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Russell Keanini

January 01, 1970

Russell Keanini is an American mechanical engineer, mathematician, physicist, and academic. He is a professor of Mechanical Engineering and Engineering Science at the William States Lee College of Engineering of the University of North Carolina at Charlotte.[1] He is the recipient of the 2020 Kirk Bryan Award for his contributions to the field of Quaternary geology.[2]

Russell Keanini
NationalityAmerican
Occupation(s)Mechanical engineer, mathematician, physicist, and academic
Academic background
EducationColorado School of Mines
University of Colorado Denver
University of California at Berkeley
ThesisNumerical and analytical studies of phase change processes (1992)
Academic work
InstitutionsUniversity of North Carolina at Charlotte

Keanini's research is focused on molecular hydrodynamics, fluid dynamics, applied math, and statistical mechanics, with a primary interest in stochastic processes, applications of Green's function methods, and the utilization of fluid mechanics. In 1998, he published an online set of course notes in Advanced Viscous Flow which corresponded to expanded homework and exam problems developed by Stephen Morris at UC Berkeley.[3]

Education and early career edit

Keanini earned his Baccalaureate degree in Chemical Engineering from the Colorado School of Mines in 1983 and pursued a Master's in Mechanical Engineering from the University of Colorado Denver in 1987. He served as a Graduate Student Researcher at the National Aeronautics and Space Administration (NASA) Ames Research Center from 1988 to 1989 and was a Member of the US Navy from 1984 to 1990. In 1992, he received his Ph.D. in Mechanical Engineering from the University of California at Berkeley with a thesis titled "Numerical and analytical studies of phase change processes".[4]

Career edit

Following his Ph.D., Keanini began his academic career as an assistant professor of Mechanical Engineering in 1992 at the University of North Carolina at Charlotte and was promoted to associate professor in 1998. Since 2007, he has been serving as a professor of Mechanical Engineering and Engineering Science at the William States Lee College of Engineering of the University of North Carolina Charlotte.[1]

At the NASA Marshall Space Flight Center, Keanini focused on studying altitude-dependent turbulent boundary layer separation and random rocket dynamics, particularly in Saturn-V-scale rockets. During his time at the Alcoa Technical Center in Pittsburgh, he developed theoretical and inverse methods for predicting and monitoring heat transfer during high-speed metal rolling processes.[5][6] Additionally, while working at the Center for Marine Science Research at UNC Wilmington, he created a predictive model to analyze circulation-driven nutrient/mass transfer in chicken embryos' bones.[7] Moreover, at the Center for Precision Metrology, UNC Charlotte, he modeled high-precision packed-bed thermal attenuators/controllers[8] and applied PIV velocimetry to vibratory finishing processes.[9]

Research edit

Keanini's research interests span the fields of fundamental fluid physics and math problems, with a particular interest in physical, analytical, and computational modeling of molecular dynamics in polar and non-polar liquids.[1]

Physical modeling of single molecule dynamics in nonpolar liquids edit

Keanini's research focused on the liquid state and the dynamics of single molecules occurring on timescales ranging from microseconds to femtoseconds (10−6 to 10−15). Employing nonequilibrium statistical and quantum mechanical arguments, he revealed two significant findings: the emergence of viscosity and the occurrence of self-diffusive molecular hopping driven by phonons in liquids. This work provided an explanation of these phenomena. Furthermore, he developed and tested a self-consistent Langevin model for describing the dynamics of single molecules in the liquid state.[10][11]

Bootstrap technique for (stochastically) estimating Green’s function edit

Keanini has worked on the application of Green's function and introduced a new technique for solving physical problems governed by linear partial differential equations, including Schrödinger's equation (quantum mechanics), Maxwell's equations (classical electromagnetism), and the linearized Navier-Stokes equations (fluid mechanics). He addressed the central limitation associated with Green's function techniques by employing stochastic processes, specifically random walkers, to estimate highly accurate and non-problem-specific Green functions.[12] At the beginning of the project, he presented three stochastic-based methods for solving unsteady scalar transport problems in bounded, single-phase domains, encompassing Dirichlet, Neumann, and/or mixed initial boundary value problems.[13] He then proposed a framework that integrated Green's function (GF) methods with techniques from the theory of stochastic processes which enabled the resolution of nonlinear evolution problems.[14]

Development of an accessible, dynamically equivalent molecular hydrodynamic analog edit

Keanini carried out a series of experimental and theoretical studies at UNC Charlotte to develop experimentally accessible analogs of liquid state molecular hydrodynamic systems and demonstrated that vibrated beds of high restitution (ceramic) grains – from short interparticle collision time and length scales to long, multiparticle flow scales – are dynamically equivalent to dense (liquid state) molecular hydrodynamic system.[15] He explored the potential[16] and use of particle image velocimetry (PIV) as a diagnostic tool for studying fundamental features associated with vibrational finishing and for developing system-independent control strategies.[9] In addition, he presented a technique to measure the kinematic viscosity of granular flows using a low Reynolds number cylinder drag experiment.[17]

Other contributions edit

Keanini has also contributed towards the physical modeling of environmentally-driven fracture processes in rocks and the development of computational and theoretical, direct and inverse models of various materials processing operations.[18][19] Since 1992, his research has focused on the analytical modeling of fluid flow problems, including secondary streaming flow, thermocapillary and buoyancy driven flow in fluid collars,[20] linear and nonlinear waves on cylindrical menisci,[21] supersonic and hypersonic flows in various geometries, shock train evolution in supersonic nozzles,[22] and turbulent boundary layer separation in rocket nozzles as well as mass and heat transfer problems. He also worked on computational optimization for planning noninvasive cryosurgeries.[23]

Awards and honors edit

Selected articles edit

  • Ortega, Joseph K.E.; Zehr, Edwin G.; Keanini, Russell G. (September 1989). "In vivo creep and stress relaxation experiments to determine the wall extensibility and yield threshold for the sporangiophores of phycomyces". Biophysical Journal. 56 (3): 465–475. Bibcode:1989BpJ....56..465O. doi:10.1016/S0006-3495(89)82694-3. PMC 1280500. PMID 19431745.
  • Keanini, R. G.; Rubinsky, B. (1990). "Plasma arc welding under normal and zero gravity". Welding Journal. 69 (6): 41–50.
  • Keanini, R. G.; Rubinsky, B. (1 November 1992). "Optimization of Multiprobe Cryosurgery". Journal of Heat Transfer. 114 (4): 796–801. doi:10.1115/1.2911885.
  • Keanini, Russell G.; Rubinsky, Boris (September 1993). "Three-dimensional simulation of the plasma arc welding process". International Journal of Heat and Mass Transfer. 36 (13): 3283–3298. doi:10.1016/0017-9310(93)90011-T.
  • Ling, Xianwu; Keanini, Russell G.; Cherukuri, H. P. (7 March 2003). "A non-iterative finite element method for inverse heat conduction problems". International Journal for Numerical Methods in Engineering. 56 (9): 1315–1334. Bibcode:2003IJNME..56.1315L. doi:10.1002/nme.614. S2CID 123075946.
  • Eppes, Martha-Cary; Keanini, Russell (June 2017). "Mechanical weathering and rock erosion by climate-dependent subcritical cracking". Reviews of Geophysics. 55 (2): 470–508. Bibcode:2017RvGeo..55..470E. doi:10.1002/2017RG000557. S2CID 134803203.

References edit

  1. ^ a b c "Russell Keanini | Mechanical Engineering and Engineering Science | UNC Charlotte". mees.charlotte.edu.
  2. ^ a b "Kirk Bryan Award – Quaternary Geology & Geomorphology Division". community.geosociety.org.
  3. ^ "Lecture notes: Advanced Fluid Mechanics | Russ Keanini".
  4. ^ Keanini, Russell Guy (1992). Numerical and analytical studies of phase change processes (Thesis). OCLC 892822306. ProQuest 304052729.[non-primary source needed]
  5. ^ Johnson, R.E.; Keanini, R.G. (March 1998). "An asymptotic model of work roll heat transfer in strip rolling". International Journal of Heat and Mass Transfer. 41 (6–7): 871–879. doi:10.1016/S0017-9310(97)00175-0.[non-primary source needed]
  6. ^ Keanini, Russell G. (January 1998). "Inverse estimation of surface heat flux distributions during high speed rolling using remote thermal measurements". International Journal of Heat and Mass Transfer. 41 (2): 275–285. doi:10.1016/S0017-9310(97)00144-0.[non-primary source needed]
  7. ^ Keanini, Russell G.; Roer, Robert D.; Dillaman, Richard M. (August 1995). "A theoretical model of circulatory interstitial fluid flow and species transport within porous cortical bone". Journal of Biomechanics. 28 (8): 901–914. doi:10.1016/0021-9290(94)00157-Y. PMID 7673258.[non-primary source needed]
  8. ^ Lawton, Kevin M.; Patterson, Steven R.; Keanini, Russell G. (1 May 2003). "Direct contact packed bed thermal gradient attenuators: Theoretical analysis and experimental observations". Review of Scientific Instruments. 74 (5): 2886–2893. Bibcode:2003RScI...74.2886L. doi:10.1063/1.1564279.[non-primary source needed]
  9. ^ a b Fleischhauer, E.; Azimi, F.; Tkacik, P.; Keanini, R.; Mullany, B. (March 2016). "Application of particle image velocimetry (PIV) to vibrational finishing". Journal of Materials Processing Technology. 229: 322–328. doi:10.1016/j.jmatprotec.2015.09.017.[non-primary source needed]
  10. ^ Keanini, Russell G.; Dahlberg, Jerry; Tkacik, Peter T. (28 January 2021). "On the physical mechanisms underlying single molecule dynamics in simple liquids". Scientific Reports. 11 (1): 2528. doi:10.1038/s41598-021-82112-8. PMC 7843658. PMID 33510369.[non-primary source needed]
  11. ^ "Molecular hopping in solid-like liquids: Understanding the self-diffusion and viscosity of liquid molecules". 3 September 2021.
  12. ^ Keanini, Russell G.; Dahlberg, Jerry; Brown, Philip; Morovati, Mehdi; Moradi, Hamidreza; Jacobs, Donald; Tkacik, Peter T. (November 2023). "Stochastic estimation of Green's functions with application to diffusion and advection-diffusion-reaction problems". Applied Mathematics and Computation. 457: 128186. arXiv:2206.02521. doi:10.1016/j.amc.2023.128186.[non-primary source needed]
  13. ^ Keanini, R.G (8 February 2007). "Random walk methods for scalar transport problems subject to Dirichlet, Neumann and mixed boundary conditions". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 463 (2078): 435–460. Bibcode:2007RSPSA.463..435K. doi:10.1098/rspa.2006.1769. S2CID 2265032.[non-primary source needed]
  14. ^ Keanini, R.G. (April 2011). "Green's function-stochastic methods framework for probing nonlinear evolution problems: Burger's equation, the nonlinear Schrödinger's equation, and hydrodynamic organization of near-molecular-scale vorticity". Annals of Physics. 326 (4): 1002–1031. arXiv:1007.2125. Bibcode:2011AnPhy.326.1002K. doi:10.1016/j.aop.2010.12.004. S2CID 119658044.[non-primary source needed]
  15. ^ Keanini, R. G.; Tkacik, Peter T.; Fleischhauer, Eric; Shahinian, Hossein; Sholar, Jodie; Azimi, Farzad; Mullany, Brid (31 January 2017). "Macroscopic liquid-state molecular hydrodynamics". Scientific Reports. 7 (1): 41658. Bibcode:2017NatSR...741658K. doi:10.1038/srep41658. PMC 5282555. PMID 28139711.[non-primary source needed]
  16. ^ Mullany, B.; Shahinian, H.; Navare, J.; Azimi, F.; Fleischhauer, E.; Tkacik, P.; Keanini, R. (2017). "The application of computational fluid dynamics to vibratory finishing processes". CIRP Annals. 66 (1): 309–312. doi:10.1016/j.cirp.2017.04.087.[non-primary source needed]
  17. ^ Fleischhauer, Eric; Dahlberg, Jerry L; Solomon, Jason M; Keanini, Russell G; Tkacik, Peter T (1 May 2019). "Kinematic viscosity measurement of granular flows via low Reynolds number cylinder drag experiment". Measurement Science and Technology. 30 (5): 055904. Bibcode:2019MeScT..30e5904F. doi:10.1088/1361-6501/ab08cf. S2CID 128337952.[non-primary source needed]
  18. ^ Eppes, Martha Cary; Aldred, Jennifer; Berberich, Samantha; Dahlquist, Maxwell P.; Evans, Sarah G.; Keanini, Russell; Moser, Faye; Morovati, Mehdi; Porson, Steven; Rasmussen, Monica; Rinehart, Alex; Shaanan, Uri (12 December 2022). "Standardized field methods for fracture-focused surface processes research". doi:10.5194/esurf-2022-61. {{cite journal}}: Cite journal requires |journal= (help)[non-primary source needed]
  19. ^ Eppes, Martha-Cary; Heap, Mike; Baud, Patrick; Bonami, Thomas; Dahlquist, Max; Keanini, Russell; LaCroix, Cyril; Rasmussen, Monica; Rinehart, Alex; El Alaoui, Youness; Windenberger, Adrien (15 May 2023). "Testing natural fracture growth-fracturing resilience feedbacks in rock". Egu General Assembly Conference Abstracts. Bibcode:2023EGUGA..25.5158E. doi:10.5194/egusphere-egu23-5158.[non-primary source needed]
  20. ^ Keanini, Russell G. (July 1994). "Thermocapillary, buoyancy and shear-driven flow within thin annular fluid collars". International Journal of Heat and Mass Transfer. 37 (11): 1579–1591. doi:10.1016/0017-9310(94)90174-0.[non-primary source needed]
  21. ^ "Linear and nonlinear waves on coating entrance menisci Abstract" (PDF).[full citation needed][non-primary source needed]
  22. ^ Keanini, R. G.; Nortey, T. D.; Thorsett-Hill, Karen; Srivastava, N.; Hellman, Sam; Tkacik, P. T.; Knight, P. Douglas (2011). "Shock-Induced Turbulent Boundary Layer Separation in Over-Expanded Rocket Nozzles: Physics, Models, Random Side Loads, and the Diffusive Character of Stochastic Rocket Ascent". Mass Transfer – Advanced Aspects. doi:10.5772/22597. ISBN 978-953-307-636-2. S2CID 51857619.[non-primary source needed][predatory publisher]
  23. ^ Keanini, R. G.; Rubinsky, B. (1 November 1992). "Optimization of Multiprobe Cryosurgery". Journal of Heat Transfer. 114 (4): 796–801. doi:10.1115/1.2911885.[non-primary source needed]

January 01, 1970
russell, keanini, american, mechanical, engineer, mathematician, physicist, academic, professor, mechanical, engineering, engineering, science, william, states, college, engineering, university, north, carolina, charlotte, recipient, 2020, kirk, bryan, award, . Russell Keanini is an American mechanical engineer mathematician physicist and academic He is a professor of Mechanical Engineering and Engineering Science at the William States Lee College of Engineering of the University of North Carolina at Charlotte 1 He is the recipient of the 2020 Kirk Bryan Award for his contributions to the field of Quaternary geology 2 Russell KeaniniNationalityAmericanOccupation s Mechanical engineer mathematician physicist and academicAcademic backgroundEducationColorado School of MinesUniversity of Colorado DenverUniversity of California at BerkeleyThesisNumerical and analytical studies of phase change processes 1992 Academic workInstitutionsUniversity of North Carolina at Charlotte Keanini s research is focused on molecular hydrodynamics fluid dynamics applied math and statistical mechanics with a primary interest in stochastic processes applications of Green s function methods and the utilization of fluid mechanics In 1998 he published an online set of course notes in Advanced Viscous Flow which corresponded to expanded homework and exam problems developed by Stephen Morris at UC Berkeley 3 Contents 1 Education and early career 2 Career 3 Research 3 1 Physical modeling of single molecule dynamics in nonpolar liquids 3 2 Bootstrap technique for stochastically estimating Green s function 3 3 Development of an accessible dynamically equivalent molecular hydrodynamic analog 3 4 Other contributions 4 Awards and honors 5 Selected articles 6 ReferencesEducation and early career editKeanini earned his Baccalaureate degree in Chemical Engineering from the Colorado School of Mines in 1983 and pursued a Master s in Mechanical Engineering from the University of Colorado Denver in 1987 He served as a Graduate Student Researcher at the National Aeronautics and Space Administration NASA Ames Research Center from 1988 to 1989 and was a Member of the US Navy from 1984 to 1990 In 1992 he received his Ph D in Mechanical Engineering from the University of California at Berkeley with a thesis titled Numerical and analytical studies of phase change processes 4 Career editFollowing his Ph D Keanini began his academic career as an assistant professor of Mechanical Engineering in 1992 at the University of North Carolina at Charlotte and was promoted to associate professor in 1998 Since 2007 he has been serving as a professor of Mechanical Engineering and Engineering Science at the William States Lee College of Engineering of the University of North Carolina Charlotte 1 At the NASA Marshall Space Flight Center Keanini focused on studying altitude dependent turbulent boundary layer separation and random rocket dynamics particularly in Saturn V scale rockets During his time at the Alcoa Technical Center in Pittsburgh he developed theoretical and inverse methods for predicting and monitoring heat transfer during high speed metal rolling processes 5 6 Additionally while working at the Center for Marine Science Research at UNC Wilmington he created a predictive model to analyze circulation driven nutrient mass transfer in chicken embryos bones 7 Moreover at the Center for Precision Metrology UNC Charlotte he modeled high precision packed bed thermal attenuators controllers 8 and applied PIV velocimetry to vibratory finishing processes 9 Research editKeanini s research interests span the fields of fundamental fluid physics and math problems with a particular interest in physical analytical and computational modeling of molecular dynamics in polar and non polar liquids 1 Physical modeling of single molecule dynamics in nonpolar liquids edit Keanini s research focused on the liquid state and the dynamics of single molecules occurring on timescales ranging from microseconds to femtoseconds 10 6 to 10 15 Employing nonequilibrium statistical and quantum mechanical arguments he revealed two significant findings the emergence of viscosity and the occurrence of self diffusive molecular hopping driven by phonons in liquids This work provided an explanation of these phenomena Furthermore he developed and tested a self consistent Langevin model for describing the dynamics of single molecules in the liquid state 10 11 Bootstrap technique for stochastically estimating Green s function edit Keanini has worked on the application of Green s function and introduced a new technique for solving physical problems governed by linear partial differential equations including Schrodinger s equation quantum mechanics Maxwell s equations classical electromagnetism and the linearized Navier Stokes equations fluid mechanics He addressed the central limitation associated with Green s function techniques by employing stochastic processes specifically random walkers to estimate highly accurate and non problem specific Green functions 12 At the beginning of the project he presented three stochastic based methods for solving unsteady scalar transport problems in bounded single phase domains encompassing Dirichlet Neumann and or mixed initial boundary value problems 13 He then proposed a framework that integrated Green s function GF methods with techniques from the theory of stochastic processes which enabled the resolution of nonlinear evolution problems 14 Development of an accessible dynamically equivalent molecular hydrodynamic analog edit Keanini carried out a series of experimental and theoretical studies at UNC Charlotte to develop experimentally accessible analogs of liquid state molecular hydrodynamic systems and demonstrated that vibrated beds of high restitution ceramic grains from short interparticle collision time and length scales to long multiparticle flow scales are dynamically equivalent to dense liquid state molecular hydrodynamic system 15 He explored the potential 16 and use of particle image velocimetry PIV as a diagnostic tool for studying fundamental features associated with vibrational finishing and for developing system independent control strategies 9 In addition he presented a technique to measure the kinematic viscosity of granular flows using a low Reynolds number cylinder drag experiment 17 Other contributions edit Keanini has also contributed towards the physical modeling of environmentally driven fracture processes in rocks and the development of computational and theoretical direct and inverse models of various materials processing operations 18 19 Since 1992 his research has focused on the analytical modeling of fluid flow problems including secondary streaming flow thermocapillary and buoyancy driven flow in fluid collars 20 linear and nonlinear waves on cylindrical menisci 21 supersonic and hypersonic flows in various geometries shock train evolution in supersonic nozzles 22 and turbulent boundary layer separation in rocket nozzles as well as mass and heat transfer problems He also worked on computational optimization for planning noninvasive cryosurgeries 23 Awards and honors edit2020 Kirk Bryan Award Geological Society of America 2 Selected articles editOrtega Joseph K E Zehr Edwin G Keanini Russell G September 1989 In vivo creep and stress relaxation experiments to determine the wall extensibility and yield threshold for the sporangiophores of phycomyces Biophysical Journal 56 3 465 475 Bibcode 1989BpJ 56 465O doi 10 1016 S0006 3495 89 82694 3 PMC 1280500 PMID 19431745 Keanini R G Rubinsky B 1990 Plasma arc welding under normal and zero gravity Welding Journal 69 6 41 50 Keanini R G Rubinsky B 1 November 1992 Optimization of Multiprobe Cryosurgery Journal of Heat Transfer 114 4 796 801 doi 10 1115 1 2911885 Keanini Russell G Rubinsky Boris September 1993 Three dimensional simulation of the plasma arc welding process International Journal of Heat and Mass Transfer 36 13 3283 3298 doi 10 1016 0017 9310 93 90011 T Ling Xianwu Keanini Russell G Cherukuri H P 7 March 2003 A non iterative finite element method for inverse heat conduction problems International Journal for Numerical Methods in Engineering 56 9 1315 1334 Bibcode 2003IJNME 56 1315L doi 10 1002 nme 614 S2CID 123075946 Eppes Martha Cary Keanini Russell June 2017 Mechanical weathering and rock erosion by climate dependent subcritical cracking Reviews of Geophysics 55 2 470 508 Bibcode 2017RvGeo 55 470E doi 10 1002 2017RG000557 S2CID 134803203 References edit a b c Russell Keanini Mechanical Engineering and Engineering Science UNC Charlotte mees charlotte edu a b Kirk Bryan Award Quaternary Geology amp Geomorphology Division community geosociety org Lecture notes Advanced Fluid Mechanics Russ Keanini Keanini Russell Guy 1992 Numerical and analytical studies of phase change processes Thesis OCLC 892822306 ProQuest 304052729 non primary source needed Johnson R E Keanini R G March 1998 An asymptotic model of work roll heat transfer in strip rolling International Journal of Heat and Mass Transfer 41 6 7 871 879 doi 10 1016 S0017 9310 97 00175 0 non primary source needed Keanini Russell G January 1998 Inverse estimation of surface heat flux distributions during high speed rolling using remote thermal measurements International Journal of Heat and Mass Transfer 41 2 275 285 doi 10 1016 S0017 9310 97 00144 0 non primary source needed Keanini Russell G Roer Robert D Dillaman Richard M August 1995 A theoretical model of circulatory interstitial fluid flow and species transport within porous cortical bone Journal of Biomechanics 28 8 901 914 doi 10 1016 0021 9290 94 00157 Y PMID 7673258 non primary source needed Lawton Kevin M Patterson Steven R Keanini Russell G 1 May 2003 Direct contact packed bed thermal gradient attenuators Theoretical analysis and experimental observations Review of Scientific Instruments 74 5 2886 2893 Bibcode 2003RScI 74 2886L doi 10 1063 1 1564279 non primary source needed a b Fleischhauer E Azimi F Tkacik P Keanini R Mullany B March 2016 Application of particle image velocimetry PIV to vibrational finishing Journal of Materials Processing Technology 229 322 328 doi 10 1016 j jmatprotec 2015 09 017 non primary source needed Keanini Russell G Dahlberg Jerry Tkacik Peter T 28 January 2021 On the physical mechanisms underlying single molecule dynamics in simple liquids Scientific Reports 11 1 2528 doi 10 1038 s41598 021 82112 8 PMC 7843658 PMID 33510369 non primary source needed Molecular hopping in solid like liquids Understanding the self diffusion and viscosity of liquid molecules 3 September 2021 Keanini Russell G Dahlberg Jerry Brown Philip Morovati Mehdi Moradi Hamidreza Jacobs Donald Tkacik Peter T November 2023 Stochastic estimation of Green s functions with application to diffusion and advection diffusion reaction problems Applied Mathematics and Computation 457 128186 arXiv 2206 02521 doi 10 1016 j amc 2023 128186 non primary source needed Keanini R G 8 February 2007 Random walk methods for scalar transport problems subject to Dirichlet Neumann and mixed boundary conditions Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences 463 2078 435 460 Bibcode 2007RSPSA 463 435K doi 10 1098 rspa 2006 1769 S2CID 2265032 non primary source needed Keanini R G April 2011 Green s function stochastic methods framework for probing nonlinear evolution problems Burger s equation the nonlinear Schrodinger s equation and hydrodynamic organization of near molecular scale vorticity Annals of Physics 326 4 1002 1031 arXiv 1007 2125 Bibcode 2011AnPhy 326 1002K doi 10 1016 j aop 2010 12 004 S2CID 119658044 non primary source needed Keanini R G Tkacik Peter T Fleischhauer Eric Shahinian Hossein Sholar Jodie Azimi Farzad Mullany Brid 31 January 2017 Macroscopic liquid state molecular hydrodynamics Scientific Reports 7 1 41658 Bibcode 2017NatSR 741658K doi 10 1038 srep41658 PMC 5282555 PMID 28139711 non primary source needed Mullany B Shahinian H Navare J Azimi F Fleischhauer E Tkacik P Keanini R 2017 The application of computational fluid dynamics to vibratory finishing processes CIRP Annals 66 1 309 312 doi 10 1016 j cirp 2017 04 087 non primary source needed Fleischhauer Eric Dahlberg Jerry L Solomon Jason M Keanini Russell G Tkacik Peter T 1 May 2019 Kinematic viscosity measurement of granular flows via low Reynolds number cylinder drag experiment Measurement Science and Technology 30 5 055904 Bibcode 2019MeScT 30e5904F doi 10 1088 1361 6501 ab08cf S2CID 128337952 non primary source needed Eppes Martha Cary Aldred Jennifer Berberich Samantha Dahlquist Maxwell P Evans Sarah G Keanini Russell Moser Faye Morovati Mehdi Porson Steven Rasmussen Monica Rinehart Alex Shaanan Uri 12 December 2022 Standardized field methods for fracture focused surface processes research doi 10 5194 esurf 2022 61 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help non primary source needed Eppes Martha Cary Heap Mike Baud Patrick Bonami Thomas Dahlquist Max Keanini Russell LaCroix Cyril Rasmussen Monica Rinehart Alex El Alaoui Youness Windenberger Adrien 15 May 2023 Testing natural fracture growth fracturing resilience feedbacks in rock Egu General Assembly Conference Abstracts Bibcode 2023EGUGA 25 5158E doi 10 5194 egusphere egu23 5158 non primary source needed Keanini Russell G July 1994 Thermocapillary buoyancy and shear driven flow within thin annular fluid collars International Journal of Heat and Mass Transfer 37 11 1579 1591 doi 10 1016 0017 9310 94 90174 0 non primary source needed Linear and nonlinear waves on coating entrance menisci Abstract PDF full citation needed non primary source needed Keanini R G Nortey T D Thorsett Hill Karen Srivastava N Hellman Sam Tkacik P T Knight P Douglas 2011 Shock Induced Turbulent Boundary Layer Separation in Over Expanded Rocket Nozzles Physics Models Random Side Loads and the Diffusive Character of Stochastic Rocket Ascent Mass Transfer Advanced Aspects doi 10 5772 22597 ISBN 978 953 307 636 2 S2CID 51857619 non primary source needed predatory publisher Keanini R G Rubinsky B 1 November 1992 Optimization of Multiprobe Cryosurgery Journal of Heat Transfer 114 4 796 801 doi 10 1115 1 2911885 non primary source needed Retrieved from https en wikipedia org w index php title Russell Keanini amp oldid 1180313438, wikipedia, wiki, book, books, library,

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