Publications

Refereed Publications

154. A. Sarkar, X. Sun, S. Sundaresan " Verification of sub-grid filtered drag models for gas-particle fluidized beds with immersed cylinder arrays," Chem. Eng. Sci., 114, 144-154 (2014). (pdf)

153. W. Holloway , S. Sundaresan " Filtered models for bidisperse gas–particle flows," Chem. Eng. Sci., 108, 67-86 (2014). (pdf)

152. M.R. Kamali, J.J.J. Gillessen, H.E.A. van den Akker, S. Sundaresan “A lattice Boltzmann-based two-phase thermal model for simulating phase change,” Phys. Rev. E., 88, 033302 (2013). (pdf)

151. A. Sarkar, X. Sun S. Sundaresan, “Sub-grid drag models for horizontal cylinder arrays immersed in gas-particle multiphase flows,” Chem. Eng. Sci., 104, 399-412 (2014). (pdf)

150. N. Hooshyar, J.R. van Ommen, P.J. Hamersma, S. Sundaresan, R.F. Mudde, “Dynamics of single rising bubbles in neutrally buoyant liquid-solid suspensions,” Phys. Rev. Lett., 110, 240501 (2013). (pdf)

149. S. Sundaresan, “Role of hydrodynamics on chemical reactor performance,” Current Opinions on Chem. Eng., 2, 325-330 (2013). (link)

148. S. Chialvo, S. Sundaresan, “A modified kinetic theory for frictional granular flows in dense and dilute regimes,” Phys. Fluids, 25, 070603 (2013).(pdf)

147. X. Yan, W. Holloway, S. Sundaresan, “Periodic flow structures in vertical gas-particle flows,” Powder Tech., 241, 174-180 (2013). (pdf)

146. K. Agrawal, W. Holloway, C. Milioli, F.E. Milioli, S. Sundaresan, “Filtered models for scalar transport in gas-particle flows,” Chem. Eng. Sci., 95, 291-300 (2013). (pdf)

145. C.C. Milioli, F.E. Milioli, “Filtered two-fluid models of fluidized gas-particle flows: New constitutive relations,” AIChE J., 59, 3265-3275 (2013).(pdf)

144. M.R. Kamali, S. Sundaresan, H.E.A. van den Akker, J.J.J. Gillissen, "A Multi-Component Two-Phase Lattice Boltzmann Method Applied To a 1-D Fischer-Tropsch Reactor," Chemical Engineering Journal, 207-208, 587–595 (2012). (pdf)

143. J. Sun, S. Sundaresan, "Radial hopper flow prediction using a constitutive model with microstructure evolution," Powder Tech., 242, 81-85 (2013). (pdf)

142. W. Holloway, J. Sun, S. Sundaresan. "Effect of microstructural anisotropy on the fluid-particle drag force and the stability of the uniformly fluidized state," J. Fluid Mech., 713, 27-49 (2012). (pdf)

141. W. Holloway, S. Sundaresan, "Filtered models for reacting gas-particle flows," Chem. Eng. Sci., 82, 132–143 (2012). (pdf)

140. S. Chialvo, J. Sun, S. Sundaresan, "Bridging the rheology of granular flows in three regimes," Phys. Rev. E, 85, 021305 (2012). (pdf)

139. W. Holloway, S. Benyahia, C. M. Hrenya, S. Sundaresan, "Meso-scale structures of bidisperse mixtures of particles fluidized by a gas," Chem. Eng. Sci., 66, 4403-4420 (2011). (pdf)

138. Y. Igci, S. Pannala, S. Benyahia, S. Sundaresan, "Validation studies on filtered model equations for gas-particle flows in risers," Ind. Eng. Chem. Res., 51, 2094–2103 (2012). (pdf)

137. S. Sundaresan, "Reflections on mathematical models and simulation of gas-particle flows," in Circulating Fluidized Beds-10 Proceedings (2011). (pdf)

136. J. Sun, S. Sundaresan, "A constitutive model with microstructure evolution for flow of rate-independent granular materials," J. Fluid Mech., 682, 590-616 (2011). (pdf)

135. M. R. Kamali, J. J. J. Gillissen, S. Sundaresan, H. E. A. van den Akker, " Contact line motion without slip on lattice-Boltzmann simulations," Chem. Eng. Sci., 66, 3452-3458 (2011). (pdf)

134. M. Vidyapathi, K. Langroudi, J. Sun, S. Sundaresan, G. I. Tardos, S. Subramaniam, "Experimental and computational studies of dense granular flow: Transition from quasi-static to intermediate regime in a Couette shear device," Powder Tech., 220, 7–14 (2012). (pdf)

133. S. Benyahia, S. Sundaresan, "Do we need sub-grid scale corrections for both continuum and discrete gas-particle flow models?" Powder Tech., 220, 2–6 (2012). (pdf)

132. Y. Igci, S. Sundaresan, "Constitutive models for filtered two-fluid models of fluidized gas-particle flows," Ind. Eng. Chem. Res., 50, 13190–13201 (2011). (pdf)

131. J. Scicolone, A. Majumdar, S. Sundaresan, R. Dave, "Environmentally benign dry mechanical mixing of nano-particles using magnetically assisted impaction mixing process," Powder Tech., 209, 138-146 (2011). (pdf)

130. D. To, S. Sundaresan, R. Dave, "Nano-particle mixing via rapid expansion of high pressure and supercritical suspensions," J. Nanoparticle Res., 13, 4253-4266 (2011). (pdf)

129. J. J. J. Gillissen, S. Sundaresan, H. E. A. van den Akker, "Lattice-Boltzmann study on the drag force in bubble swarms," J. Fluid Mech., 679, 101-121 (2011). (pdf)

128. Y. Igci, S. Sundaresan, "Verification of filtered two-fluid models for gas-particle flows in risers," AIChE J., 57, 2691-2707 (2011). (pdf)

127. A. Abdulla, K. Laney, M. Padilla, S. Sundaresan, J. Benziger, "Recovery and Energy Efficiency of Hydrogen Recovery from Reformate with a Polymer Electrolyte Hydrogen Pump," AIChE J., 57,1767-1779 (2011). (pdf)

126. J. Sun and S. Sundaresan, “A plasticity model with microstructure evolution for dense granular fows,” American Institute of Physics Proceeding for the Joint IUTAM-ISIMM Symposium on Mathematical Modeling and Physical Instances of Granular Flows, 1227, 280-289, (2010).

125. M. K. Langroudi, J. Sun, S. Sundaresan, G. I. Tardos, "Transmission of stresses in static and sheared granular beds: The influence of particle size, shearing rate, layer thickness, and sensor size," Powder Tech., 203, 23-32 (2010). (pdf)

124. W. Holloway, X.Yin and S. Sundaresan, "Fluid-particle drag in inertial polydisperse gas-solid suspensions, " AIChE J., 56, 1995-2004 (2010). (pdf)

123. L. Aarons, J. Sun, and S. Sundaresan, "Unsteady shear of dense assemblies of cohesive granular materials under constant volume conditions, " Ind. Eng. Chem. Res., 49, 5153-5165 (2010). (pdf)

122. D.To, R. Dave, X.Yin and S. Sundaresan, "Deagglomeration of nanoparticle aggregates via rapid expansion of supercritical or high-pressure suspensions, " AIChE J., 55, 2807-2826 (2009). (pdf)

121. X.Yin and S. Sundaresan, "Fluid-particle drag in low-Reynolds-number polydisperse gas-solid suspensions, " AIChE J., 55, 1352-1368 (2009). (pdf)

120. X. Yin and S. Sundaresan, “Drag law for binary gas-solid suspensions containing equally sized spheres,” Ind. Eng. Chem. Res., 48, 227-241 (2009). (pdf)

119. K. Sankaranarayanan and S. Sundaresan, "Lattice Boltzmann simulation of two-fluid model equations," Ind. Eng. Chem. Res., 47, 9165-9173 (2008). (pdf)

118. J. J. Derksen, S. Sundaresan and H. E. A. van der Akker, “Two-way coupled large eddy simulations of gas-solid flow in cyclone separators”, AIChE J., 54, 872-885 (2008). (pdf)

117. Y. Igci, A. T. Andrews, S. Pannala, T. O’Briens and S. Sundaresan, “Filtered two-fluid models for fluidized gas-particle suspensions” AIChE J., 54, 1431-1448 (2008). (pdf)

116. L. Aarons and S. Sundaresan, “Shear flow of assemblies of cohesive granular materials under constant applied normal stress”, Powder Tech., 183, 340-355 (2008). (pdf)

115. S. J. Moon, S. Sundaresan and I. G. Kevrekidis, “Coarse-grained computations of demixing in dense gas-fluidized beds”, Phys. Rev. E., 75, 051309 (2007). (pdf)

114. J. J. Derksen and S. Sundaresan, “DNS of dense suspensions: Wave instabilities in liquid-fluidized beds”, J. Fluid Mech., 587, 303-336 (2007). (pdf)

113. M. Mukherjee, J. Nehlsen, S. Sundaresan, G. D. Suciu and J. Dixon, “Scale-up strategy applied to solid-acid alkylation process”, Oil & Gas J. , pp. 48-54, July 10, 2006. (pdf)

112. L. Aarons and S. Sundaresan, “Shear flow of assemblies of cohesive and non-cohesive granular materials”, Powder Tech., 169, 10-21 (2006). (pdf)

111. S. J. Moon, I. G. Kevrekidis and S. Sundaresan, “Compaction and dilation rate dependence of stresses in gas-fluidized beds”, Phys. Fluids, 18, 083 304: 1-14(2006). (pdf)

110. M. A. van der Hoef, M. Ye, M. Van sint Annaland, A. T. Andrews IV, S. Sundaresan and J. A. M. Kuipers, Multiscale Modeling of Gas-Fluidized Beds”, Advances in Chemical Engineering 31 , 65-149 (2006). (pdf)

109. S. J. Moon, I. G. Kevrekidis and S. Sundaresan, “Particle simulation of vibrated gas-fluidized beds of cohesive fine powders”, Ind. Eng. Chem. Res. , 45 , 6966-6977 (2006). (pdf)

108. J. J. Derksen, S. Sundaresan, and H. E. A. Vad den Akker, “Simulation of Mass-Loading Effects in Gas-Solid Cyclone Separators”, Powder Tech. , 163, 59-68 (2006). (pdf)

107. A. Ten Cate and S. Sundaresan, “Analysis of Unsteady Forces in Ordered Arrays of Monodisperse Spheres”, J. Fluid Mech. , 552, 257-287(2006). (pdf)

106. D. Qian, K. Sankaranarayanan, S. Sundaresan, K. Kontomaris and J. McLaughlin, “Simulation of Bubbles Breakup Dynamics in Homogeneous Turbulence”, Chem.Eng. Comm. , 193 , 1038-1063 (2006). (pdf)

105. A. Ten Cate and S. Sundaresan, “Analysis of the Flow in Inhomogeneous Particle Beds Using the Spatially Averaged Two-Fluid Equations”, Int. J. Multiphase Flow , 32 , 106 -131 (2006). (pdf)

104. A. T. Andrews, P. N. Loezos, and S. Sundaresan, “Coarse-Grid Simulation of Gas-Particle Flows in Vertical Risers”, Ind. Eng. Chem. Res., 44 , 6022 – 6037 (2005). (pdf)

103. B. K. Muite, S. F. Quinn, S. Sundaresan, and K. K. Rao, “Silo Music and Silo Quake: Granular Flow-Induced Vibration”, Powder Tech. , 145, 190 (2004). (pdf)

102. C. H. Nam, R. Pfeffer, R. N. Dave, and S. Sundaresan, “Aerated Vibrofluidization of Silica Nanoparticles”, AIChE J ., 50, 1776 (2004). (pdf)

101. C. Theodoropoulos, K. Sankaranarayanan, S. Sundaresan, and I. G. Kevrekidis, “Coarse Bifurcation Studies of Bubble Flow Lattice Boltzmann Simulations”, Chem. Eng. Sci. , 59 , 2357 (2004). (pdf)

100. S. Sundaresan, J. Eaton, D. L. Koch, and J. M. Ottino, “Appendix 2: Report of Study Group on Disperse Flow”, Int. J. Multiphase Flow, 29 , 1069 (2003). (pdf)

99. T. J. Hanratty, T. Theofanous, J.-M. Delhaye, J. Eaton, J. McLaughlin, A. Prosperetti, S. Sundaresan, and G. Tryggvason, “Workshop Findings”, Int. J. Multiphase Flow, 29 , 1047 (2003). (pdf)

98. K. Sankaranarayanan, I. G. Kevrekidis, S. Sundaresan, J. Lu, and G. Tryggvason, “A Comparative Study of Lattice Boltzmann and Front-Tracking Finite-Difference Methods for Bubble Simulations”, Int. J. Multiphase Flow, 29, 109 (2003). (pdf)

97. K. Zhu, S. M. Rao, C.-H.Wang, and S. Sundaresan, “Electrical Capacitance Tomography Measurements on Vertical and Inclined Pneumatic Conveying of Granular Solids”, Chem. Eng. Sci. , 58 , 4225 (2003). (pdf)

96. A. Srivastava and S. Sundaresan, “Analysis of a Frictional-Kinetic Model for Gas-Particle Flow”, Powder Tech. , 129, 72 (2003). (pdf)

95. S. Sundaresan, “Instabilities in Fluidized Beds”, Annu. Rev. Fluid Mech. , 35, 63(2003). (pdf)

94. K. Sankaranarayanan and S. Sundaresan, “Lift Force in Bubbly Suspensions”, Chem. Eng. Sci. , 57 , 3521 (2002). (pdf)

93. P. N. Loezos, P. Costamagna, and S. Sundaresan, “The Role of Contact Stresses and Wall Friction on Fluidization”, Chem. Eng. Sci. , 57, 5123 (2002). (pdf)

92. P. Loezos and S. Sundaresan, “The Role of Meso-Scale Structures on Dispersion in Gas-Particle Flows”, in Circulating Fluidized Beds VII, Eds. J. R. Grace, J. Zhu, and H. I. de Lasa, Can. Society of Chemical Engineering, Ottawa, pp. 427-434, (2002). (pdf)

91. M. F. Al-Adel, D. A. Saville, and S. Sundaresan, “The Effect of Static Electrification on Gas-Solid Flows in Vertical Risers”, Ind. Eng. Chem. Res. , 41, 6224 (2002). (pdf)

90. A. Srivastava and S. Sundaresan, “Role of Wall Friction in Fluidization and Standpipe Flow”, Powder Tech. , 124, 45 (2002). (pdf)

89. K. Sankaranarayanan, X. Shan, I. G. Kevrekidis, and S. Sundaresan, “Analysis of Drag and Virtual Mass Forces in Bubbly Suspensions Using an Implicit Formulation of the Lattice Boltzmann Method”, J. Fluid Mech., 452, 61 (2002). (pdf)

88. S. Sundaresan, “Some Outstanding Questions in Handling of Cohesionless Particles”, Powder Tech. , 115 , 2 (2001). (pdf)

87. S. M. Rao, K. Zhu, C.-H. Wang, and S. Sundaresan, “Electrical Capacitance Tomography Measurements on the Pneumatic Conveying of Solids”, Ind. Eng. Chem. Res ., 40 , 4216 (2001). (pdf)

86. K. Agrawal, P. N. Loezos, M. Syamlal, and S. Sundaresan, “The Role of Meso-Scale Structures in Rapid Gas-Solid Flows”, J. Fluid Mech., 445, 151 (2001). (pdf)

85. S. Sundaresan, “Perspective: Modeling the Hydrodynamics of Multiphase Flow Reactors: Current Status and Challenges”, AIChE J ., 46, 1102 (2000). (pdf)

84. V. V. Guliants, J. B. Benziger, S. Sundaresan, I. E. Wachs, and A. M. Hirt, “Effect of Promoters for n -Butane Oxidation to Maleic Anhydride over Vanadium-Phosphorus-Oxide Catalysts: Comparison with Supported Vanadia Catalysts”, Catal. Lett., 62 , 87 (1999). (pdf)

83. P. R. Nott, M. Alam, K. Agrawal, R. Jackson, and S. Sundaresan, “The Effect of Boundaries on the Plane Couette Flow of Granular Materials: A Bifurcation Analysis”, J. Fluid Mech ., 397 , 203 (1999). (pdf)

82. K. Sankaranarayanan, X. Shan, I. G. Kevrekidis, and S. Sundaresan, “Bubble Flow Simulations with the Lattice Boltzmann Method”, Chem. Eng. Sci. , 54 , 4817 (1999). (pdf)

81. B. J. Glasser, S. Sundaresan, and I. G. Kevrekidis, “From Bubbles to Clusters in Fluidized Beds”, Phys. Rev. Lett ., 81, 1849 (1998). (pdf)

80. A. Srivastava, K. Agrawal, S. Sundaresan, S. B. Reddy Karri, and T. M. Knowlton, “Dynamics of Gas-Particle Flow in Circulating Fluidized Beds”, Powder Tech ., 100 , 173 (1998). (pdf)

79. S. Dasgupta, R. Jackson, and S. Sundaresan, "Gas-Particle Flow in Vertical Pipes with High Mass Loading of Particles", Powder Tech ., 96, 6 (1998). (pdf)

78. M. F. Göz and S. Sundaresan, “The Growth, Saturation, and Scaling Behaviour of One- and Two-Dimensional Disturbances in Fluidized Beds”, J. Fluid Mech ., 362, 83 (1998). (pdf)

77. M. F. Simpson, J. Wei, and S. Sundaresan, “Rebuttal to the Comments of Lyle F. Albright on ‘Kinetic Analysis of Isobutane/Butene Alkylations over Ultrastable H-Y Zeolite’”, Ind. Eng. Chem. Res ., 36, 2517 (1997). (pdf)

76. J. M. McHale, K. Yürekli, D. M. Dabbs, A. Navrotsky, S. Sundaresan, and I. A. Aksay, “Metastability of Spinel-Type Solid Solutions in the SiO₂-Al₂O₃ System”, Chem. Mater ., 9, 3096 (1997). (pdf)

75. I. E. Wachs, J.-M. Jehng, G. Deo, B. M. Weckhuysen, V. V. Guliants, J. B. Benziger, and S. Sundaresan, “Fundamental Studies of Butane Oxidation over Model-Supported Vanadium Oxide Catalysts: Molecular Structure-Reactivity Relationships”, J. Catal ., 170 , 75 (1997). (pdf)

74. S. Dasgupta, R. Jackson, and S. Sundaresan, “Developing Flow of Gas-Particle Mixtures in Vertical Ducts”, Ind. Eng. Chem. Res ., 36, 3375 (1997). (pdf)

73. C.-H. Wang, R. Jackson, and S. Sundaresan, "Instabilities of Fully Developed Rapid Flow of a Granular Material in a Channel", J. Fluid Mech ., 342, 179 (1997). (pdf)

72. J. B. Benziger, V. Guliants, and S. Sundaresan, "New Precursors to Vanadium Phosphorus Oxide Catalysts", Catal. Today , 33, 49 (1997). (pdf)

71. B. J. Glasser, I. G. Kevrekidis, and S. Sundaresan, "Fully Developed Travelling Wave Solutions and Bubble Formation in Fluidized Beds", J. Fluid Mech ., 334 , 157 (1997). (pdf)

70. M. F. Göz, B. J. Glasser, I. G. Kevrekidis, and S. Sundaresan, "Traveling Waves in Multi-Phase Flows", Adv. Fluid Mech ., 9 , 307 (1996). (pdf)

69. M. F. Simpson, J. Wei, and S. Sundaresan, "Kinetic Analysis of Isobutane/Butene Alkylation over Ultrastable H-Y Zeolites", Ind. Eng. Chem. Res ., 35, 3861 (1996). (pdf)

68. M. Simpson, J. Wei, and S. Sundaresan, "Kinetics of Zeolitic Solid Acid-Catalyzed Alkylation of Isobutane with 2-Butene", ACS Symp. Ser ., 626 , 105 (1996). (pdf)

67. V. V. Guliants, J. B. Benziger, and S. Sundaresan, "The Oxidation of C₄ Molecules on Vanadyl Pyrophosphate Catalysts”, in “11^th International Congress on Catalysis – 40^th Anniversary Studies in Surface Science and Catalysis”, Vol. 101, J. W. Hightower, W. N. Delgass, E. Iglesia and A. T. Bell (Eds.), Elsevier Science B.V., pp. 991-1000, (1996). (pdf)

66. V. V. Guliants, J. B. Benziger, S. Sundaresan, I. E. Wachs, J. -M. Jehng, and J. E. Roberts, "The Effect of Phase Composition of Model VPO Catalysts for Partial Oxidation of n -Butane", Catal. Today, 28 , 275 (1996). (pdf)

65. B. J. Glasser, I. G. Kevrekidis, and S. Sundaresan, "One- and Two-Dimensional Travelling Wave Solutions in Gas-Fluidized Beds", J. Fluid Mech ., 306, 183 (1996). (pdf)

64. C.-H. Wang, R. Jackson, and S. Sundaresan, "Stability of Bounded Rapid Shear Flows of a Granular Material", J. Fluid Mech ., 308, 31 (1996). (pdf)

63. R. Muralidhar, G. R. Jersey, F. J. Krambeck, and S. Sundaresan, "A Two-Phase Model for Subcooled and Superheated Liquid Jets", AIChE Symposium Series: Proceedings of the International Conference & Workshop on Modelling and Mitigating the Consequences of Accidental Releases of Hazardous Materials, September 26-29, 1995, New Orleans, 189-224 (1995). (pdf)

62. R. Muralidhar, G. R. Jersey, F. J. Krambeck, and S. Sundaresan, "A Two-Phase Release Model for Quantifying Risk Reduction for Modified HF Alkylation Catalysts", J. Hazard. Mater. , 44 , 141 (1995). (pdf)

61. V. V. Guliants, J. B. Benziger, and S. Sundaresan, "New Layered Vandyl (IV) Phosphite as a Precursor to Vanadyl Pyrophosphate Catalysts for Partial Oxidation of n -Butane to Maleic Anhydride", J. Catal., 156 , 298 (1995). (pdf)

60. K. Anderson, S. Sundaresan, and R. Jackson, "Instabilities and the Formation of Bubbles in Fluidized Beds", J. Fluid Mech ., 303, 327 (1995). (pdf)

59. V. V. Guliants, J. B. Benziger, S. Sundaresan, N. Yao, and I. E. Wachs, "Evolution of the Active Surface of the Vanadyl Pyrophosphate Catalysts", Catal. Lett. , 32 , 379 (1995). (pdf)

58. V. V. Guliants, J. B. Benziger, S. Sundaresan, I. E. Wachs, and J.-M. Jehng, "Vanadyl (IV) Phosphonates, VOC nH2n+1PO3 × xH2 O (n=0-4, x=1 or 1.5) as Precursors of Vanadyl (IV) Pyrophosphate, (VO) 2P2O7", Chem. Mater., 7 , 1493 (1995). (pdf)

57. V. V. Guliants, J. B. Benziger, and S. Sundaresan, "Synthesis and Characterization of Vanadyl Phosphite, V IVOHPIIIO3 × 1.5H2O", Chem. Mater., 7, 1485 (1995). (pdf)

56. V. V. Guliants, J. B. Benziger, and S. Sundaresan, "Intercalation of Aliphatic Amines into the Layered Structure of Vanadyl (IV) Hydrogen Phosphate Hemihydrate (VOHPO 4 × 0.5H2O)", Chem. Mater., 6 , 353 (1994). (pdf)

55. S. Sundaresan, "Liquid Distribution in Trickle Bed Reactors", Energy & Fuels , 8 , 531 (1994). (pdf)

54. C. Gerardin, S. Sundaresan, J. B. Benziger, and A. Navrotsky, "Structural Investigation and Energetics of Mullite Formation from Sol-Gel Precursors", Chem. Mater ., 6 , 160 (1994). (pdf)

53. S. Dasgupta, R. Jackson, and S. Sundaresan, "Turbulent Gas-Particle Flow in CFB Risers", Proceedings of The Fourth International Conference on Circulating Fluid Beds, 367-372 (1994). (pdf)

52. S. Dasgupta, R. Jackson, and S. Sundaresan, "Turbulent Gas-Particle Flow in Vertical Risers", AIChE J ., 40, 215 (1994). (pdf)

51. R. Ocone, S. Sundaresan, and R. Jackson, "Gas-Particle Flow in a Duct of Arbitrary Inclination with Particle-Particle Interactions", AIChE J ., 39 , 1261 (1993). (pdf)

50. J. A. Pita and S. Sundaresan, "Developing Flow of a Gas-Particle Mixture in a Vertical Riser", AIChE J ., 39, 541 (1993). (pdf)

49. S. Sundaresan, "Effect of Ambient Environment and Pressure on the Formation of YBa 2Cu3O6+x from Y2O3, BaCO3 and CuO", AIChE Symp. Ser. 287 , 88, 82 (1992). (pdf)

48. D. C. Dankworth and S. Sundaresan, "Stability of Periodic Travelling Waves in Trickle Beds", Chem. Eng. Sci ., 47, 3257 (1992). (pdf)

47. D. C. Dankworth, S. Sundaresan, and I. G. Kevrekidis, "Infinite-Wavelength Analysis for Two-Phase Flow: A Three-Parameter Computer-Assisted Study of Global Bifurcations", Physica D , 55 , 197 (1992). (pdf)

46. D. C. Dankworth and S. Sundaresan, "Time-Dependent Vertical Gas-Liquid Flow in Packed Beds", Chem. Eng. Sci ., 47, 337 (1992). (pdf)

45. S. Sundaresan and I. A. Aksay, "Mullitization of Diphasic Aluminosilicate Gels", J. Amer. Ceram. Soc ., 74, 2388 (1991). (pdf)

44. M. J. Szady and S. Sundaresan, "Effect of Boundaries on Trickle-Bed Hydrodynamics", AIChE J ., 37 , 1237 (1991). (pdf)

43. J. A. Pita and S. Sundaresan, "Gas-Solid Flow in Vertical Tubes", AIChE J ., 37, 1009 (1991). (pdf)

42. D. A. Faux, C. K. Hall, and S. Sundaresan, "Diffusion in Zeolites: Effect of Directional Bias", Chem. Eng. Sci ., 46, 2359 (1991). (pdf)

41. D. C. Dankworth, I. G. Kevrekidis, and S. Sundaresan, "Time Dependent Hydrodynamics in Multiphase Reactors", Chem. Eng. Sci ., 45, 2239 (1990). (pdf)

40. D. C. Dankworth, I. G. Kevrekidis, and S. Sundaresan, "Dynamics of Pulsing Flow in Trickle Beds.", AIChE J ., 36, 605 (1990). (pdf)

39. S. Sundaresan and I. A. Aksay, "Sintering with Rigid Inclusions: Pair Interactions", J. Amer. Ceram. Soc ., 73, 54 (1990). (pdf)

38. D. C. Dankworth and S. Sundaresan, "A Macroscopic Model for Countercurrent Gas-Liquid Flow in Packed Columns", AIChE J ., 35, 1282 (1989). (pdf)

37. E. W. Arnold, III and S. Sundaresan, "Dynamics of Packed-Bed Reactors Loaded with Oxide Catalysts.", AIChE J ., 35 , 746 (1989). (pdf)

36. K. Grosser, R. G. Carbonell, and S. Sundaresan, "Onset of Pulsing in Two-Phase Cocurrent Downflow through a Packed Bed", AIChE J ., 34 , 1850 (1988). (pdf)

35. N. A. Collins, P. G. Debenedetti, and S. Sundaresan, "Disproportionation of Toluene over ZSM-5 under Near-Critical Conditions", AIChE J ., 34 , 1211 (1988). (pdf)

34. I. S. Metcalfe and S. Sundaresan, "Oxygen Transfer between Rhodium and an Oxygen-Ion Conducting Support", AIChE J ., 34, 1048 (1988). (pdf)

33. E. W. Arnold, III and S. Sundaresan, "Effect of Water Vapor on the Activity and Selectivity Characteristics of Vanadium Phosphate Catalysts Towards Butane Oxidation", Appl. Catal ., 41, 225 (1988). (pdf)

32. I. S. Metcalfe and S. Sundaresan, "Oxygen Transfer between Metals and Oxygen-Ion Conducting Supports", AIChE J ., 34, 195 (1988). (pdf)

31. E. W. Arnold, III and S. Sundaresan, "The Role of Lattice Oxygen in the Dynamic Behavior of Oxide Catalysts", Chem. Eng. Comm ., 58 , 213 (1987). (pdf)

30. S. Sundaresan, J. K. Wong, and R. Jackson, "Limitations of the Equilibrium Theory of Countercurrent Devices", AIChE J ., 33, 1466 (1987). (pdf)

29. J. S. Buchanan and S. Sundaresan, "Optimal Catalyst Distribution and Dilution in Nonisothermal Packed Bed Reactors", Chem. Eng. Comm ., 52, 33 (1987). (pdf)

28. Y. J. Chabal, S. B. Christman, V. A. Burrows, N. A. Collins, and S. Sundaresan, "Self-Sustained Kinetic Oscillations in the Catalytic CO Oxidation on Platinum", "Springer Series in Surface Science: Vol. 8, Kinetics of Interface Reactions", p. 285-295 (1987). (pdf)

27. V. A. Burrows, S. Sundaresan, and Y. J. Chabal, "Real-Time Study of Self-sustained Oscillations in the CO Oxidation Rate on Pt", J. Vac. Sci. Technol ., A5 , 801 (1987). (pdf)

26. E. M. Breckner, S. Sundaresan, and J. B. Benziger, "Solid Electrolyte Potentiometry Study of Butene Oxidation over Vanadium Phosphate Catalysts", Appl. Catal ., 30 , 277 (1987). (pdf)

25. S. Sundaresan, "Mathematical Modeling of Pulsing Flow in Large Trickle Beds", AIChE J ., 33, 455 (1987). (pdf)

24. N. A. Collins, S. Sundaresan, and Y. J. Chabal, "Studies on Self-Sustained Reaction-Rate Oscillations: III. The Carbon Model", Surf. Sci ., 180, 136 (1987). (pdf)

23. V. A. Burrows, S. Sundaresan, Y. J. Chabal, and S. B. Christman, "Studies on Self-Sustained Reaction-Rate Oscillations: II. The Role of Carbon and Oxides in the Oscillatory Oxidation of Carbon Monoxide on Platinum", Surf. Sc i., 180, 110 (1987). (pdf)

22. T. R. Reilly, S. Sundaresan, and J. H. Highland, "Cleanup of PCB Contaminated Soils and Sludges by a Solvent Extraction Process: A Case Study", in "Studies of Environmental Science: Vol. 29, Chemistry for Protection of the Environment 1985", L. Pawlowski, G. Alaerts, and W. J. Lacy (Eds.), Elsevier, pp. 125-139, 1986. (pdf)

21. J. S. Buchanan and S. Sundaresan, "Kinetics and Redox Properties of Vanadium Phosphate Catalysts for Butane Oxidation", Appl. Catal ., 26, 211 (1986). (pdf)

20. G. Christensen, S. J. McGovern, and S. Sundaresan, "Cocurrent Downflow of Air and Water in a Two-Dimensional Packed Column", AIChE J ., 32, 1677 (1986). (pdf)

19. S. Sundaresan and C. K. Hall, "Mathematical Modelling of Diffusion and Reaction in Blocked Zeolite Catalysts", Chem. Eng. Sci ., 41, 1631 (1986). (pdf)

18. I. S. Metcalfe and S. Sundaresan, "Oxygen Storage in Automobile Exhaust Catalyst", Chem. Eng. Sci ., 41, 1109 (1986). (pdf)

17. J. S. Buchanan and S. Sundaresan, "Optimal Distribution of Multifunctional Catalysts in a Packed Bed Reactor", Chem. Eng. Commun ., 40 , 25 (1986). (pdf)

16. J. S. Buchanan, J. Apostolakis, and S. Sundaresan, "Pretreatment and Activation of a Vanadium Phosphate Catalyst for Butane Oxidation to Maleic Anhydride", Appl. Catal ., 19 , 65 (1985). (pdf)

15. V. A. Burrows, S. Sundaresan, Y. J. Chabal, and S. B. Christman, "Studies on Self-Sustained Reaction-Rate Oscillations: I. Real-Time Surface Infrared Measurements During Oscillatory Oxidation of Carbon Monoxide on Platinum", Surf. Sci ., 160 , 122 (1985). (pdf)

14. S. Sundaresan and K. R. Kaza, "The Effect of Limited Mobility of Adspecies on the Rates of Desorption and Reaction", Surf. Sci ., 160, 103 (1985). (pdf)

13. S. Sundaresan and K. R. Kaza, "Non-Random Distribution of Adsorbates on Catalytic Surfaces: The Role of Adsorbate Mobilities on Reaction Rates", Chem. Eng. Commun ., 35, 1 (1985). (pdf)

12. K. R. Kaza and S. Sundaresan, "Non-Random Distribution of Adsorbates on Catalytic Surfaces: The Role of Interactions between Adsorbates", Chem. Eng. Commun ., 32 , 333 (1985). (pdf)

11. K. R. Kaza and S. Sundaresan, "CO Oxidation on Pt (III): The Effect of Interactions between Adsorbates and Adsorbate Mobility on Reaction Rate", in "Frontiers in Chemical Reaction Engineering", Vol. II, L. K. Doraiswamy and R. A. Mashelkar (Eds.), Wiley Eastern Ltd., pp. 323-335 (1984). (pdf)

10. S. Sundaresan and N. R. Amundson, "Diffusion and Reaction in a Stagnant Boundary Layer About a Carbon Particle: Part 7: Transient Behavior and Effect of Water Vapor", AIChE J ., 27, 679 (1981). (pdf)

9. S. Sundaresan and N. R. Amundson, "Diffusion and Reaction in a Stagnant Boundary Layer about a Carbon Particle: 6. Effect of Water Vapor on the Pseudo-Steady-State Structure". Ind. Eng. Chem. Fundam ., 19, 351 (1980). (pdf)

8. S. Sundaresan and N. R. Amundson, "Diffusion and Reaction in a Stagnant Boundary Layer about a Carbon Particle: 5. Pseudo-Steady-State Structure and Parameter Sensitivity", Ind. Eng. Chem. Fundam ., 19 , 344 (1980). (pdf)

7. S. Sundaresan, N. R. Amundson, and R. Aris, "Observations on Fixed-Bed Dispersion Models: The Role of Interstitial Fluid", AIChE J ., 26 , 529 (1980). (pdf)

6. M. J. Hinduja, S. Sundaresan, and R. Jackson, "A Crossflow Model for Dispersion in Packed Bed Reactors", AIChE J ., 26 , 274 (1980). (pdf)

5. S. Sundaresan and N. R. Amundson, "Studies in Char Gasification: V. Ash Recirculation Model", Chem. Eng. Sci ., 34, 469 (1979). (pdf)

4. S. Sundaresan and N. R. Amundson, "Studies in Char Gasification: IV. Multi-Stage Char Gasifier", Chem. Eng. Sci ., 34 , 463 (1979). (pdf)

3. S. Sundaresan and N. R. Amundson, "Studies in Char Gasification: III. The Combustion Zone", Chem. Eng. Sci ., 34 , 359 (1979). (pdf)

2. S. Sundaresan and N. R. Amundson, "Studies in Char Gasification: II. The Davidson-Harrison Two Phase Model of Fluidization", Chem. Eng. Sci ., 34 , 355 (1979). (pdf)

1. S. Sundaresan and N. R. Amundson, "Studies in Char Gasification: I. A Lumped Model", Chem. Eng. Sci., 34, 345 (1979). (pdf)

Book Chapters

1. A. Prosperetti, S. Sundaresan, S. Pannala & D. Z. Zhang, “Chapter 10: Segregated methods for two-fluid models,” in Computational Methods for Multiphase Flow, edited by A. Prosperetti & G. Tryggvason (Cambridge University Press), 2006.

Patents

1. P. S. Ganguly and S. Sundaresan, "Precious Metal Catalysts with Oxygen-ion Conducting Support", US Patent 5,232,890 (1994).

2. P. S. Ganguly and S. Sundaresan, "Precious Metal Catalysts utilizing Composites of Oxygen-ion Conducting and Inert Support materials", US Patent 5,275,997 (1994).

3. J. B. Benziger, V. V. Guliants, and S. Sundaresan, "Vanadium/Phosphorus Oxide Oxidation Catalyst", US Patent 5,401,707 (1995).

4. J. B. Benziger, V. V. Guliants, and S. Sundaresan, "Catalytic Process for the Production of Maleic Anhydride", US Patent 5,532,385 (1996).