based, summary of these equations which are both correct and complete. I will admit that I won't be 100% comprehensive here. Some compromises are needed for the sake of tradition and brevity. However, I will do my best to point out any holes. For example, check out the What's Missing page to see the main topics which I have had to leave out or just go to my new site which gives a more complete discussion of the Navier-Stokes equations G.G. Stokes

65. Pablo Braz E Silva UNICAMP, Brazil. Research interests PDEs, especially NavierStokes; fluid mechanics; Stability of shear flows. Preprints, links. http://www.ime.unicamp.br/~pablo

Pablo Gustavo Albuquerque Braz e Silva , Ph.D. Para essa página em português, clique aqui Post-doctoral research fellow * IMECC - Instituto de Matem ática, Estatísitica e Computação Científica UNICAMP Cx. Postal 6065 Campinas, SP Brazil Office: IMECC - Room Phone: E- m ail: pablo@ ime.unicamp.br Research Interests Partial Differential Equations, in special Navier-Stokes equations Fluid Mechanics Stability of Shear Flows Papers, preprints, monographs, notes, etc. Resolvent estimates for 2 dimensional perturbations of plane Couette flow Electron. J. Diff. Eqns. , Vol 2002(2002), No 92, pp. 1-15 Resolvent estimates for Plane Coutte flow To appear SIAM J. Appl. Math Nonlinear stability for 2 dimensional plane Couette flow To appear Rev. Integr. Temas Mat. (Expository paper invited by the editor) How to construct convergent alternating series do not satisfying the alternating series test (a nice example for Calculus students) On the resolvent technique for stability of plane Couette flow With Licks, V.

66. INSTITUTE OF NON-NEWTONIAN FLUID MECHANICS. The Institute of NonNewtonian fluid mechanics. Please click on the site you wish to visit. Alternatively you may enter the institute by clicking here. http://www.aber.ac.uk/~nniwww/

The Institute of Non-Newtonian Fluid Mechanics Please click on the site you wish to visit. Alternatively you may enter the institute by clicking here Number of visitors version 2.0 or higher. If you have any difficulty viewing these pages contact tnp@aber.ac. uk or cab@aber.ac. uk

67. Aerodynamics For Students : A Web Site Dedicated To Theoretical Aerodynamics Covers fluid mechanics, theory of flight, aerodynamics, gasdynamics, aircraft performance, propulsion, and data sheets. http://www.mech.eng.usyd.edu.au/aero/contents.html

Table of Contents Introduction Part 1. Fundamentals of Fluid Mechanics Properties of Fluids Non-Dimensional Numbers Conservation of Mass Streamlines, Streaklines, Streamtubes ... Potential Flow Part 2. Introduction to Theory of Flight Visit the Australian Ultralight Federation's Excellent Flight Theory Pages Aircraft Instruments Part 3. Aerodynamics Properties of the Atmosphere 2-D Flow Aerofoil Section Geometry Thin Aerofoil Theory (2-D Sections) 2-D Panel Method Solutions ... Vortex Lattice Method (3-D Wings) Part 4. Gasdynamics Supersonic Flow Measurement Simulation of Rarefied Gas Flow Part 5. Aircraft Performance Aircraft Performance (Force Equilibrium Predictions, Numerical Techniques) Aircraft Performance (Force Equilibrium Predictions, Optimisation approach) Part 6. Propulsion Blade Element Propeller Analysis Part 7. Data Sheets Conversion Factors Density of Liquids Standard Atmosphere Compressible Subsonic Flow ... Oblique Shock Wave Data Part 8. Assignment/Tutorial Resources MATLAB files EXCEL files FORTRAN files Part 9. Experimental Data Library Wind Tunnel Experimental Data The SNR Wind Tunnel University of Sydney.

68. Fluid Mechanics Group -- M&ME fluid mechanics Group. (From AE Perry MS Chong, Annual Review of fluid mechanics, 1987, Vol. 19, pp.12555). Academic Staff. Research Staff. http://www.mame.mu.oz.au/fluids/

Fluid Mechanics Group Walter Bassett Aerodynamics Laboratory, University of Melbourne, Australia. The above digram represents a local Taylor series expansion solution of the Navier-Stokes equation for a simple U-separation. Academic Staff Research Staff Postgraduate Students An interesting image According to the University of Melbourne publication "Research Management Plan 1993-1994, A Strategy for Excellence" the first listed research strength of the Department of Mechanical and Manufacturing Engineering is Fluid Mechanics - Turbulence . The fluid mechanics group has won world renown for its high quality research using hot-wire anemometry combined with flow visualisation and more recently particle image velocimetry. For example, the following two figures show the flow visualization of a wake and the velocity vector field obtained using the unique "flying hot wire" system where a hot-wire probe scans a flow field at high speed so as to overcome problems of flow reversal and large angular changes in flow direction. Externally illuminated single-sided wake pattern passing a hot-wire probe.

69. Introduction To Fluid Mechanics Introduction to fluid mechanics by Nakayama, Y.; Boucher, RF © 2000 Elsevier Title Details Ordering Info Introduces students http://www.knovel.com/knovel2/Toc.jsp?SpaceID=10014&BookID=481

70. Fluid Mechanics And Thermodynamics Of Turbomachinery (4th Edition) fluid mechanics and Thermodynamics of Turbomachinery (4th Edition) by Dixon, SL © 1998 Elsevier Title Details Ordering Info http://www.knovel.com/knovel2/Toc.jsp?SpaceID=10014&BookID=478

71. Fluids Internal Combustion Engine fluid mechanics Outline. Intake and Exhaust Flows Introduction Geometric Properties Intake Poppet Applet; Exhaust Poppet Applet. http://www.engr.colostate.edu/~allan/fluids/page1/page1f.html

Internal Combustion Engine Fluid Mechanics Outline Intake and Exhaust Flows Introduction Geometric Properties Intake Poppet Applet Exhaust Poppet Applet ... Pipe Length Applet Vehicle Power Requirements Power Requirements Vehicle Power Applet Vehicle Acceleration Applet AHEAD

72. IMHEF Home Page The Institute of Hydraulic Machines and fluid mechanics (IMHEF) is a research and teaching institute within the Department of Mechanical Engineering at the http://imhefwww.epfl.ch/

Welcome to the IMHEF The Institute of Hydraulic Machines and Fluid Mechanics (IMHEF) is a research and teaching institute within the Department of Mechanical Engineering at the Swiss Federal Institute of Technology (EPFL) in Lausanne Switzerland The IMHEF is divided into three laboratories, each having its own specialized equipment and staff, and complementary responsibilities for research and teaching. Fluid Mechanics Laboratory (LMF) At the LMF, located at the Ecublens site, basic as well as applied research topics in fluid mechanics are studied by experimental, computational and theoretical means. Particular areas of expertise include hydrodynamic instabilities, rheology, transition and turbulence Hydraulic Machines Laboratory (LMH) hydraulic turbines , including their design, performance, operation and testing. The LMH thus deals with the important technological implementations of fluid mechanics, taken in a broad mechanical engineering context. Computational Engineering Laboratory (LIN) The LIN, located at the Ecublens site, is involved in a wide range of basic as well as applied research topics in fluid mechanics that are studied from a theoretical and computational point of view.

73. LMF - Fluid Mechanics Laboratory Translate this page http://imhefwww.epfl.ch/lmf/

74. UK Fluid Dynamics Group Fluid Dynamics Group. List of faculty members, links to the sites of the subgroups dealing with computational fluid dynamics and fluid mechanics, and information on facilities and relevant courses. http://www.engr.uky.edu/me/fdg/

Welcome to the web site for the Fluid Dynamics Group of the Department of Mechanical Engineering at the University of Kentucky. As a land-grant university, UK is the flagship institution for higher education and research in the Commonwealth of Kentucky and as such we are committed to quality instruction, state-of-the-art research, and dedicated service in fluid dynamics. To learn more about our program of instruction and research in fluid dynamics, click on the desired topic in the navigation bar to the left Enjoy your visit. The FDG flyer in PDF format can be downloaded here General questions or comments? E-mail Jamey Jacob for further information. Last update: September, 2000.

75. Wilfred T. Rouleau Emeritus Mechanical Engineering professor. fluid mechanics, thermodynamics. http://www.me.cmu.edu/people/faculty/rouleau.htm

SEARCH Wilfred T. Rouleau TITLE Emeritus Professor AREAS Fluid mechanics, thermodynamics, wave propagation and turbomachinery. DEGREES B.S. 1951, M.S. 1952, Ph.D. 1954, Carnegie Institute of Technology. Carnegie Mellon, 1954-. WEBPAGE PHONE FAX EMAIL wtr@andrew.cmu.edu ADDRESS Carnegie Mellon University Mechanical Engineering Scaife Hall 201 5000 Forbes Avenue Pittsburgh, PA 15213 Professor Rouleau's current research is focused on aerodynamic methods of reducing the erosion of gas turbine blades. Although filters can remove large solid particles from the power gas, very small particles are difficult to remove and contribute significantly to erosion. A numerical solution for particle paths in a blade passage has shown that the vortex secondary flow tends to drive very small particles into the blade and end-wall boundary layers resulting in impacts and erosion, as well as causing a high concentration of particles in the boundary layers. These particle-laden boundary layers leave the blade passage as abrasive wakes which erode the blades in the next-following row. Professor Rouleau and his students are investigating an aerodynamic method utilizing injection jets to modify both the secondary flows and particle paths. The effectiveness of the jets has been predicted numerically and their influence on secondary flows has been verified experimentally. Future research will investigate the effects of blade profiles, compressibility and turbulence level.

76. Fluids Modules With extensive use of Information Technology, we further hope to change teaching and learning fluid mechanics from the unidirectional process to dynamic http://web.mit.edu/fluids-modules/www/

SCHOOL-WIDE MODULAR PROGRAM FOR MIT I-Campus Project Supported by: Microsoft Corporation MIT School of Engineering MIT Curriculum Development Fund Objectives: We plan to develop a coordinated sequence of modular subjects to be used by graduate students from different departments, in order to reduce unnecessary overlap and to increase interdisciplinary exchanges. With extensive use of Information Technology, we further hope to change teaching and learning fluid mechanics from the unidirectional process to dynamic interactions among students and between students and instructors, using materials that are lively and stimulating. The modular subjects will cover basic, intermediate and some advanced topics, will give a unified introduction of modern tools of analytical, experimental and computational methodologies, and will include many examples showing the interrelations between seemingly different applications. Animated illustrations and computational exercises will be developed and incorporated in both class lectures and self-study projects. On-line and interactive software will be developed to enable more frequent interactions between instructors and students and among student themselves. Instruction materials will be open to authorized MIT and off-campus instructors to make additions.

77. (UK) University Of Wales Institute for NonNewtonian fluid mechanics. An interdisciplinary organisation made up of the constituent University of Wales at Aberyswyth, Bangor and Swansea fluid dynamics groups. http://innfm.swan.ac.uk

78. Fluid Mechanics Laboratory, UC Berkeley fluid mechanics LABORATORY. Savas’s Group. Classical fluid mechanics, Biofluid mechanics,. Rotating flows, Experimental Techniques,. http://www.me.berkeley.edu/fml/

FLUID MECHANICS LABORATORY Hesse Hall 140 Department of Mechanical Engineering University of California at Berkeley Berkeley, CA 94720 Savas’s Group Classical fluid mechanics, Biofluid mechanics, Rotating flows, Experimental Techniques, Vortex dynamics, Airfoil wake vortices, Bluff body aerodynamics, Turbulent flows,  etc. Liepmann’s Group Experimental fluid mechanics, Bio-MEMS, Micro-fluidic systems, Biofluid mechanics, Free surface flows, Hydroacoustics,  etc. Maintained by: the industrious students of the FML. Last updated June 28, 2000.

79. Home Page Of Dr. Songlin Zhu Resume, research works on fluid mechanics, heat transfer and biomedical engineering, and publications. http://www.duke.edu/~slzhu/

Research Interest Web Sites CFD ViSC Lithotripsy Laser and Optics Last updated: Songlin Zhu, Ph.D. Assistant Research Professor Dept. of Mechanical Engineering and Material Science Duke University Durham, NC 27708 USA slzhu@duke.edu or slzhu@yahoo.com Research Interest: Computational fluid dynamics for imcompressible, compressible and multifluid flow. Flow visualization. Cavitation and shock wave-bubble interaction. Ultrosound bioleffects. Online calculation parameter for determining lithotripter shock wave (need Java Example of a bubble response to double lithotripter shock waves (need Java 3D

80. Fluid Mechanics At Berkeley Alexandre J. Chorin James Sethian Math 211 Mathematical Introduction to fluid mechanics Math 228AB Numerical solutions of Ordinary Partial Differential http://www.me.berkeley.edu/faculty/szeri/home/fluids_program/fluids.htm

Fluid Dynamics at Berkeley Welcome to the home page for Graduate Study in Fluid Dynamics at the University of California at Berkeley Relevant departments, faculty, courses and research. Bioengineering Dorian Liepmann Chemical Engineering Susan Muller Civil Engineering Rod Sobey Garrison Sposito Mark Stacey Berkeley Environmental Fluids Laboratory ... EPS 108 Geodynamics Physics Joel Fajans Edgar Knobloch Mathematics Alexandre J. Chorin James Sethian Math 211 Mathematical Introduction to Fluid Mechanics Math 275 Topics in Applied Mathematics Mechanical Engineering Stanley Berger Dorian Liepmann Philip Marcus Stephen Morris ... M. E. Application for Study Nuclear Engineering Per Peterson  Please send comments and suggestions to Andrew Szeri

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