Majdalani, Joseph - University of Tennessee Space Institute

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Majdalani, Joseph - University of Tennessee Space Institute

JOURNAL OF PROPULSION AND POWER Vol. 13, No. 2, March April 1997
AIAA 2001-3868 Aeroacoustic Instability in Rockets
AIAA 2000-3191 Improved Mean-Flow Solution for Slab
American Institute of Aeronautics and Astronautics Energy Based Solutions of the Bidirectional Vortex with
AIAA 2001-2162 Imposition of Oscillatory Waves Inside
AIAA 2006-4888 Characterization of the Tangential Boundary
AIAA 2001-3588 Exact Self-Similarity Solution of the Navier-
American Institute of Aeronautics and Astronautics Energy Based Solutions of the Bidirectional Vortex
On steady rotational high speed flows: the compressible TaylorCulick profile
Proceedings of ASME FEDSM'01 2001 ASME Fluids Engineering Division Summer Meeting
JOURNAL OF PROPULSION AND POWER Vol. 17, No. 2, MarchApril 2001
Journal of Sound and

AIAA 2003-3728 Inner and Outer Solutions for the Injection
AIAA 2003-4473 Vortex Thrust Chamber Testing and Analysis
AIAA 2005-4382 General Solutions for Some Isentropic
AIAA 2001-2713 Large Injection and Suction Driven Channel
Improved solution for the vortical and acoustical mode coupling inside a two-dimensional cavity with porous walls
AIAA 2001-2961 The Rijke Tube Revisited via Laboratory
"ch07" --2006/11/3 --page 277 --#1 High-Speed Flow Effects in Hybrid Rockets
American Institute of Aeronautics and Astronautics Current State of High Speed Propulsion: Gaps, Obstacles,
AIAA 2002-3212 Compact Heat Sink Simulations in Both
AIAA 97-2718 Modeling of a Rijke-Tube Pulse Combustor
AIAA 2000-1988 Acoustical and Vortical Interactions
AIAA 2002-3609 Premixed Flame Response to Acoustic
American Institute of Aeronautics and Astronautics Heuristic Representation of the Swirl Velocity in the Core of
AIAA 2004-3474 Inviscid Models of
American Institute of Aeronautics and Astronautics On the Multiplicity of Planar Solutions for Axially Traveling
AIAA 2002-2855 Oscillatory Viscous Flow in a Porous
AIAA 2004-4181 Improvements to the Linear Standard
Z. angew. Math. Phys. 49 (1998) 849868 0044-2275/98/060849-20 $ 1.50+0.20/0
"ch06" --2006/11/3 --page 247 --#1 Vortex Injection Hybrid Rockets
J. Fluid Mech. (2009), vol. 636, pp. 5989. c Cambridge University Press 2009 doi:10.1017/S0022112009007939
AIAA 2005-4001 Verification and Validation of
Exact NavierStokes Solution for Pulsatory Viscous Channel Flow with Arbitrary Pressure Gradient
ADVANCEMENTS IN THEORETICAL MODELS OF CONFINED VORTEX FLOWFIELDS J. W. Batterson,1
Exact Solution of the Bidirectional Vortex Anand B. Vyas
AIAA 2004-3676 Hot Flow Model of the Vortex
Hydrodynamic stability of rockets with headwall injection Esam M. Abu-Irshaid and Joseph Majdalania
AIAA 99-2504 Basic Vorticity Dynamics in a Porous Channel
Joseph Majdalani e-mail: maji@mu.edu
AIAA 2002-2985 Two Forms of the Rotational Solution for
The Taylor-Culick profile with arbitrary headwall injection Joseph Majdalania
AIAA 2003-5052 The Bidirectional Vortex. Part 1
AIAA 2001-3589 Cold-Flow Analysis of the Gas Dynamics in a
AIAA 2002-3211 Effective Thermal Conductivity
American Institute of Aeronautics and Astronautics Energy Steepened States of the Taylor-Culick Profile
American Institute of Aeronautics and Astronautics On the Boundary Layers of the Bidirectional Vortex
DNS Investigation of the Taylor-Culick Flow Stability F. Chedevergne
AIAA 2001-2121 Full-Scale Numerical Model of a Rijke-Type
AIAA 2004-3475 Rotational Axisymmetric Mean Flow for the
Journal of Sound and Vibration 294 (2006) 880893 Symmetric solutions for the oscillatory channel flow with
American Institute of Aeronautics and Astronautics Compressibility Effects in Slender Rocket Motors
Joseph Majdalani1 Department of Mechanical and Industrial Engineering
Premixed flame response to acoustic waves in a porous-walled chamber with surface mass injection
Proceedings of BioMed2007 2nd Frontiers in Biomedical Devices Conference
Aerospace Science and Technology 10 (2006) 495500 www.elsevier.com/locate/aescte
Rotational Flowfields in Porous Channels with Arbitrary Headwall Injection
J. Fluid Mech. (2008), vol. 603, pp. 391411. c 2008 Cambridge University Press doi:10.1017/S0022112008001122 Printed in the United Kingdom
AIAA 2003-5054 The Bidirectional Vortex. Part 3
AIAA 99-3523 Unsteady Flows in Semi-Infinite
Z. angew. Math. Phys. 52 (2001) 3361 0044-2275/01/010033-29 $ 1.50+0.20/0
AIAA 2001-2789 General Asymptotic Solutions for the Oscil-
Some rotational corrections to the acoustic energy equation in injection-driven enclosures
AIAA 2004-4162 Nonlinear Longitudinal Mode Instability in
AIAA 2003-5112 Some Recent Developments in
AIAA 99-3770 Vorticity Dynamics in a Porous Channel
Vortical and acoustical mode coupling inside a porous tube with uniform wall suction
78 IEEE TRANSACTIONS ON COMPONENTS AND PACKAGING TECHNOLOGIES, VOL. 25, NO. 1, MARCH 2002 Characterization of Compact Heat Sink Models
TWO-DIMENSIONAL NUMERICAL VERIFICATION OF THE UNSTEADY THERMOACOUSTIC FIELD INSIDE
Journal of Sound and Vibration 321 (2009) 10071025 Volume-to-surface reduction of vorticoacoustic
AIAA 2005-3543 Stability of Rockets with Headwall Injection
American Institute of Aeronautics and Astronautics Exact Eulerian Solution of the Conical Bidirectional Vortex
AIAA 2003-5055 Simulation of the Cold-Wall Swirl Driven
Proceedings of IPACK'03 International Electronic Packaging Technical Conference and Exhibition
Vortical and acoustical mode coupling inside a two-dimensional cavity with transpiring walls
AIAA 2006-4957 The Compressible Taylor Flow
A FIRST STEP IN APPLYING THE SINC COLLOCATION METHOD TO THE NONLINEAR NAVIER STOKES
Brief communication Estimation of the laminar premixed flame temperature and
A constant shear stress core flow model of the bidirectional vortex
American Institute of Aeronautics and Astronautics Exact Eulerian Solutions of the Cylindrical
Energy Based Mean Flow Solutions for Slab Hybrid Rocket and Joseph Majdalani
American Institute of Aeronautics and Astronautics The Bidirectional Vortex with Sidewall Injection
American Institute of Aeronautics and Astronautics On the Compressible Bidirectional Vortex
Nonlinear rocket motor stability prediction: Limit amplitude, triggering, and mean pressure shifta...
Heat Transfer Technical Briefs
Mean Flow Approximations for Solid Rocket Motors with Tapered Walls
Z. angew. Math. Phys. 58 (2007) 289308 0044-2275/07/020289-20
Acoustic Instability of the Slab Rocket Motor Sean R. Fischbach,
"ch05" --2006/11/3 --page 207 --#1 Analytical Models for Hybrid Rockets
American Institute of Aeronautics and Astronautics Hydrodynamic Stability Analysis of Solid Rocket Motors
American Institute of Aeronautics and Astronautics Acoustic Streaming Effects in Liquid Rocket Engines with
American Institute of Aeronautics and Astronautics The Taylor Profile in Porous Channels with Arbitrary
Rotational flow in tapered slab rocket motors Tony Saad, Oliver C. Sams IV, and Joseph Majdalania
Effective thermal conductivity of common geometric shapes Kyle A. Brucker 1
AIAA 2005-4534 The Taylor-Culick Profile
AIAA 2005-3542 The Compressible Taylor-Culick Flow
AIAA 2004-4182 Incorporation of Nonlinear Capabilities in
AIAA 2004-4054 Nonlinear Rocket Motor Stability Prediction
AIAA 2004-3933 Modeling and Simulation of Dynamic
AIAA 2004-3516 On Nonlinear Combustion Instability
Exact self-similarity solution of the NavierStokes equations for a porous channel with orthogonally moving walls
ZAMM Z. Angew. Math. Mech. 83, No. 3, 181 196 (2003) / DOI 10.1002/zamm.200310018 Moderate-to-large injection and suction driven channel flows
158 IEEE TRANSACTIONS ON COMPONENTS AND PACKAGING TECHNOLOGIES, VOL. 26, NO. 1, MARCH 2003 Equivalent Thermal Conductivity for Compact
JOURNAL OF PROPULSION AND POWER Vol. 19, No. 1, JanuaryFebruary 2003
AIAA 2003-5053 The Bidirectional Vortex. Part 2
Proceedings of IPACK'03 International Electronic Packaging Technical Conference and Exhibition
Proceedings of IPACK'03 International Electronic Packaging Technical Conference and Exhibition
AIAA 2003-4189 Compact Thermal Conductivity of Common
Journal of Biomechanics 35 (2002) 13991403 Technical note
JOURNAL OF PROPULSION AND POWER Vol. 18, No. 3, MayJune 2002
Laminar flow in a porous channel with large wall suction and a weakly oscillatory pressure
AIAA 2002-3291 Navier-Stokes Solution of the Driven-Cavity
AIAA 2002-2981 Pulsatory Channel Flows with Arbitrary
AIAA 2002-2856 Pulsatory Channel Flow for an Arbitrary
JOURNAL OF PROPULSION AND POWER Vol. 17, No. 2, MarchApril 2001
AIAA 2001-3872 Asymptotic Formulation of the Mean
AIAA 2001-2994 Three Laminar Solutions for Chambers
Proceedings of ASME FEDSM'01 2001 ASME Fluids Engineering Division Summer Meeting
10.1098/rspa.2000.0579 The oscillatory channel ow with
0022460X/99/210073 23 $30.00/0 # 1999 Academic Press ASYMPTOTIC FORMULATION FOR AN
AIAA 99-3769 Vorticity Dynamics in a Porous Channel
AIAA 99-2503 Basic Vorticity Dynamics in a Porous Channel
AIAA 98-3699 Characterization of the Laminar Boundary
AIAA 98-2977 Modeling of the Oscillatory Flowfield
AIAA 98-2808 Turbularization of the Stokes Layer
AIAA 98-2694 A Novel Investigation of the Oscillatory Field
AIAA 98-2693 A Novel Flowfield Solution in a Rectangular
AIAA 98-2582 A Novel Investigation of the Thermoacoustic
AIAA 97-2717 An Improved Time-Dependent
AIAA 95-2731 The Unsteady Boundary Layer
AIAA 2005-4552 Inversion of the Critical Back Pressure
AIAA 2005-4531 Hydrodynamic Instability
A method for simulating the cross-sectional sampling measurement of a contrast fluid evolving in a tube
AIAA 2003-5113 Improved Energy Normalization Function in
AIAA 2003-4186 Optimization of a New Telecom Board Using
American Society of Mechanical Engineers Improving Flow Circulation in Heat Sinks Using
Campus Visit The Office of Admissions invites you to visit the University of Tennessee Space Institute!
On steady rotational cyclonic flows: The viscous bidirectional vortex Joseph Majdalani1,a