Publications

Books

2. Marshall, J.S., Li, S., Adhesive Particle Flow – A Discrete Element Approach, Cambridge University Press, New York (2014) (ISBN: 978-1-107-03207-1)

1. Marshall, J.S., Inviscid Incompressible Flow, John Wiley & Sons, New York (2001) (ISBN: 0-471-37566-7).

Book Chapters

4.   Yang, M., Li, S., Liu, G., and Marshall, J.S., “Investigation of dynamic behavior of a particle-loaded single fiber using discrete element methods,” In: Discrete Element Modelling of Particulate Media. C.Y. Wu (ed.), RSC Publishing, pp. 103-112 (2012).

3.   Marshall, J.S., Chesnutt, J.K.W. and Udaykumar, H.S., “Mesoscale analysis of blood flow,” In: Image-based Computational Modeling of the Human Circulatory and Pulmonary Systems, K.B. Chandran, H.S. Udaykumar, J.Reinhardt eds., Springer Publications, New York, Chapter 6, pp. 235-266 (2011).

2.   Marshall, J.S. and Ettema, R., “Contact-line instabilities of driven liquid films,” Advances in Fluid Mechanics, Vol. 41 (Instability of Flows, M. Rahman ed.), WIT Press, Southampton, England, pp. 1-41 (2004).

1.   Marshall, J.S. and Beninati, M.L., “Turbulence evolution in vortex-dominated flows,” Advances in Fluid Mechanics, Vol. 25 (Nonlinear Instability, Chaos and Turbulence II, L. Debnath and D.N. Riahi eds.), WIT Press, Southampton, England, pp. 1-40 (2000).

Journal Papers

124.  Marshall, J.S., Arnold, C., Curran, K., and Chivers, T., “Statistics of particle diffusion subject to oscillatory flow in a porous bed,” Chemical Engineering Science, Vol. 231, 116239 (2021).

123.  Seksinsky, D., and Marshall, J.S., “Droplet impingement on a surface at low Reynolds number,” Journal of Fluids Engineering, Vol. 143(2), 021304 (16 pages)(2021).

122.  Jin, X. and Marshall, J.S., “Mechanics of biofilms formed of bacteria with fimbriae appendages,” PLoS ONE, Vol. 15, No. 12, e0243280 (22 pages)(2020).

121.  Jin, X. and Marshall, J.S., “Influence of cell interaction forces on growth of bacterial biofilms,” Physics of Fluids, Vol. 32(9), 091902 (19 pages)(2020).

120.  Jin, X., Marshall, J.S., and Wargo, M.J., “Hybrid model of bacterial biofilm growth,” Bulletin of Mathematical Biology, Vol. 82, 27 (32 pages) (2020).

119.  Chen, S., Li, S., and Marshall, J.S., “Exponential scaling in early-stage agglomeration of adhesive particles in turbulence,” Physical Review Fluids, Vol. 4, 024304 (17 pages)(2019).

118.  Mahian, O., Kolsi, L., Amani, M., Estellé, P., Ahmadi, G., Kleinstreuer, C., Marshall, J.S., Taylor, R.A., Abu-Nada, E., Rashidi, S., Niazmand, H., Wongwises, S., Hayat, T., Kasaeian, A., and Pop, I., “Recent advances in modeling and simulation of nanofluid flows. Part II: Applications,” Physics Reports, Vol. 791, pp. 1-59 (2019).

117.  Mahian, O., Kolsi, L., Amani, M., Estellé, P., Ahmadi, G., Kleinstreuer, C., Marshall, J.S., Siavashi, M., Taylor, R.A., Niazmand, H., Wongwises, S., Hayat, T., Kolanjiyil, A., Kasaeian, A., and Pop, I., “Recent advances in modeling and simulation of nanofluid flows. Part I: Fundamentals and theory,” Physics Reports, Vol. 790, pp. 1-48 (2019).

116.  Marshall, J.S., “Local stochastic vortex structure method for synthetic turbulence computation in flight simulators,” AIAA Journal, Vol. 57, No. 2, pp. 543-552 (2019).

115.  Dizaji, F., Marshall, J.S., and Grant, J.R., “Collision and breakup of fractal particle agglomerates in a shear flow,” Journal of Fluid Mechanics, Vol. 862, pp. 592-623 (2019).

114.  Ma, D., Marshall, J.S., and Wu, J.R., “Measurement of ultrasound-enhanced diffusion coefficient of nanoparticles in an agarose hydrogel,” Journal of the Acoustical Society of America, Vol. 144, No.6, pp. 3496-3502 (2018).

113.  Marshall, J.S., “Modeling and sensitivity analysis of particle impact with a wall with integrated damping mechanisms,” Powder Technology, Vol. 339, pp. 17-24 (2018).

112.  Dizaji, F.F., Marshall, J.S., and Grant, J.R., “A stochastic vortex structure method for interacting particles in turbulent shear flows,” Physics of Fluids, Vol. 30, 013301 (16 pages)(2018).

111.  Saunders, D.C., Marshall, J.S., and Hines, P.D., “The effect of time scales on wind farm power variability with nonlinear model predictive control,” Wind Energy, Vol. 20, No. 11, pp. 1891-1908 (2017).

110.  Dizaji, F.F., and Marshall, J.S., “On the significance of two-way coupling in simulation of turbulent particle agglomeration,” Powder Technology, Vol. 318, pp. 83-94 (2017).

109. Jin, X., and Marshall, J.S., “The role of fluid turbulence on contact electrification of suspended particles,” Journal of Electrostatics, Vol. 87, pp. 217-227 (2017).

108.  Myers, O., Del Maestro, A., Wu, J.R., and Marshall, J.S., “Long-range interacting  pendula: A simple model for understanding complex dynamics of charged particles in an electric curtain device,” Journal of Applied Physics, Vol. 121, 154501 (10 pages)(2017).

107.  Saunders, D.C., and Marshall, J.S., “Transient lift force on a blade during cutting of a vortex with non-zero axial flow,” Journal of Fluid Mechanics, Vol. 819, pp. 258-284 (2017).

106.  Dizaji, F.F., and Marshall, J.S., “An accelerated stochastic vortex structure method for particle collision and agglomeration in homogeneous turbulence,” Physics of Fluids, Vol. 28, 113301 (24 pages) (2016).

105. Green, A.M., Marshall, J.S., Ma, D., and Wu, J.R., “Acoustic streaming and thermal instability of flow generated by ultrasound in a cylindrical container,” Physics of Fluids, Vol. 28, 104105 (19 pages) (2016).

104.  Marshall, J.S., “A model of ultrasound-enhanced diffusion in a biofilm,” Journal of the Acoustical Society of America, Vol.139, No. 6, pp. EL228-EL233 (2016).

103.  Marshall, J.S. and Wu, J.R., “Acoustic streaming, fluid mixing, and particle transport by a Gaussian ultrasound beam in a cylindrical container,” Physics of Fluids, Vol. 27, 103601 (21 pages) (2015).  

102. Ma, D., Green, A.M., Willsey, G.G., Marshall, J.S., Wargo, M.J., and Wu, J.R., “Effects of acoustic streaming from moderate-intensity pulsed ultrasound for enhancing biofilm mitigation effectiveness of drug-loaded liposomes,” Journal of the Acoustical Society of America, Vol. 138, No. 2, pp. 1043-1051 (2015).

101.  Saunders, D.C., and Marshall, J.S., “Vorticity reconnection during vortex cutting by a blade,” Journal of Fluid Mechanics, Vol. 782, pp. 37-62 (2015).

100. Yang, M., Li, S., and Marshall, J.S., “Effects of long-range particle-particle hydrodynamic interaction on the settling of aerosol particle clouds,” Journal of Aerosol Science, Vol. 90, pp. 154-160 (2015).

99. Green, A.M. and Marshall, J.S., “Structure and dynamics of bounded vortex flows with different nozzle impingement heights,” ASME Journal of Fluids Engineering, Vol. 137, 101202 (14 pages) (2015).

98. Ghazi, C.J. and Marshall, J.S., “Influence of the entrance region on particle capture during transport through a crack,” Aerosol Science and Technology, Vol. 49, No. 3, pp. 134-143  (2015).

97. Faletra, M., Marshall, J.S., Yang, M., and Li, S., “Particle segregation in falling polydisperse suspension droplets,” Journal of Fluid Mechanics, Vol. 769, pp. 79-102 (2015).

96. Marshall, J.S. and Renjitham, S., “Simulation of particulate fouling at a microchannel entrance region,” Microfluidics and Nanofluidics, Vol. 18, No. 2, pp. 253-265 (2015).

95. Marshall, J.S. and Fuhrmann, A., “Effect of rainfall transients on thermal and moisture exposure of underground electric cables,” International Journal of Heat and Mass Transfer, Vol. 80, pp. 660-672 (2015).

94. Myers, O., Wu, J., Marshall, J.S., and Danforth, C.M., “Computational studies of multiple-particle nonlinear dynamics in a spatio-temporally periodic potential,” Journal of Applied Physics, Vol. 115, 244908 (8 pages) (2014).

93. Ghazi, C.J. and Marshall, J.S., “A CO2 tracer-gas method for local air leakage detection and characterization,” Flow Measurement and Instrumentation, Vol. 38, pp. 72-81 (2014).  

92. Faletra, M., Palmer, N. and Marshall, J.S., “Effectiveness of opinion influence approaches in highly clustered online social networks,” Advances in Complex Systems, Vol. 17. No. 2, 1450008 (26 pages) (2014).

91. Marshall, J.S., “Capillary torque on a rolling particle in the presence of a liquid film at small capillary numbers,” Chemical Engineering Science, Vol. 108, pp. 87-93 (2014).

90. Myers O., Wu, J.R., and Marshall, J.S., “Nonlinear dynamics of particles excited by an electric curtain,” Journal of Applied Physics, Vol. 114, 154907 (13 pages) (2013).

89. Sala, K. and Marshall, J.S., “Stochastic vortex structure method for modeling particle clustering and collisions in homogeneous turbulence,” Physics of Fluids, Vol. 25, No. 10, 103301 (21 pages) (2013).

88. Marshall, J.S. and Sala, K., “Comparison of methods for computing the concentration field of a particulate flow,” International Journal of Multiphase Flow, Vol. 56, pp. 4-14 (2013).

87. Chesnutt, J.K.R. and Marshall, J.S., “Simulation of particle separation on an inclined electric curtain,” IEEE Transactions on Industry Applications, Vol. 49, No. 3, pp. 1104-1112 (2013).

86. Marshall, J.S., Hines, P., Zhang, J.D., Minervini, F., and Renjitham, S., “Modeling the impact of electric vehicle charging on transient heat transfer around underground cables,” Electric Power Systems Research, Vol. 97, pp. 76-83 (2013).

85. Fuhrmann, A., Marshall, J.S. and Wu, J.-R., “Effect of acoustic levitation force on aerodynamic particle removal from a surface,” Applied Acoustics, Vol. 74, pp. 535-543 (2013).

84. Maynard, A.B. and Marshall, J.S., “Force on a small particle attached to a plane wall in a Hiemenz straining flow,” ASME Journal of Fluids Engineering 134, 114502 (5 pages) (2012).

83. Candon, S. and Marshall, J.S., “Vortex ring deformation, capture and entrainment by a columnar vortex,” Physics of Fluids, Vol. 24, No. 9, 093604 (21 pages) (2012).

82. Renjitham, S. and Marshall, J.S., “Integral vorticity transport method on an overset grid,” International Journal for Numerical Methods in Fluids, Vol. 69, pp. 567-589 (2012).

81. Qian, D., Marshall, J.S. and Frolik, J., “Control analysis for solar panel dust mitigation using an electric curtain,” Renewable Energy, Vol. 41, pp. 134-144 (2012).

80. Schade, P. and Marshall, J.S., “Capillary effects on a particle rolling on a plane surface in the presence of a thin liquid film,” Experiments in Fluids, Vol. 51, No. 6, pp. 1645-1655 (2011).

79. Li, S., Marshall, J.S., Liu, G. and Yao, Q., “Adhesive particulate flow: the discrete element method and its application in energy and environmental engineering,” Progress in Energy and Combustion Science, Vol. 37, No. 6, pp. 633-668 (2011).

78. Maynard, A.B. and Marshall, J.S., “Particle removal from a surface by a bounded vortex flow,” International Journal of Heat and Fluid Flow, Vol. 32, No. 5, pp. 901-914 (2011).

77. Huang, Y. and Marshall, J.S., “Experiments on bounded vortex flows and related particle transport,” ASME Journal of Fluids Engineering, Vol. 133, No. 7, 071204 (9 pages) (2011).

76. Eppstein, M.J., Grover, D.K., Marshall, J.S. and Rizzo, D.M., “An agent-based model to study market penetration of plug-in hybrid electric vehicles,” Energy Policy, Vol. 39, pp. 3789-3802 (2011). [Erratum, Energy Policy, 2012]

75. Marshall, J.S., “Viscous damping force during head-on collision of two spherical particles,” Physics of Fluids, Vol. 23, No. 1, 013305 (9 pages) (2011).

74. Marshall, J.S. and Sala, K., “A stochastic Lagrangian approach for simulating the effect of turbulent mixing on algae growth rate in photobioreactors,” Chemical Engineering Science, Vol. 66, pp. 384-392 (2011).

73. Liu, G., Marshall, J.S., Li, S., and Yao, Q. “Discrete-element method for particle capture by a body in an electrostatic field,” International Journal for Numerical Methods in Engineering, Vol. 84, No. 13, pp. 1589-1612 (2010).

72. Meunier, B.M., Watts, P.M., Marshall, J.S., Dechene, R.L., Du, W. and Newton, R.E.,“Vibration sensor for particle concentration measurement in pneumatic pipeline flows,” Measurement Science and Technology, Vol. 21, 125401 (10 pages) (2010).

71. Hewitt, G.F. and Marshall, J.S., “Particle focusing in suspension flow through a corrugated tube,” Journal of Fluid Mechanics, Vol. 660, pp. 258-281 (2010).

70. Liu, G. and Marshall, J.S., “Particle transport by standing waves on an electric curtain,” Journal of Electrostatics, Vol. 68, pp. 289-298 (2010).

69. Marshall, J.S. and Huang, Y., “Simulation of light-limited algae growth in homogeneous turbulence,” Chemical Engineering Science, Vol. 65, No. 12, pp. 3865-3875 (2010).

68. Chesnutt, J.K.W. and Marshall, J.S., “Structural analysis of red blood cell aggregates under shear flow,” Annals of Biomedical Engineering, Vol. 38, No. 3, pp. 714-728 (2010).

67. Liu, G. and Marshall, J.S., “Effect of particle adhesion and interactions on motion by traveling waves on an electric curtain,” Journal of Electrostatics, Vol. 68, pp. 179-189 (2010).

66. Mousel, J. and Marshall, J.S., “Aggregate growth and breakup in particulate suspension flow through a micro-nozzle,” Microfluidics and Nanofluidics, Vol. 8, No. 2, pp. 171-186 (2010).

65. Yergey, B.A., Beninati, M.L., and Marshall, J.S., “Sensitivity of incipient particle motion to fluid flow penetration depth within a packed bed,” Sedimentology, Vol. 57, pp. 418-428 (2010).

64. Chesnutt, J.K.W. and Marshall, J.S., “Effect of particle collisions and aggregation on red blood cell passage through a bifurcation,” Microvascular Research, Vol. 78, pp. 301-313 (2009).

63. Chesnutt, J.K.W. and Marshall, J.S., “Blood cell transport and aggregation using discrete ellipsoidal particles,” Computers & Fluids, Vol. 38, pp. 1782-1794 (2009).

62. Marshall, J.S., “Particle clustering in periodically-forced straining flows,” Journal of Fluid Mechanics,Vol. 624, pp. 69-100 (2009).

61. Marshall, J.S., “Discrete-element modeling of particulate aerosol flows,” Journal of Computational Physics, Vol. 228, pp. 1541-1561 (2009).

60. AlMomani, T., Udaykumar, H.S., Marshall, J.S. and Chandran, K.B., “Micro-scale dynamic simulation of erythrocyte-platelet interaction in blood flow,” Annals of Biomedical Engineering, Vol. 36, No. 6, pp. 905-920 (2008).

59. Zhao, X.-L., Li, S., Liu, G., Yao, Q., and Marshall, J.S., “DEM simulation of the particle dynamics in two-dimensional spouted beds,” Powder Technology, Vol. 184, No. 2, pp. 205-213 (2008).

58. Zhao, Y. and Marshall, J.S., “Spin coating of a colloidal suspension,” Physics of Fluids , Vol 20, No. 4, 043302 (15 pages) (2008). (Also published in Virtual Journal of Nanoscale Science & Technology, Vol. 17, No. 16, April 2008.)

57. Li, S.Q. and Marshall, J.S., “Discrete-element simulation of micro-particle deposition on a cylindrical fiber in an array,” Journal of Aerosol Science, Vol. 38, pp. 1031-1046 (2007).

56. Marshall, J.S., “Particle aggregation and capture by walls in a particulate aerosol channel flow,” Journal of Aerosol Science, Vol. 38, pp. 333-351 (2007).

55. Liu, X. and Marshall, J.S., “Amplification of three-dimensional perturbations during parallel vortex-cylinder interaction,” Journal of Fluid Mechanics, Vol. 573, pp. 457-478 (2007).

54. Li, S., Marshall, J.S., Ratner, A., Yao, Q., “Molecular dynamics simulation of particle deposition and agglomeration in two-phase dilute flow,” Journal of Engineering Thermophysics, Vol. 28, No. 6, pp. 1035-1038 (2007).

53. Krishnan, S., Udaykumar, H.S. , Marshall, J.S. and Chandran, K.B., “Dynamic study of platelet activation during mechanical heart valve operation,” Annals of Biomedical Engineering, Vol. 34, pp. 1519-1534 (2006).

52. Marshall, J.S., “Effect of particle collisions on the expulsion of heavy particles from a vortex core,” Physics of Fluids, Vol.18, No.11, 113301 (12 pages) (2006).

51. Zhao, Y. and Marshall, J.S., “Dynamics of driven liquid films on heterogeneous surfaces,” Journal of Fluid Mechanics, Vol. 559, pp. 355-378 (2006).

50. Grant, J.R. and Marshall, J.S., “On the diffusion velocity for a three-dimensional vorticity field,” Theoretical and Computational Fluid Dynamics, Vol. 19, No. 6, pp. 377-390 (2005).

49. Marshall, J.S. and Beninati, M.L., “External turbulence interaction with a columnar vortex,” Journal of Fluid Mechanics, Vol. 540, pp. 221-245 (2005).

48. McAlister, G., Ettema, R. and Marshall, J.S., “Wind-driven rivulet break-off and droplet flows in microgravity and terrestrial gravity conditions,” ASME Journal of Fluids Engineering, Vol. 127, pp. 257-266 (2005).

47. Marshall, J.S. and Wang, S., “Contact-line fingering and rivulet formation in the presence of surface contamination,” Computers & Fluids, Vol. 34, No. 6, pp. 664-683 (2005).

46. Marshall, J.S., “Particle dispersion in a turbulent vortex core,” Physics of Fluids, Vol. 17, No. 2, 025104 (15 pages) (2005).

45. Beninati, M.L. and Marshall, J.S., “An experimental study of the effect of free-stream turbulence on a trailing vortex,” Experiments in Fluids, Vol. 38, No. 2, pp. 244-257 (2005).

44. Coton, F.N., Marshall, J.S., McD. Galbraith, R.A., and Green, R.B., “Helicopter tail rotor orthogonal blade-vortex interaction,” Progress in Aerospace Sciences , Vol. 40, No. 7, pp. 453-486 (2004).

43. Thakur, A., Liu, X., and Marshall, J.S., “Wake flow of single and multiple yawed cylinders,” ASME Journal of Fluids Engineering, Vol. 126, No. 5, pp. 861-870 (2004).

42. Liu, X. and Marshall, J.S., “Blade penetration into a vortex core with and without axial core flow,” Journal of Fluid Mechanics, Vol. 519, pp. 81-103 (2004).

41. Marshall, J.S. and Beninati, M.L., “Analysis of subgrid-scale torque for large-eddy simulation of turbulence,” AIAA Journal, Vol. 41, No. 10, pp. 1875-1881 (2003).

40. Marshall, J.S., “Wake dynamics of a yawed cylinder,” ASME Journal of Fluids Engineering, Vol. 125, pp. 97-103 (2003).

39. Marshall, J.S., “Cross-stream vorticity field induced by streamwise vortices in unbounded and wall-bounded shear flows,” Theoretical and Computational Fluid Dynamics, Vol. 16, pp. 231-247 (2003).

38. Marshall, J.S., “Models of secondary vorticity evolution during normal vortex-cylinder interaction,” AIAA Journal, Vol 40, No. 1, pp. 170-172 (2002).

37. Marshall, J.S., Brancher, P. and Giovannini, A., “Interaction of unequal anti-parallel vortex tubes,” Journal of Fluid Mechanics, Vol. 446, pp. 229-252 (2001).

36. Gossler, A.A. and Marshall, J.S., “Simulation of normal vortex-cylinder interaction in a viscous fluid,” Journal of Fluid Mechanics, Vol. 431, pp. 371-405 (2001).

35. Sun, M. and Marshall, J.S., “A flow visualization study of vortex interaction with the wake of a sphere,” ASME Journal of Fluids Engineering, Vol. 122, pp. 560-568 (2000).

34. Marshall, J.S., Grant, J.R., Gossler, A.A. and Huyer, S.A., “Vorticity transport on a Lagrangian tetrahedral mesh,” Journal of Computational Physics, Vol. 161, pp. 85-113 (2000).

33. Krishnamoorthy, S., Gossler, A.A. and Marshall, J.S., “Normal vortex interaction with a circular cylinder,” AIAA Journal, Vol. 37, No. 1, pp. 50-57 (1999).

32. Chen, H. and Marshall, J.S., “A Lagrangian vorticity method for two-phase particulate flows with two-way phase coupling,” Journal of Computational Physics, Vol. 148, pp. 169-198 (1999).

31. Marshall, J.S., “Response of a columnar vortex to a wrapped vortex loop,” European Series in Applied and Industrial Mathematics: Proceedings, Vol. 7, pp. 280-291 (1999).

30. Grant, J.R. and Marshall, J.S., “Inviscid interaction of vortex rings: approach to singularity?,” European Series in Applied and Industrial Mathematics: Proceedings, Vol. 7, pp. 183-194 (1999).

29. Marshall, J.S., “A model of heavy particle dispersion by organized vortex structures wrapped around a columnar vortex core,” Physics of Fluids, Vol. 10, No. 12, pp. 3236-3238 (1998).

28. Krishnamoorthy, S. and Marshall, J.S., “Three-dimensional blade-vortex interaction in the strong-vortex regime,” Physics of Fluids, Vol. 10, No. 11, pp. 2828-2845 (1998).

27. Marshall, J.S. and Grant, J.R., “A Lagrangian vorticity collocation method for viscous, axisymmetric flows with and without swirl,” Journal of Computational Physics, Vol. 138, pp. 302-330 (1997).

26. Marshall, J.S. and Krishnamoorthy, S., “On the instantaneous cutting of a columnar vortex with non-zero axial flow,” Journal of Fluid Mechanics, Vol. 351, pp. 41-74 (1997).

25. Marshall, J.S., “The flow induced by periodic vortex rings wrapped around a columnar vortex core,” Journal of Fluid Mechanics, Vol. 345, pp. 1-30 (1997).

24. Marshall, J.S. and Chen, H., “Stability of a counter-rotating vortex pair immersed in a cross-stream shear flow,” AIAA Journal, Vol. 35, No. 2, pp. 295-305 (1997).

23. Marshall, J.S. and Grant, J.R., “A method for determining the velocity induced by highly anisotropic vorticity blobs,” Journal of Computational Physics, Vol. 126, No. 2,  pp. 286-298 (1996).

22. Marshall, J.S. and Grant, J.R., “Penetration of a blade into a vortex core: vorticity response and unsteady blade forces,” Journal of Fluid Mechanics, Vol. 306, pp. 83-109 (1996).

21. Dexter, F., Hindman, B.J. and Marshall, J.S., “Estimate of the maximum absorption rate of microscopic arterial air emboli after entry into the arterial circulation during cardiac surgery,” Perfusion, Vol. 11, pp. 445-450 (1996).

20. Marshall, J.S., “A structural theory of anisotropic turbulence,”  Z. angew Math. Phys. (ZAMP), Vol. 46 (Special Issue), pp. S737-S757 (1995).

19. Marshall, J.S., “Chaotic oscillations and breakup of quasi-geostrophic vortices in the N-layer approximation,” Physics of Fluids, Vol. 7, No. 5, pp. 983-992 (1995).

18. Krishnamoorthy, S. and Marshall, J.S., “An experimental investigation of ‘vortex shocks’,” Physics of Fluids, Vol. 6, No. 11, pp. 3737-3741 (1994).

17. Marshall, J.S., “Vortex cutting by a blade. Part I. General theory and a simple solution,” AIAA Journal, Vol. 32, No. 6, pp. 1145-1150 (1994).  

16. Marshall, J.S., and Yalamanchili, R., “Vortex cutting by a blade. Part II. Computations of vortex response,” AIAA Journal, Vol. 32, No. 7, pp. 1428-1436 (1994).

15. Marshall, J.S., and Grant, J.R., “Evolution and break-up of vortex rings in straining and shearing flows,” Journal of Fluid Mechanics, Vol. 273, pp. 285-312 (1994).

14. Marshall, J.S., “The effect of axial pressure gradient on axisymmetrical and helical vortex waves,” Physics of Fluids A, Vol. 5, pp. 588-599 (1993).

13. Marshall, J.S., and Parthasarathy, B., “Tearing of an aligned vortex by a current in two-layer quasi-geostropic flow,” Journal of Fluid Mechanics, Vol. 255, pp. 157-182 (1993).

12. Marshall, J.S., “Buckling of a columnar vortex,” Physics of Fluids A, Vol. 4, pp. 2620-2627 (1992).

11. Marshall, J.S., “The effect of axial stretching on three-dimensional stability of a vortex pair,” Journal of Fluid Mechanics, Vol. 241, pp. 403-419 (1992).

10. Marshall, J.S., “A general theory of curved vortices with circular cross-section and variable core area,” Journal of Fluid Mechanics, Vol. 229, pp. 311-338 (1991).

9.   Marshall, J.S., “A criterion for vortex street breakdown,” Physics of Fluids A, Vol. 3, pp. 588-594 (1991).

8.   Marshall, J.S., “Downstream development of viscous fluid wakes behind rod-like bodies,” ASME Journal of Applied Mechanics, Vol. 58, pp. 825-833 (1991).

7.   Marshall, J.S., Naghdi, P.M. and Srinivasa, A.R., “A macroscopic theory of microcrack growth in brittle materials,” Philosophical Transactions of the Royal Society of London A, Vol. 335, pp. 455-485 (1991).

6.   Marshall, J.S. and Naghdi, P.M., “Consequences of the Second Law for a turbulent fluid flow,” Continuum Mechanics and Thermodynamics, Vol. 3, pp. 65-77 (1991).

5.   Marshall, J.S. and Naghdi, P.M., “Wave reflection and transmission by steps and rectangular obstacles in channels of finite depth,” Theoretical and Computational Fluid Dynamics, Vol. 1, pp. 287-301 (1990).

4.   Marshall, J.S. and Naghdi, P.M., “A thermodynamical theory of turbulence. Part I. Basic developments,” Philosophical Transactions of the Royal Society of London A, Vol. 327, pp. 415-448 (1989).

3.   Marshall, J.S. and Naghdi, P.M., “A thermodynamical theory of turbulence. Part II. Determination of constitutive coefficients and illustrative examples,” Philosophical Transactions of the Royal Society of London A, Vol. 327, pp. 449-475 (1989).

2.   Marshall, J.S., and Dhir, V.K., “On the prediction of porosity of beds composed of mixtures of spherical particles,” Chemical Engineering Communications, Vol. 48, pp. 261-285 (1987).

1. Marshall, J.S., and Dhir, V.K., “Effect of overlying liquid layer on dryout heat flux measurements,” Nuclear Science and Engineering, Vol. 91, pp. 109-113 (1985).

Patents

2.   Marshall, J.S., Chen, D., Vachon, N., Hitt, D.A., and Wu, J.R., “Aeroacoustic duster,” U.S. Patents 08695156 (2014) and 9480375 (2016).

1.   Grant, J.R., Huyer, S.A., Uhlman, J.S. and Marshall, J.S., “Algorithms and code for computing three-dimensional unsteady flow by solution of the vorticity equation on a Lagrangian mesh,” U.S. Patent 6424923 (2002).

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