{"id":36,"date":"2020-11-25T17:58:31","date_gmt":"2020-11-25T17:58:31","guid":{"rendered":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/?page_id=36"},"modified":"2026-01-21T11:49:46","modified_gmt":"2026-01-21T19:49:46","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\t\t<div data-elementor-type=\"wp-page\" data-elementor-id=\"36\" class=\"elementor elementor-36\">\n\t\t\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-56e4c78c elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"56e4c78c\" data-element_type=\"section\" data-e-type=\"section\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-c7f91e\" data-id=\"c7f91e\" data-element_type=\"column\" data-e-type=\"column\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-7a7c64af elementor-widget elementor-widget-page-title\" data-id=\"7a7c64af\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"page-title.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\n\t\t<div class=\"hfe-page-title hfe-page-title-wrapper elementor-widget-heading\">\n\n\t\t\t\t\t\t\t\t<h2 class=\"elementor-heading-title elementor-size-default\">\n\t\t\t\t\t\t\t\t\n\t\t\t\tPublications  \n\t\t\t<\/h2 > \n\t\t\t\t\t<\/div>\n\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-35381b2f elementor-widget-divider--view-line elementor-widget elementor-widget-divider\" data-id=\"35381b2f\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"divider.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t<div class=\"elementor-divider\">\n\t\t\t<span class=\"elementor-divider-separator\">\n\t\t\t\t\t\t<\/span>\n\t\t<\/div>\n\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-60db4c00 elementor-widget elementor-widget-text-editor\" data-id=\"60db4c00\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"text-editor.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t<ul>\n \t<li>P. Wendling, J. Curtis, H. Nirschl and M. Gleiss, \u201cMicrostructure Simulation to Predict the Influence of Particle Properties on Permeability of Granular Porous Media\u201d, <em>Transport in Porous Media<\/em>, https:\/\/doi.org\/10.1007\/s11242-025-02267-0, <u>153<\/u>, 18 (2026)<\/li>\n \t<li>E. Kim, A. Tovar, E. Ramos, J. Roehling, S. Hoover, N. Surghani, H. Radousky, J. Curtis, J. Ye and A. Baker, \u201cCold-Sprayed NMC622 Composite as a Cathode for Lithium-Ion Batteries\u201d, <em>ACS Applied Materials &amp; Interfaces, <\/em>https:\/\/doi.org\/10.1021\/acsami.5c17931, <u>17<\/u>, 67152-67159 (2025)<\/li>\n \t<li>L. He, Y. Chen, Y. Li, C. Li, Y. Guo and J. Curtis, \u201cTriaxial Compression Simulations of Fiber Structure Reinforced Granular Bed Using Discrete Element Method\u201d, <em>Powder Technology, <\/em>https:\/\/doi.org\/10.1016\/j.powtec.2025.120995,  <u>458<\/u>, 120995 (2025)<\/li>\n \t<li>E. Suehr, M. Gale, R. Lopez, R. Fontenot, P. Liever and J. Curtis, \u201cMulti-Sphere Rigid-Body Particles in a Parallelized LEBC with LIGGGHTS\u201d, <em>Computer Physics Communications, <\/em>https:\/\/doi.org\/10.1016\/j.cpc.2025.109636, <u>313<\/u>, 109636 (2025)<\/li>\n \t<li>J. Han, P. Wang, Y. Guo, T. Pahtz, Z. Yu, CY Wu and J. Curtis, \u201cThermo-Responsive Jamming by Particle Shape Change\u201d, <em>Nature Communications, <\/em>https:\/\/doi.org\/10.1038\/s41467-025-57475-5, 16, 2303 (2025)<\/li>\n \t<li>C. Nguyen, J. Curtis and K. Salari, \u201cExploring the Regimes of Particle Behavior upon Impact via the Discrete Element Method\u201d, <em>Pharmaceutics, <\/em>https:\/\/doi.org\/10.3390\/pharmaceutics16060727, 16, 727 (2024)<\/li>\n \t<li>J. Hao, Y. Guo, Z. Yu and J. Curtis, \u201cPressure-controlled Secondary Flows and Mixing in Sheared Platonic Solid Particles\u201d, <em>AIChE Journal, <\/em>https:\/\/doi.org\/10.1002\/aic.18090, <u>69<\/u>, e18090 (2023)<\/li>\n \t<li>P. Li, Y. Li, X. Hua, Y, Guo and J. Curtis, \u201c3D DEM Simulations and Experiments on Spherical Impactor Penetrating into the Elongated Particles\u201d, <em>Materials<\/em>, <u>16<\/u>, 1664 (2023)<\/li>\n \t<li>Y. Li, Q. Zhang, X. Hua, Y. Guo and J. Curtis, \u201cFiber Reinforcement on Spherical Granular Beds under Triaxial Compression\u201d, Powder Technology, https:\/\/doi.org\/10.1016\/j.powtec.2022.117928 (2022)<\/li>\n \t<li>J. Yang, K. Buettner, V. DiNenna, and J. Curtis, \u201cComputational and Experimental Study of the Combined Effects of Particle Aspect Ratio and Effective Diameter on Flow Behavior\u201d, <em>Chemical Engineering Science<\/em>, <u>255<\/u> , 117621 (2022)<\/li>\n \t<li>D. Berzi, K. Buettner and J. Curtis, \u201cDense, Shearing Flows of Soft, Frictional Cylinders\u201d, <em>Soft Matter<\/em>, <u>18,<\/u> 80-88 (2022)<\/li>\n \t<li>Y. Li, J. Hao, Y. Liu, J. Curtis, and Y. Guo, \u201cJamming in Granular Shear Flows of Frictional, Polydisperse Cylindrical Particles\u201d, <em>Advanced Powder Technology<\/em>, <u>32<\/u>, 3746-3759 (2021)<\/li>\n \t<li>Y. Guo, Q. Liu, Y. Li, Z. Li, H. Jin, C. Wassgren and J. Curtis, \u201cDiscrete Element Method Models of Elastic and Elastic-Plastic Fiber Assemblies\u201d, <em>AIChE Journal<\/em>, doi: 10.1002\/aic.17296, <u>67<\/u>, e17296 (2021)<\/li>\n \t<li>J. Yang, K. Buettner, Y. Guo and J. Curtis, \u201cCollisional Dissipation Rate for Binary Mixtures of Aspherical Particles\u201d, <em>Powder Technology<\/em>, <u>387<\/u>, 9-15 (2021)<\/li>\n \t<li>K. Buettner, J. Curtis, and A. Sarkar, \u201cFluid-Particle Drag Force Measurements from Particle-Resolved CFD Simulations of Flow Past Random Arrays of Ellipsoidal Particles\u201d, <em>Chemical Engineering Science<\/em>, 238, 11649 (2021)<\/li>\n \t<li>Y. Jiang, Y. Guo, Z. Yu, X. Hua, J. Lin, J. Wang, C. Wassgren and J. Curtis, \u201cDEM-CFD Analyses of Flexible Fiber Fluidization\u201d, <em>Journal of Fluid Mechanics<\/em>, <u>910<\/u>, A8, doi:10.1017\/jfm.2020.930 (2021)<\/li>\n \t<li>J. Yang, P. Bunchatheeravate, J. Bullard, S. Thakur and J. Curtis, \u201cExperimental and Numerical Investigations of the Shear Behavior of Binary Particle Blends\u201d, <em>AIChE Journal<\/em>, <u>67<\/u>, e17090, 13 pages (2021)<\/li>\n \t<li>Y. Li, Z. Yu, J. Yang, C. Wassgren, J. Curtis and Y. Guo, \u201cDiscrete Element Method Investigation of Binary Granular Flows with Different Particle Shapes\u201d, <em>Energies<\/em>, <u>13<\/u>, 1841, 25 pages (2020)<\/li>\n \t<li>K. Buettner, Y. Guo and J. Curtis, \u201cDevelopment of a Collisional Dissipation Rate Model for Frictional Cylinders\u201d, <em>Powder Technology<\/em>, <u>365<\/u>, 83-91 (2020)<\/li>\n \t<li>D. Xu, F. Yang, H. Jin, J. Curtis and Y. Guo. \u201cAn Investigation of Heat Transfer of Flexible Fibers in a Rotating Drum Dryer using the Discrete Element Method\u201d, <em>Powder Technology<\/em>, <u>364<\/u>, 494-506 (2020)<\/li>\n \t<li>S. Mena and J. Curtis, \u201cExperimental Data for Solid-Liquid Flows at Intermediate and High Stokes Numbers\u201d, <em>Journal of Fluid Mechanics<\/em>, <u>883<\/u>, A24. doi:10.1017\/jfm.2019.836, 47 pages (2020)<\/li>\n \t<li>Y. Guo, Y. Li, Q. Liu, H. Jin, D. Xu, C. Wassgren and J. Curtis, \u201cAn Investigation on Triaxial Compression of Flexible Fiber Packings\u201d, <em>AIChE Journal<\/em>, <u>66<\/u>, e16946, 14 pages (2020)<\/li>\n \t<li>Q. Hou, Z. Zhou, J. Curtis and A.Yu, \u201cStatistical Analysis of Monodispersed Coarse Particle Motion in a Gas-Fluidized Bed\u201d, <em>Powder Technology<\/em>, <u>363<\/u>, 107-111 (2020)<\/li>\n \t<li>Y. Li, J. Ho, Y. Guo, J. Hanhui and J. Curtis, \u201cThe Effect of Polydispersity on the Stresses of Cylindrical Particle Flows\u201d, <em>Powder Technology<\/em>, <u>361<\/u>, 943-956 (2020)<\/li>\n \t<li>Y. Shen, Y. Liu and J. Curtis, \u201cComputational Fluid Dynamics Study of Re-Blown Operation in an Ironmaking Blast Furnace\u201d, <em>Powder Technology<\/em>, <u>361<\/u>, 145-159 (2020)<\/li>\n \t<li>H. Tangri, Y. Guo, and J. Curtis, \u201cHopper Discharge of Elongated Particles of Varying Aspect Ratio: Experiments and DEM Simulations\u201d, <em>Chemical Engineering Science: X<\/em>, <u>4<\/u>, 100040, 18 pages (2019)<\/li>\n \t<li>K. Buettner, Y. Guo and J. Curtis, \u201cSome Considerations for Measuring the Collisional Dissipation Rate of Flexible Fibers\u201d, <em>Powder Technology<\/em>, <u>357<\/u>, 360-366 (2019)<\/li>\n \t<li>D. Portnikov, H. Kalman, J. Curtis and P. Pullammanappallil, \u201cMechanical Characteristics of Individual Bio Particles\u201d, <em>Biomass Conversion and Biorefinery<\/em>. 1-14, https:\/\/doi.org\/10.1007\/s13399-019-00489-z (2019)<\/li>\n \t<li>Q. Hou, Z. Zhou, J. Curtis and A. Yu, \u201cHow to Generate Valid Local Quantities of Particle-Fluid Flows for Establishing Constitutive Relations\u201d, <em>AIChE Journal<\/em>, <u>65<\/u>, e16690, 13 pages (2019)<\/li>\n \t<li>R. Kumar, W. Ketterhagen, A. Sarkar, J. Curtis and C. Wassgren, \u201cBreakage Modeling of Needle-shaped Particles using the Discrete Element Method\u201d, <em>Chemical Engineering Science: X<\/em>, <u>3<\/u>, 100027, 16 pages (2019)<\/li>\n \t<li>J. Yang, L. Bello, K. Buettner, C. Wassgren and J. Curtis, \u201cBreakage of Wet Flexible Fiber Agglomerates Impacting a Plane\u201d, <em>AIChE Journal<\/em>, <u>65<\/u>, e16626, 13 pages (2019)<\/li>\n \t<li>J. Yang, Y. Guo and J. Curtis, \u201cDEM Investigation of Shear Flows of Binary Mixtures of Non-Spherical Particles\u201d, <em>Chemical Engineering Science<\/em>, <u>202,<\/u> 383-391 (2019)<\/li>\n \t<li>Y. Guo, K. Buettner, G. Lane, C. Wassgren, B. Hancock, W. Ketterhagen and J. Curtis, \u201cComputational and Experimental Studies of Flexible Fiber Flows in a Normal-Stress-Fixed Shear Cell\u201d, <em>AIChE Journal<\/em>, <u>65<\/u>, 64-74 (2019)<\/li>\n \t<li>S. Mena, F. Brunier-Coulin, J. Curtis and P. Philippe, \u201cExperimental Observation of Two Regimes of Expansion in Localized Fluidization of a Granular Medium\u201d, <em>Physical Review E<\/em>, <u>98<\/u>, 042902, 12 pages (2018)<\/li>\n \t<li>Y. Guo, C. Wassgren, B. Hancock, W. Ketterhagen and J. Curtis, \u201cDiscrete Element Simulation Studies of Angle of Repose and Shear Flow of Wet, Flexible Fibers\u201d, <em>Soft Matter,<\/em> <u>14<\/u>, 2923-2937 (2018)<\/li>\n \t<li>R. Kumar, A. Sarkar, W. Ketterhagen, B. Hancock, J. Curtis, and C. Wassgren, \u201cInfluence of Normal Contact Force Model on Simulations of Spherocylindrical Particles\u201d, <em>AIChE Journal, <\/em><u>64<\/u>, 1986-2001 (2018)<\/li>\n \t<li>Y. Guo, C. Wassgren, J. Curtis and D. Xu, \u201cA Bonded Sphero-Cylinder Model for the Discrete Element Simulation of Elasto-Plastic Fibers\u201d, <em>Chemical Engineering Science<\/em>, <u>175<\/u>, 118-129 (2018)<\/li>\n \t<li>D. Berzi, N. Thai-Quang, Y. Guo and J. Curtis, \u201cCollisional Dissipation Rate in Shearing Flows in Granular Liquid Crystals\u201d, <em>Physical Review E<\/em>, <u>95<\/u> (5) 050901, 5 pages (2017)<\/li>\n \t<li>S. Mena, L. Luu, P. Cuellar, P. Philippe, and J. Curtis, \u201cParameters Affecting the Localized Fluidization in a Particle Medium\u201d, <em>AIChE Journal<\/em>, <u>63<\/u>, 1529-1542 (2017)<\/li>\n \t<li>C. LaMarche, A. Moran, B van Wachem, and J. Curtis, \u201cTwo-Fluid Modeling of Cratering in a Particle Bed by a Subsonic Turbulent Jet\u201d, <em>Powder Technology<\/em>, <u>318<\/u>, 68-82 (2017)<\/li>\n \t<li>K. Buettner, Y. Guo, and J. Curtis, \u201cUsing the Discrete Element Method to Develop Collisional Dissipation Rate Models that Incorporate Particle Shape\u201d, <em>AIChE Journal<\/em>, <u>63<\/u>, 5384-5395 (2017)<\/li>\n \t<li>H. Tangri, Y. Guo, and J. Curtis, \u201cPacking of Cylindrical Particles: DEM Simulations and Experimental Measurements\u201d, <em>Powder Technology<\/em>, <u>317<\/u>, 72-82 (2017)<\/li>\n \t<li>Y. Guo, C. Wassgren, B. Hancock, W. Ketterhagen and J. Curtis, \u201cPredicting Breakage of High Aspect Ratio Particles in an Agitated Bed using the Discrete Element Method\u201d, <em>Chemical Engineering Science<\/em>, <u>158<\/u>, 314-327 (2017)<\/li>\n \t<li>D. Berzi, N. Thai-Quang, Y. Guo and J. Curtis, \u201cStresses and Orientational Order in Shearing Flows of Granular Liquid Crystals\u201d, <em>Physical Review E<\/em>, <u>93<\/u> (4), 040901, 5 pages (2016<\/li>\n \t<li>Y. Li, A. Dove, J. Curtis, and J. Colwell, \u201c3D DEM Simulations and Experiments Exploring Low-velocity Projectile Impacts into a Granular Bed\u201d, <em>Powder Technology<\/em>, <u>288<\/u>, 303-314 (2016)<\/li>\n \t<li>C. LaMarche and J. Curtis, \u201cCratering of a Particle Bed by a Subsonic Turbulent Jet: Effect of Particle Shape, Size and Density\u201d, <em>Chemical Engineering Science<\/em>, <u>138<\/u>, 432-445 (2015)<\/li>\n \t<li>N. Afshar-Mohajer, C. Wu, J. Curtis, and J. Gaier, \u201cReview of Dust Transport and Mitigation Technologies in Lunar and Martian Atmospheres\u201d, <em>Advances in Space Research<\/em>, <u>56<\/u> (6), 1222-1241 (2015)<\/li>\n \t<li>Y. Guo, C. Wassgren, B. Hancock, W. Ketterhagen, and J. Curtis, \u201cComputational Study of Granular Shear Flows of Dry Flexible Fibers using the Discrete Element Method\u201d, <em>Journal of Fluid Mechanics<\/em>, <u>775<\/u>, 24-52 (2015)<\/li>\n \t<li>X. Hua, J. Curtis, Y. Guo, B. Hancock, W. Ketterhagen, and C. Wassgren, \u201c<a href=\"http:\/\/www.sciencedirect.com\/science\/article\/pii\/S0009250915004078\">The Internal Loads, Moments, and Stresses in Rod-like Particles in a Low-speed, Vertical Axis Mixer<\/a>\u201d, <em>Chemical Engineering Science<\/em>, <u>134<\/u>, 581-598 (2015)<\/li>\n \t<li>A. Anand, J. Curtis, C. Wassgren, B. Hancock and W. Ketterhagen, \u201cExperimental Study of Wet Cohesive Particles Discharging from a Rectangular Hopper\u201d, <em>I&amp;EC Research<\/em>, <u>54<\/u>, 4545-4551 (2015)<\/li>\n \t<li>Y. Guo and J. Curtis, \u201cDiscrete Element Method Simulations for Complex Granular Flows\u201d (Invited), <em>Annual Review of Fluid Mechanics<\/em>, <u>47<\/u>, 21-46 (2015)<\/li>\n \t<li>D. Rangarajan, T. Shiozawa, Y. Shen, A. Yu and J. Curtis, \u201cInfluence of Operating Parameters on Raceway Properties in a Blast Furnace using a Two-Fluid Model\u201d, <em>I&amp;EC Research<\/em>, <u>53<\/u>, 4983-4990 (2014)<\/li>\n \t<li>P. Bunchatheeravate and J. Curtis, \u201cDeposition of Non-Spherical Particles in Bifurcating Airways\u201d, <em>Pharmaceutical Development and Technology<\/em>, <u>19<\/u>, 942-951 (2014)<\/li>\n \t<li>Y. Guo, C. Wassgren, W. Ketterhagen, B. Hancock, and J. Curtis, \u201cValidation and Time Step Determination of Discrete Element Modeling of Flexible Fibers,\u201d <em>Powder Technology<\/em>, <u>249<\/u>, 386-395 (2013)<\/li>\n \t<li>Y. Guo, C. Wassgren, B. Hancock, W. Ketterhagen, and J. Curtis, \u201cGranular Shear Flows of Flat Disks and Elongated Rods without and with Friction,\u201d <em>Physics of Fluids<\/em>, <u>25<\/u>, Article 06334, 25 pages (2013)<\/li>\n \t<li>X. Hua, J. Curtis, B. Hancock, W. Ketterhagen, and C. Wassgren, \u201cThe Kinematics of Non-Cohesive, Sphero-cylindrical Particles in a Low-speed, Vertical Axis Mixer,\u201d <em>Chemical Engineering Science<\/em>, <u>101<\/u>, 144 \u2013 164 (2013)<\/li>\n \t<li>S.B. Kuang, C.Q. LaMarche, J. Curtis, and A. B. Yu, \u201cDiscrete Particle Simulation of Jet-Induced Cratering of a Granular Bed\u201d, <em>Powder Technology<\/em>, <u>239<\/u>, 319-336 (2013)<\/li>\n \t<li>D. Rangarajan, A. Mychkovsky, S. Benyahia, and J. Curtis, \u201cContinuum Model Validation of Gas Jet Plume Injection into a Gas-Solid Bubbling Fluidized Bed\u201d, <em>AIChE Journal<\/em>, <u>59<\/u>, 3247-3264 (2013)<\/li>\n \t<li>P. Bunchatheeravate, Yusuke Fujii, Shuji Matsusaka, and J. Curtis, \u201cPrediction of Particle Charging in a Dilute Pneumatic Conveying System\u201d, <em>AIChE Journal<\/em>, <u>59<\/u>, 2308-2316 (2013)<\/li>\n \t<li>D. Rangarajan, A. Mychkovsky, J. Curtis and S. Cecco, \u201dEffect of Emulsion Fluidization State on the Fluctuations in Gas and Particle Velocities Inside the Plume of a Gas Jet Penetrating a Fluidized Bed\u201d, <em>Powder Technology<\/em>, <u>242<\/u>, 74-80 (2013)<\/li>\n \t<li>Y. Guo, C. Wassgren, W. Ketterhagen, B. Hancock, B. James and J. Curtis, \u201cA Numerical Study of Granular Shear Flows of Rod-like Particles Using the Discrete Element Method\u201d, <em>Journal of Fluid Mechanics<\/em>, <u>713<\/u>, 1-26 (2012)<\/li>\n \t<li>D. Rangarajan and J. Curtis, \u201cThe Effect of Spanwise Width on Rectangular Jets with Sidewalls\u201d, <em>Journal of Fluids Engineering<\/em>, <u>134<\/u>, 031202, 8 pages (2012)<\/li>\n \t<li>Y. Guo, C. Wassgren, W. Ketterhagen, B. Hancock, and J. Curtis, \u201cSome Computational Considerations Associated with Discrete Element Method Simulations of Cylindrical Particles\u201d, <em>Powder Technology<\/em>, <u>228<\/u>, 193-198 (2012)<\/li>\n \t<li>A. Rao, J. Curtis, B. Hancock, and C. Wassgren, \u201cNumerical Simulation and Validation of a Dilute Turbulent Gas-Particle Flow Model with Turbulence Modulation\u201d, <em>AIChE Journal,<\/em> <u>58<\/u>, 1381-1396 (2012)<\/li>\n \t<li>M. Kodam, R. Bharadwaj, J. Curtis, B. Hancock, and C. Wassgren, \u201cDiscrete Element Method Modeling of Bi-convex Pharmaceutical Tablets: Contact Detection Algorithms and Validation\u201d, <em>Chemical Engineering Science<\/em>, <u>69<\/u>, 587-601 (2012)<\/li>\n \t<li>A. Rao, J. Curtis, B. Hancock, and C. Wassgren, \u201cClassifying the Fluidization and Segregation Behavior of Binary Mixtures using Particle Size and Density Ratios\u201d, <em>AIChE J.<\/em>, <u>57<\/u>, 1446-1458 (2011)<\/li>\n \t<li>C. LaMarche, P. Metzger, and J. Curtis, \u201cPermeability of JSC-1A: A Lunar Soil Simulant\u201d, <em>ICARUS<\/em>, <u>212<\/u>, 383-389 (2011)<\/li>\n \t<li>M. Kodam, R. Bharadwaj, J. Curtis, B. Hancock, and C. Wassgren, \u201cCylindrical Object Contact Detection for Use in Discrete Element Method Simulations, Part I \u2013 Contact Detection Algorithms\u201d,<em> Chemical Engineering Science<\/em>, <u>65<\/u>, 5852-5862 (2010)<\/li>\n \t<li>M. Kodam, R. Bharadwaj, J. Curtis, B. Hancock, and C. Wassgren, \u201cCylindrical Object Contact Detection for Use in Discrete Element Method Simulations, Part II \u2013 Experimental Validation\u201d, <em>Chemical Engineering Science<\/em>, <u>65<\/u>, 5863-5871 (2010)<\/li>\n \t<li>M. Pepple, C. Yurteri, and J. Curtis, \u201cVariation in Mean Turbulence Intensity in Fully Developed Pipe Flow\u201d, <em>International Review of Chemical Engineering<\/em>, <u>2<\/u>, 337-342 (2010).<\/li>\n \t<li>T. Sinha, R. Bharadwaj, J. Curtis, B. Hancock and C. Wassgren, \u201cFinite Element Analysis of Pharmaceutical Tablet Compaction using a Density Dependent Material Plasticity Model\u201d, <em>Powder Technology<\/em>, <u>202<\/u>, 46-54 (2010<\/li>\n \t<li>A. Rao, J. Curtis, B. Hancock, and C. Wassgren, \u201cThe Effect of Column Diameter and Bed Height on Minimum Fluidization Velocity\u201d, <em>AIChE J.<\/em>, <u>56<\/u>, 2304-2311 (2010).<\/li>\n \t<li>T. Sinha, C. Wassgren, J. Curtis, and B. Hancock, \u201cA Study on the Sensitivity of Drucker-Prager Cap Model Parameters during the Decompression Phase of Powder Compaction Simulations\u201d, <em>Powder Technology<\/em>, <u>198<\/u>, 315-324 (2010)<\/li>\n \t<li>A. Anand, J. Curtis, C. Wassgren, B. Hancock, and W. Ketterhagen, \u201cSegregation of Cohesive Granular Materials During Discharge from a Rectangular Hopper\u201d (Invited), <em>Granular Matter<\/em>, <u>12<\/u>, 193-200 (2010)<\/li>\n \t<li>M. Pepple, J. Curtis and C. Yurteri, \u201cPressure Drop in Pipe Bends of Large Curvature at High Re\u201d, <em>International Review of Chemical Engineering<\/em>, <u>1<\/u>, 439-444 (2009)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cNumerical Simulation of the Reynolds Number Effect on Gas-Phase Turbulence Modulation, <em>International Journal of Multiphase Flow<\/em>, <u>35<\/u>, 129-141 (2009)<\/li>\n \t<li>J. S. Curtis and C. Bowman, \u201cA Summary of the Life and Accomplishments of Nicholas A.Peppas\u201d, <em>Chemical Engineering Education<\/em>, <u>43<\/u>, 170-185 (2009)<\/li>\n \t<li>W. Ketterhagen, J. Curtis, C. Wassgren and B. Hancock, \u201cPredicting the Flow Mode from Hoppers using the Discrete Element Method (DEM)\u201d, <em>Powder Technology<\/em>, <u>195<\/u>, 1-10 (2009)<\/li>\n \t<li>M. Kodam, R. Bharadwaj, J. Curtis, B. Hancock, and C. Wassgren, \u201cForce Model Considerations for Glued Sphere Discrete Element Method Simulations\u201d, <em>Chemical Engineering Science<\/em>, <u>64<\/u>, 3466-3475 (2009)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cNumerical Simulation of Turbulent Particle-Laden Flows with Significant Fluid to Particle Inertia Ratio\u201d, <em>I &amp; EC Research<\/em>, <u>48<\/u>, 5874-5884 (2009)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cReynolds Number Dependence of Gas-Phase Turbulence in Particle-Laden Flows: Effects of Particle Inertia and Particle Loading\u201d, <em>Powder Technology<\/em>, <u>195<\/u>, 119-127 (2009)<\/li>\n \t<li>A. Anand, J. Curtis, C. Wassgren, B. Hancock, and W. Ketterhagen, \u201cPredicting Discharge Dynamics of Wet Cohesive Particles from a Rectangular Hopper using the Discrete Element Method\u201d, <em>Chemical Engineering Science<\/em>, <u>64<\/u>, 5268-5275 (2009)<\/li>\n \t<li>A. Anand, J. Curtis, C. Wassgren, B. Hancock and W. Ketterhagen, \u201cPredicting Discharge Dynamics from a Rectangular Hopper using the Discrete Element Method, <em>Chemical Engineering Science<\/em>, <u>63<\/u>, 5821-5830 (2008)<\/li>\n \t<li>J. Curtis, \u201cChapter 13: Slurry Flow\u201d (Invited), <u>Introduction to Particle Technology (Second Edition)<\/u>, John Wiley &amp; Sons, West Sussex, England, 91-116 (2008)<\/li>\n \t<li>W. Ketterhagen, J. Curtis, C. Wassgren and B. Hancock, \u201cModeling Granular Segregation in Flow from Quasi Three-Dimensional Wedge-Shaped Hoppers\u201d, <em>Powder Technology<\/em>, <u>179<\/u>, 126-143 (2008)<\/li>\n \t<li>W. Ketterhagen, J. Curtis, C. Wassgren, A. Kong, P. Narayan and B. Hancock, \u201cGranular Segregation in Discharging Cylindrical Hoppers: A Discrete Element and Experimental Study\u201d, <em>Chem. Eng. Sci.<\/em>, <u>62<\/u>, 6423-6439 (2007)<\/li>\n \t<li>C. Wassgren and J. Curtis, \u201cModeling the Physical Properties of Powders and Compacts\u201d (Invited Paper), <em>MRS Bulletin<\/em>, <u>31<\/u>, 900-904 (2006)<\/li>\n \t<li>K. Hadinoto, E. Jones, C. Yurteri, and J. Curtis, \u201cReynolds Number Dependence of Gas-Phase Turbulence in Gas-Particle Flows\u201d, <em>Int. J. Multiphase Flow<\/em>, <u>31<\/u>, 416-434 (2005)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cExperimental Investigation of Interstitial Fluid Effects on Particle Fluctuating Motion\u201d, <em>Proceedings of FEDSM2005<\/em>, Houston, Texas, Paper No. 77280, 6 pages (2005)<\/li>\n \t<li>W. Ketterhagen, J. Curtis, and C. Wassgren, \u201cStress Results from 2-D Granular Shear Flow Simulations Using Various Collision Models\u201d, <em>Phys. Rev. E.<\/em>, <u>71<\/u>, 061307, 11 pages (2005)<\/li>\n \t<li>M. Lasinski, J. Pekny, and J. Curtis, \u201cDEM Simulations of Particle Clustering at High Solids Concentrations\u201d (Invited Keynote Paper), <em>Proceedings of FEDSM2005<\/em>, Houston, Texas, Paper No. 77279, 6 pages (2005)<\/li>\n \t<li>K. Henthorn, K. Park, and J. Curtis, \u201cMeasurement and Prediction of Pressure Drop in Pneumatic Conveying: Effect of Particle Characteristics, Mass Loading, and Reynolds Number\u201d, <em>I &amp; EC Research<\/em>, <u>44<\/u>, 5090-5098 (2005)<\/li>\n \t<li>M. Lasinski, J. Pekny, and J. Curtis, \u201cSimulation of Particle Clustering in Dense-Phase Gas-Particle Flows\u201d, <em>Proceedings of the 5<sup>th<\/sup> International Conference on Multiphase Flow<\/em>, Yokohama, Japan, Paper No. 553, 6 pages (2004)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cEffect of Interstitial Fluid on Particle-Particle Interactions in the Kinetic Theory Approach of Dilute, Turbulent Fluid-Particle Flow Simulation\u201d, <em>Proceedings of the 5<sup>th<\/sup> International Conference on Multiphase Flow<\/em>, Yokohama, Japan, Paper No. 433, 14 pages (2004)<\/li>\n \t<li>J. Curtis, K. Hayden, S. Moeykens, and R. Krishnan, \u201cEnhancing the Teaching of Fluid Mechanics and Transport Phenomena via FLOWLAB \u2013 A Computational Fluid Dynamics Tool\u201d, <em>ASME-FED <\/em>(2004)<\/li>\n \t<li>J.S. Curtis and B. van Wachem, \u201cModeling Particle-Laden Flows: A Research Outlook\u201d (Invited Perspectives Paper), <em>AIChE Journal<\/em>, <u>50<\/u>, 2638-2645 (2004<\/li>\n \t<li>M.E. Lasinski, J. S. Curtis, and J. F. Pekny, \u201cEffect of System Size on Particle-Phase Stress and Microstructure Formation\u201d, <em>Physics of Fluids<\/em>, <u>16<\/u>, 265-273 (2004)<\/li>\n \t<li>K. Hadinoto and J. Curtis, \u201cEffect of Interstitial Fluid on Particle-Particle Interactions in Kinetic Theory\u201d,<em> I &amp; EC Research<\/em>, <u>43<\/u>, 3604-3615 (2004)<\/li>\n \t<li>J. Curtis, \u201cEffect of Solids Loading, Reynolds Number, and Particle Size Distribution on Velocity Fluctuations in Gas-Particle Flows\u201d (Invited Paper), <em>Proceedings of FEDSM\u201903<\/em>, Honolulu, HI, Paper No 45669, 1-6 (2003)<\/li>\n \t<li>K. Hayden, K. Park, and J. Curtis, \u201cInfluence of Particle Characteristics on Pick Up Velocity\u201d, <em>Powder Technology<\/em>, <u>131<\/u>, 7-14 (2003)<\/li>\n \t<li>R. Hamilton, D. Ramkrishna, and J. Curtis, \u201cBeyond Log-Normal Distributions: A Hermite Spectral Method for Solving Population Balance Equations\u201d, <em>AIChE J.<\/em>, <u>49<\/u>, 2328-2343 (2003)<\/li>\n \t<li>J. Sinclair and G. Sinclair, \u201cChapter 1: \u201cComputation Chemistry and Engineering\u201d (Invited), <u>Expanding World of Chemical Engineering<\/u>, Gordon and Breach Science Publishers, Grey, Switzerland, 1-20 (2002)<\/li>\n \t<li>E.N. Jones, C. Yurteri, and J. Sinclair, \u201cEffect of Mass Loading on Gas-Solids Motion and Particle Segregation Patterns\u201d, <u>Handbook of Powder Technology<\/u>, Elsevier Science, <u>10<\/u>, 843-849 (2001)<\/li>\n \t<li>B. van Wachem, J. Schouten, R. Krishna, C. van den Bleek and J. Sinclair, \u201cCFD Modeling of Gas-Fluidized Beds with Bimodal Particle Distribution\u201d, <em>AIChE J., <\/em><u>47<\/u>, 1292-1303 (2001)<\/li>\n \t<li>B. van Wachem, J. Schouten, R. Krishna, C. van den Bleek and J. Sinclair, \u201cComparative Analysis of CFD Models for Dense Gas-Solid Flows\u201d, <em>AIChE J., <\/em><u>47<\/u>, 1035-1052 (2001)<\/li>\n \t<li>G. Sinclair, K. Laskowitz, and J. Sinclair, \u201cGender Differences in Teams\u201d, <em>Journal of Engineering Technology<\/em>, <u>17<\/u>, 48-51 (2000)<\/li>\n \t<li>J. Sinclair, \u201cCFD for Multiphase Flow: Research Codes and Commercial Software\u201d,<em> AIChE Synposium Series<\/em>, <u>96<\/u>, 138-146 (2000)<\/li>\n \t<li>J. Sinclair, \u201cA Survey Course in Particle Technology<em>\u201d, Chem. Eng. Ed., <\/em><u>33<\/u>, 266-269 (1999)<\/li>\n \t<li>M. Schabel, T. Peterson, J. Sinclair and D. Lynch, \u201cCharacterization of Trapped Particles in RF Plasmas\u201d, <em>J. Appl. Phys<\/em>., <u>86<\/u>, 1834-1842 (1999<\/li>\n \t<li>B. van Wachem, J. Schouten, R. Krishna, C. van den Bleek and J. Sinclair, \u201cCFD Modeling for Gas-Solid Flows: Qualitative and Quantitative Comparative Analysis of the Various Treatments\u201d, <em>Numerical Methods for Multiphase Flows, ASME-FED<\/em>, <u>280<\/u><u>,<\/u> 7899, 1-8 (1999)<\/li>\n \t<li>J.L. Sinclair, \u201cCase Studies for CFD in Fluid-Particle Flows\u201d, <em>Chem. Eng. Ed., <\/em><u>32<\/u>, 108-112 (1998)<\/li>\n \t<li>T. Mallo, C. Hrenya, S. Miller, and J.L. Sinclair, \u201cComparison of Low Reynolds k-e Models for Predicting Heat Transfer Rates for Pipe Flow\u201d, <em>Int. J. of Heat and Mass Transfer, <\/em><u>41<\/u>, 1543-1547 (1998)<\/li>\n \t<li>J.L. Sinclair and T. Mallo, \u201cDescribing Particle-Turbulence Interaction in a Two-Fluid Framework\u201d, <em>Experimental Needs for CFD Code Validation, ASME-FED<\/em>, <u>4<\/u>, No. 5018, 7-14 (1998)<\/li>\n \t<li>J.L. Sinclair and H. Massah, \u201cCFD in Particle Laden Flows\u201d, <em>Numerical Methods for Multiphase Flows, ASME-FED<\/em> , <u>3<\/u>, 7-14 (1998)<\/li>\n \t<li>P. Agarwal and J.L. Sinclair, \u201cFlow Behavior in Pneumatic Conveying Systems Involving a Binary Particle Mixture\u201d, <u>Fluidization IX<\/u>, L.S. Fan and T. Knowlton, eds., Engineering Foundation, NY, NY, 477-484 (1998)<\/li>\n \t<li>J.L. Sinclair, \u201cChapter 5: Hydrodynamic Modeling\u201d (Invited) <u>Circulating Fluidized Beds<\/u>, J. Grace, A. Avidan and T. Knowlton, eds., Chapman and Hall, London, 149-180 (1997)<\/li>\n \t<li>P. Agarwal and J.L. Sinclair, \u201cThe Role of Fines in the Transport of Gas-Solid Suspensions\u201d, <em>Gas-Solid Flows, ASME-FED<\/em> <u>245<\/u>, No. 3626, 1-8 (1997)<\/li>\n \t<li>C.M. Hrenya and J.L. Sinclair, \u201cOn the Effects of Particle Phase Turbulence in Dense Gas-Solids Flow\u201d, <em>AIChE J., <\/em><u>43<\/u>, 853-869 (1997)<\/li>\n \t<li>K. Ogden, T. Peterson and J.L. Sinclair, \u201cChemical and Environmental Engineering; A Logical Combination\u201d, <em>Chem. Eng. Ed.<\/em>, <u>29<\/u>, 234-239 (1995)<\/li>\n \t<li>T. Mallo, M. Molnar, J.L. Sinclair, B. Hook, and R. Cocco, \u201cModeling Scale-up of a CFB Riser Reactor\u201d, <em>AIChE Symposium Series, <\/em><u>92<\/u>, No. 313, 6-9 (1996)<\/li>\n \t<li>H. Massah, J.L. Sinclair, and K. Kontomaris, \u201cInterpenetrating-Continua Modeling of Dense Fully-Developed Riser Flow\u201d, <em>Experimental and Numerical Flow Visualization, ASME-FED<\/em>, <u>239<\/u>, 209-216 (1996)<\/li>\n \t<li>E. Bolio and J.L. Sinclair, \u201cDilute Turbulent Gas-Solid Flow in Risers with Particle-Particle Interactions and Turbulence Modulation\u201d, <u>Fluidization VIII<\/u>, C. Laguerie and J.F. Large, eds., Engineering Foundation, NY, NY, 515-522 (1995)<\/li>\n \t<li>H. Massah, F. Shaffer, M. Shahnam and J.L. Sinclair, \u201cMeasurements of Specular and Diffuse Particle-Wall Collision Properties\u201d, <u>Fluidization VIII<\/u>, C. Laguerie and J.F. Large, eds., Engineering Foundation, NY, NY, 641-648 (1995)<\/li>\n \t<li>E. Bolio, J. Yasuna and J.L. Sinclair, \u201cDilute Turbulent Gas-Solid Flow in Risers with Particle-Particle Interactions\u201d, <em>AIChE J., <\/em><u>41<\/u>, 1375-1388 (1995)<\/li>\n \t<li>H. Massah, M. Shahnam, F. Shaffer and J.L. Sinclair, \u201cA Comparative Application of a Particle Image Velocimetry and Laser Doppler Velocimetry for Particle-Wall Collision Measurements\u201d, <em>Laser Anemometry, ASME-FED<\/em>, <u>218<\/u>, 145-150 (1995)<\/li>\n \t<li>J. Yasuna, H. Moyer, S. Elliott and J.L. Sinclair, \u201cQuantitative Predictions of Gas-Particle Flow in a Vertical Pipe with Particle-Particle Interactions\u201d, <em>Powder Tech.<\/em>, <u>84<\/u>, 23-34 (1995)<\/li>\n \t<li>J. Doney, D. Finseth, F. Shaffer and J.L. Sinclair, \u201cThe Aerodynamic Behavior of Charged Particles in an Electrostatic Separator\u201d, <em>Gas-Solid Flows, ASME-FED<\/em>, <u>228<\/u>, 393-399 (1995)<\/li>\n \t<li>E. Bolio and J.L. Sinclair, \u201cGas Turbulence Modulation in the Pneumatic Conveying of Massive Particles in Vertical Tubes\u201d,<em> J. Multiphase Flow<\/em>, <u>21<\/u>, 985-1001 (1995)<\/li>\n \t<li>C.M. Hrenya, E. Bolio, D. Chakrabarti and J.L. Sinclair, \u201cComparison of Low Reynolds k-e Turbulence Models in Predicting Fully Developed Pipe Flow\u201d, <em>Chem. Eng. Sci., <\/em><u>50<\/u>, 1923-1941 (1995)<\/li>\n \t<li>T. Mallo, J. Doney and J.L. Sinclair, \u201cPredicting Heat Transfer Rates in Turbulent Gas-Solid Flows\u201d, <em>Proceedings of the 10th International Heat Transfer Conference<\/em>, American Society of Mechanical Engineers, Brighton, England, <u>5<\/u>, 333-338 (1994)<\/li>\n \t<li>J. Yasuna, S. Elliott, H. Westersund, and J.L. Sinclair, \u201cAssessing the Predictive Capability of a Gas\/Solid Flow Model which includes Particle-Particle Interactions\u201d, <u>Circulating Fluidized Bed Technology IV<\/u>, A. Avidan, ed., American Institute of Chemical Engineers, NY, NY, 340-344 (1994)<\/li>\n \t<li>E. Bolio and J.L. Sinclair, \u201cPredicting the Turbulent Flow Behavior of Gas\/Solid Mixtures\u201d, in <em>Proceedings of the 12<sup>th<\/sup> International Conference on Fluidized Bed Combustion<\/em>, L. Rubow and G. Commonwealth, eds., American Society of Mechanical Engineers, San Diego, CA, 475-493 (1993)<\/li>\n \t<li>J. Yasuna, E. Bolio, I. Gamwo and J.L. Sinclair, \u201cPredictive Capabilities of Fundamental Hydrodynamic Models for Gas-Solid Flow Based on the Kinetic Theory Analogy\u201d, <em>AIChE Symposium Series<\/em>, <u>89<\/u>, 184-191 (1993)<\/li>\n \t<li>J.L. Sinclair and R. Jackson, \u201cGas-Particle Flow in a Vertical Pipe with Particle-Particle Interactions\u201d, <em>AIChE J.<\/em>, <u>35<\/u>, 1473-1486 (1989)<\/li>\n \t<li>N.A. Peppas, J.L. Sinclair, M.J. Smith, and J.G. Mounts, \u201cRelaxation-Controlled Transport of Penetrants in Glassy Polymers\u201d, in <em>Advances in Rheology. Vol. 3 Polymers,<\/em> B. Mena, A. Garcia-Rejon, and C. Rangel-Nafaile, eds., U.N.A.M., Mexico City, 209-214 (1984)<\/li>\n \t<li>N.A. Peppas and J.L. Sinclair, \u201cAnomalous Transport of Penetrants in Glassy Polymers\u201d, <em>Coll. Polym. Sci., <\/em><u>261<\/u>, 404-408 (1983)<\/li>\n<\/ul>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"<p>Publications P. Wendling, J. Curtis, H. Nirschl and M. Gleiss, \u201cMicrostructure Simulation to Predict the Influence of Particle Properties on Permeability of Granular Porous Media\u201d, Transport in Porous Media, https:\/\/doi.org\/10.1007\/s11242-025-02267-0, 153, 18 (2026) E. Kim, A. Tovar, E. Ramos, J. Roehling, S. Hoover, N. Surghani, H. Radousky, J. Curtis, J. Ye and A. Baker, \u201cCold-Sprayed [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"inline_featured_image":false,"footnotes":""},"class_list":["post-36","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/pages\/36","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/comments?post=36"}],"version-history":[{"count":31,"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/pages\/36\/revisions"}],"predecessor-version":[{"id":729,"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/pages\/36\/revisions\/729"}],"wp:attachment":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/curtis\/wp-json\/wp\/v2\/media?parent=36"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}