Publications

 

JOURNAL PAPERS AND BOOK CHAPTERS

2017

98) Kellogg, K. M., P. Liu, C. Q. LaMarche, and C. M. Hrenya, "Continuum Theory for Rapid, Cohesive-Particle Flows: General Balance Equations and DEM-based Closure of Cohesive-specific Quantities," Journal of Fluid Mechanics (in press).

97) Cocco, R. A., S. B. Reddy Karri, T. M. Knowlton, J. Findlay, T. Gauthier, J. W. Chew, and C. M. Hrenya, "Intrusive Probes in Riser Applications," AIChE Journal (in press).

96) LaMarche, C. Q., A. W. Miller, P. Liu, S. Leadley, and C.M. Hrenya, "How nano-scale roughness impacts the flow of grains influenced by capillary cohesion," AIChE Journal (in press).

95) Lattanzi, A. M. and C. M. Hrenya, "Indirect Conduction in Gas-Solid Systems: Static vs. Dynamic Effects," AIChE Journal (in press).

94) Cocco, R., W. D. Fullmer, P. Liu, and C. M. Hrenya, “CFD-DEM: Modeling the small to understand the large,” Chemical Engineering Progress (Sep 2017); featured as cover art on issue.

93) Fullmer, W. D., G. Liu, X. Yin and C. M. Hrenya, "Clustering instabilities in sedimenting fluid-solid systems: Critical assessment of kinetic-theory-based predictions using DNS data," Journal of Fluid Mechanics, 823, 433-469 (2017).

92) Berger, K. J. and C. M. Hrenya, "Predicting regolith erosion during a lunar landing: Role of a continuous size distribution," Journal of Aerospace Engineering, 30, art. no. 04017027, 10 pages (2017).

91) Liu, P., K. M. Kellogg, C. Q. LaMarche, and C. M. Hrenya, "Dynamics of singlet-doublet collisions of cohesive particles," Chemical Engineering Journal, 324, 380-391 (2017).

90) Liu, P., C. Q. LaMarche, K. M. Kellogg, and C. M. Hrenya, "Dense vs. dilute fluidization of cohesive particles: Reverse sensitivity to friction and restitution coefficient," Physical Review Fluids, 2, art. no. 054302, 20 pages (2017).

89) Fullmer, W. D. and C. M. Hrenya, “Are Continuum Predictions of Clustering Chaotic?” Chaos, 27, art. no. 031101, 8 pages (2017). arXiv

88) Anantharaman, A., A. Issangya, S. B. R. Karri, J. Findlay, C. M. Hrenya, R. A. Cocco, J. W. Chew, “Annulus flow behavior of Geldart Group B particles in a pilot-scale CFB riser,” Powder Technology, 305, 816-828 (2017). 

87) LaMarche, C. Q., P. Liu, K. M. Kellogg, and C. M. Hrenya, “Fluidized-bed measurements of carefully-characterized, mildly cohesive (Group A) particles,” Chemical Engineering Journal, 310, 259-271 (2017).

86) LaMarche, C.Q., S. Leadley, P. Liu, K. M. Kellogg, C. M. Hrenya, “Method of quantifying surface roughness for accurate adhesive force predictions,” Chemical Engineering Science, 158, 140-153 (2017).

85) Fullmer, W. D. and Hrenya, C. M., "The clustering instability in rapid granular and gas-solid flows," Annual Review of Fluid Mechanics, 49, 485-510 (2017). 

2016

84) Morris, A. B., S. Pannala, Z. Ma, and C. M. Hrenya, “Development of soft-sphere contact models for thermal heat conduction in granular flows,” AIChE Journal, 62, 4526-4535 (2016).

83) Anantharaman, A., S. B. R. Karri, J. G. Findlay, C. M. Hrenya, R. A. Cocco, J. W. Chew, “Interpreting differential pressure signals for particle properties and operating conditions in a pilot-scale circulating fluidized bed (CFB) riser,” Industrial & Engineering Chemistry Research, 55, 8659-8670 (2016).

82) LaMarche, C. Q., A. W. Miller, P. Liu, and C. M. Hrenya, “Linking micro-scale predictions of capillary forces to macro-scale fluidization experiments in humid environments,” AIChE Journal, 62, 3585-3597 (2016).

81) Liu, P., C. Q. LaMarche, K. M. Kellogg, S. Leadley and C. M. Hrenya, “Cohesive grains: Bridging micro-level measurements to macro-level flow behavior via surface roughness,”AIChE Journal (Letter), 62, 3529-3537 (2016).

80) Lattanzi, A. M. and Hrenya, C. M., "A coupled, multiphase heat flux boundary condition for the discrete element method," Chemical Engineering Journal, 304, 766-773 (2016). 

79) Berger, K. J. and C. M. Hrenya, “Impact of a binary size distribution on particle erosion due to an impinging gas plume,” AIChE Journal, 62, 984-995 (2016).

78) Liu, P., C. Q. LaMarche, K. M. Kellogg, and C. M. Hrenya, “Fine particle defluidization: Interaction between cohesion, Young's modulus and static bed height,” Chemical Engineering Science, 145, 266-278 (2016).

77) Morris, A. B., Z. Ma, S. Pannala, and C. M. Hrenya, “Simulations of heat transfer to solid particles flowing through an array of heated tubes,” Solar Energy, 130, 101-115 (2016).

76) Garzó, V., W. D. Fullmer, C. M. Hrenya, and X. Yin, “Transport coefficients of solid particles immersed in a viscous gas,” Physical Review E, 93, art. no. 012905, 19 pages (2016). arXiv

75) Fullmer, W. D. and C. M. Hrenya, “Quantitative Assessment of Fine-Grid Kinetic-Theory-Based Predictions of Mean Slip in Unbounded Fluidization,” AIChE Journal (Letter), 62, 11-17 (2016).

2015

74) LaMarche, C. Q., P. Liu, K. M. Kellogg, A. W. Weimer, and C. M. Hrenya, “System-size independent validation of CFD-DEM for non-cohesive particles,” AIChE Journal (Letter), 61, 4051-4058 (2015).

73) Morris, A. B., S. Pannala, Z. Ma, and C. M. Hrenya, “A conductive heat transfer model for particle flows over immersed surfaces, International Journal of Heat and Mass Transfer, 89, 1277-1289 (2015).

72) Cahyadi, A., A. H. Neumayer, C. M. Hrenya, R. A. Cocco, J. W. Chew, “Comparative Study of Transport Disengaging Height (TDH) Correlations in Gas-Solid Fluidization,” Powder Technology, 275, 220-238 (2015).

71) Berger, K. J., A. Anand, P. T. Metzger, and C. M. Hrenya, “Role of collisions in erosion of regolith during a lunar landing,” Physical Review E, 91, art. no. 019905, (2015).

70) Chew, J. W., A. Cahyadi, C. M. Hrenya, R. A. Cocco, R. Kerri, “Review of entrainment correlations in gas-solid fluidization,” Chemical Engineering Journal, 260, 152-171, (2015).

2014

69)  Ahmadi Motlagh, A. H., J. R. Grace, M. Salcudean, and C. M. Hrenya, “New structure-based model for Eulerian simulation of hydrodynamics in gas-solid fluidized beds of Geldart “A” particles” Chemical Engineering Science, 120, 22-36, (2014).

68)  Liu, P. and C. M. Hrenya, “Challenges of DEM: I. Competing bottlenecks in parallelization of gas-solid flows,” Powder Technology, 264, 620-626 (2014).

67) Berger, K. J. and C. M. Hrenya, “Challenges of DEM: II. Wide particle size distributions,” Powder Technology, 264, 627-633 (2014).

66)  Mitrano, P. P., V. Garzó, and C. M. Hrenya, “Instabilities in granular binary mixtures at moderate densities,” Physical Review E (Rapid Communication), 89, art. no. 020201R, 5 pages (2014). arXiv

65)  Mitrano, P. P., J. R. Zenk, S. Benyahia, J. E. Galvin, S. R. Dahl, and C. M. Hrenya, “Kinetic-theory predictions of clustering instabilities in granular flows: beyond the small-Knudsen regime,” Journal of Fluid Mechanics (Rapids), 738, R2, 12 pages (2014); this work was highlighted in Focus on Fluids feature (Journal of Fluid Mechanics, 742, 1-4, 2014).

2013

64)  Mitrano, P. P., S. R. Dahl, A. M. Hilger, C. J. Ewasko, and C. M. Hrenya, “Dual role of friction in granular flows: Attenuation vs. enhancement of instabilities,” Journal of Fluid Mechanics, 729, 484-495 (2013).

63)  McMillan, J., F. Shaffer, B. Gopalan, J. W. Chew, C. M. Hrenya, R. Hays, S. B. Karri, and R. Cocco, “Particle Clustering Dynamics during Fluidization,” Chemical Engineering Science, 100, 39-51 (2013).

62)  Yin, X., J. R. Zenk, P. P. Mitrano, and C. M. Hrenya, “Impact of collisional vs. viscous dissipation on flow instabilities in gas-solid systems,” Journal of Fluid Mechanics (Rapids), 727, R2, 12 pages (2013).

61)  Berger, K. J., A. Anand, P. T. Metzger, and C. M. Hrenya, “Role of collisions in erosion of regolith during a lunar landing,” Physical Review E, 87, art. no. 022205, 14 pages (2013).

60)  Chew, J.W., D. M. Parker, and C. M. Hrenya, “Elutriation and species segregation characteristics of polydisperse mixtures of Group B particles in a dilute CFB riser, AIChE Journal, 59, 84-95 (2013). 

2012

59)  Garzó, V., S. Tenneti, S. Subramaniam, and C. M. Hrenya, “Enskog kinetic theory for monodisperse gas-solid flows,” Journal of Fluid Mechanics, 712, 129-168 (2012).

58)  Donahue, C. M., W. M. Brewer, R. H. Davis, and C. M. Hrenya, “Agglomeration and de-agglomeration of rotating wet doublets,” Journal of Fluid Mechanics, 708, 128-148 (2012).

57)  Murray, J.A., S. Benyahia, P. Metzger, and C. M. Hrenya, “Continuum representation of a continuous size distribution of particles engaged in rapid granular flow,” Physics of Fluids, 24, art. no. 083303, 19 pages (2012).

56)  Donahue, C. M., R. H. Davis, A. A. Kantak, and C. M. Hrenya, “Mechanisms for agglomeration and de-agglomeration following oblique collisions of wet particles,” Physical Review E, 86, art. no. 021303, 5 pages (2012).

55)  Wildman, R.D., C. M. Hrenya, J. M. Huntley, T. Leadbeater, D. J. Parker, “Experimental determination of temperature profiles in a sheared granular bed containing two and three sizes of particles,” Granular Matter, 14, 215-220 (2012); invited paper for special issue in memory of Isaac Goldhirsch.

54)  Mitrano, P. P., V. Garzó, A. M. Hilger, C. J. Ewasko, and C. M. Hrenya, “Assessing a Hydrodynamic Description for Instabilities in Highly Dissipative, Freely Cooling Granular Gases,” Physical Review E, 85, art. no. 141303, 5 pages (2012).

53)  Chew, J. W., R. Hays, J. G. Findlay, T. M. Knowlton, S. B. R. Karri, R. A. Cocco and C. M. Hrenya, “Reverse Core-Annular Flow of Geldart Group B Particles in Risers,” Powder Technology, 221, 1-12 (2012); invited paper for special issue.

52)  Murray, J. A., C. M. Hrenya, and V. Garzó, “Enskog Theory for Polydisperse Granular Mixtures. III. Comparison of dense and dilute transport coefficients and equations of state for a binary mixture,” Powder Technology, 220, 24-36 (2012).

51)  Chew, J. W., R. Hays, J. G. Findlay, T. M. Knowlton, S. B. R. Karri, R. A. Cocco and C. M. Hrenya, “Cluster characteristics of Geldart Group B particles in a pilot-scale CFB riser. I. Monodisperse systems,” Chemical Engineering Science, 68, 72-81 (2012).

50)  Chew, J. W., R. Hays, J. G. Findlay, T. M. Knowlton, S. B. R. Karri, R. A. Cocco and C. M. Hrenya, “Cluster characteristics of Geldart Group B particles in a pilot-scale CFB riser. II. Polydisperse systems,” Chemical Engineering Science, 68, 82-93 (2012).

2011

49)  Chew, J. W., D. M. Parker, R. A. Cocco and C. M. Hrenya, “Cluster characteristics of continuous size distributions and binary mixtures of Group B particles in dilute riser flow,” Chemical Engineering Journal, 178, 348-358 (2011).

48)  Chew, J. W. and C. M. Hrenya, “Link between bubbling and segregation patterns in gas-fluidized beds with continuous size distributions,” AIChE Journal, 57, 3003-3011 (2011).

47)  Mitrano, P. P., S. R. Dahl, D. J. Cromer, M. S. Pacella, and C. M. Hrenya, “Instabilities in the homogeneous cooling of a granular gas: A quantitative assessment of kinetic-theory predictions,” Physics of Fluids, 23, 093303 (2011).

46)  Chew, J. W., R. Hays, J. G. Findlay, T. M. Knowlton, S. B. R. Karri, R. A. Cocco and C. M. Hrenya, “Impact of material property and operating conditions on mass flux profiles of monodisperse and polydisperse Group B particles in a CFB riser,” Powder Technology, 214, 89-98 (2011).

45)  Chew, J. W., R. Hays, J. G. Findlay, T. M. Knowlton, S. B. R. Karri, R. A. Cocco and C. M. Hrenya, “Species segregation of binary mixtures and a continuous size distribution of Group B particles in riser flow,” Chemical Engineering Science, 66, 4595-4604 (2011).

44)  Holloway, W., S. Benyahia, C. M. Hrenya, and S. Sundaresan, “Meso-scale structures of bidisperse mixtures of particles fluidized by a gas,” Chemical Engineering Science, 66, 4403-4420 (2011).

43)  Hrenya, C.M., “Active Learning in Fluid Mechanics: YouTube Tube Fow and Puzzling Fluids Questions,” Chemical Engineering Education, 45, 114-119 (2011).

42)  Passalacqua, A., J. E. Galvin, P. Vedula, C.M. Hrenya, and R. O. Fox, “A quadrature-based kinetic model for dilute non-isothermal granular flows,” Communications in Computational Physics, 10, 216-252 (2011).

41)  Hrenya, C. M., “Kinetic theory for granular materials: Polydispersity,” in Computational Gas-Solids Flows and Reacting Systems: Theory, Methods and Practice, S. Pannala, M. Syamlal, and T. O’Brien (eds.), IGI Global, Hershey, PA , 102-127 (2011).

2010

40)  Chew, J. W., J. Wolz, and C. M. Hrenya, “Axial segregation in bubbling gas-fluidized beds with Gaussian and lognormal Distributions of Geldart group B particles,” AIChE Journal, 56, 3049-3061 (2010).

39)  Donahue, C. M., C. M. Hrenya,  and R. H. Davis, “Stokes’s cradle: Newton’s cradle with liquid coating,” Physical Review Letters, 105, art. no. 034501 (2010); this work was featured in Nature (466, 22 July 2010, p. 417) and the New Scientist (2768, 8 July 2010).

38)  Tenneti S., R. Garg, C. M. Hrenya, R. O. Fox and S. Subramaniam, “Direct numerical simulation of gas-solid suspensions at moderate Reynolds number:  Quantifying the coupling between hydrodynamic forces and particle velocity fluctuations,” Powder Technology, 203, 57-69 (2010).

37)  Hrenya, C. M., “Extraction of transport coefficients from molecular dynamics simulations:  A perspective,” Industrial & Engineering Chemistry Research, 49, 5304-5409 (2010).

36)  Donahue, C. M., C. M. Hrenya, R. H. Davis, K. J. Nakagawa, A. P. Zelinskaya, and G. G. Joseph, “Stokes’ cradle: normal three-body collisions between wetted particles,” Journal of Fluid Mechanics, 650, 479-504 (2010).

35)  Rice, R. B. and C. M. Hrenya, “Clustering in rapid granular flows of binary and continuous particle size distributions,” Physical Review E, 81, art. no. 021302 (2010).

2009

34)  Henthorn, K. H. and C. M. Hrenya, “Particle cohesion,” Encyclopedia of Chemical Processing, 1, 1-8 (2009).

33)  Rice, R. B. and C. M. Hrenya, “Characterization of clusters in rapid granular flows,” Physical Review E, 79, art. no. 021304 (2009).

32)  Kantak, A. A., C. M. Hrenya, and R. H. Davis, “Initial rates of aggregation for dilute, granular flows of wet (cohesive) particles,” Physics of Fluids, 21, art. no. 023301 (2009).

2008

31)  Donahue, C. M., C. M. Hrenya, A. P. Zelinskaya, and K. J. Nakagawa, “Newton’s cradle undone:  Experiments and collision models for the normal collision of three solid spheres,” Physics of Fluids, 20, art. no. 113301 (2008).

30)  Leboreiro, J., G. G. Joseph, C. M. Hrenya, D. M. Snider, S. S. Banerjee, and J. E. Galvin, “The influence of binary drag laws on simulations of species segregation in gas-fluidized beds,” Powder Technology, 184, 275-290 (2008).

29)  Leboreiro, J., G. G. Joseph, and C. M. Hrenya, “Revisiting the standard drag law for bubbling, gas-fluidized beds,” Powder Technology, 183, 385-400 (2008).

28)  Hrenya, C. M., J. E. Galvin, and R. D. Wildman, “Evidence of higher-order effects in thermally-driven, rapid granular flows,” Journal of Fluid Mechanics, 598, 429-450 (2008).

2007

27)  Joseph, G. G., J. Leboreiro, C. M. Hrenya, and A. R. Stevens, “Experimental segregation profiles in bubbling gas-fluidized beds,” AIChE Journal, 53, 2804-2813 (2007).

26)  Garzó, V., J. W. Dufty, and C. M. Hrenya, and, “Enskog theory for polydisperse granular mixtures.  I.  Navier-Stokes order transport”, Physical Review E, 76, art. no. 031303 (2007).

25)  Garzó, V., C. M. Hrenya, and J. W. Dufty, “Enskog theory for polydisperse granular mixtures.  II.  Sonine polynomial approximation”, Physical Review E, 76, art. no. 031304 (2007).

24)  Weber, M. W. and C. M. Hrenya, “Computational study of pressure-drop hysteresis in fluidized beds,” Powder Technology, 177, 170-184 (2007).

23)  Galvin, J. E., C. M. Hrenya, and R. D. Wildman, “On the role of the Knudsen layer in rapid granular flows,” Journal of Fluid Mechanics, 585, 73-92 (2007).

2006

22)  Carney, C. S., C. J. Gump, C. M. Hrenya, and A. W. Weimer, “Rapid Nickel Oxalate Thermal Decomposition for Producing Fine Nickel Metal Powders.  Part 2:  Global Kinetics,” Materials Science and Engineering A, 431, 13-25 (2006).

21)  Weber, M. W. and C. M. Hrenya, “Square-well Model for Cohesion in Fluidized Beds,” Chemical Engineering Science, 61, 4511-4527 (2006).

20)  Hrenya, C. M. and H. Scott Fogler, “Patten Centennial Scientific Workshop:  The Next Millennium in Chemical Engineering,” Chemical Engineering Education, 99-103 (Spring 2006).

19)  Walsh, J. K., A. W. Weimer, and C. M. Hrenya, “Thermophoretic deposition of aerosol particles in laminar tube flow with mixed convection,” Journal of Aerosol Science, 37, 715-734 (2006).

18)  Walsh, J. K., A. W. Weimer, and C. M. Hrenya, “An experimental study of thermophoretic deposition of aerosol particles in laminar tube flow with mixed convection,” Aerosol Science and Technology, 40, 178-188 (2006).

2005

17)  Dahl, S. R. and C. M. Hrenya, “Size Segregation in Gas-Solid Fluidized Beds with Continuous Particle Size Distributions,” Chemical Engineering Science, 60, 6658-6673 (2005).

16)  Stevens, A. and C. M. Hrenya, “Comparison of soft-sphere models to measurements of collision properties during normal impacts,” Powder Technology, 154, 99-109 (2005).

15)  Iddir, H., H. Arastoopour, and C. M. Hrenya, “Analysis of binary and ternary granular mixtures using the kinetic theory approach,” Powder Technology, 151, 117-125 (2005).

14)  Galvin, J. E., S. R. Dahl, and C. M. Hrenya, “On the role of non-equipartition in the dynamics of rapidly-flowing, granular mixtures,” Journal of Fluid Mechanics, 528, 207-232 (2005).

2004

13)  Weber, M. W., D. K. Hoffman, and C. M. Hrenya, “Discrete-particle simulations of cohesive granular flow using a square-well potential,” Granular Matter, 6, 239-254 (2004).

12)  Dahl, S. R. and C. M. Hrenya, “Size Segregation in Rapid, Granular Flows with Continuous Size Distributions,” Physics of Fluids, 16, 1-13 (2004).

2003

11)  Dahl, S. R., R. Clelland, and C. M. Hrenya, “Three-dimensional, Rapid Shear Flow of Particles with Continuous Size Distributions,” Powder Technology, 138, 7-12 (2003).

2002

10)  Dahl, S. R., C. M. Hrenya, V. Garzó, and J. W. Dufty, “Kinetic Temperatures for a Granular Mixture,” Physical Review E, 66, art. no. 041301 (2002).

9)  Johnson, J. A., W. B. Krantz, C. M. Hrenya, and A. W. Weimer, “Sensitivity Analysis of the Rapid Carbothermal Reduction Synthesis of Ultra-Fine Silicon Carbide Powders,” Journal of Aerosol Science and Technology, 36, 1087-1098 (2002).

8)  Johnson, J. A., C. M. Hrenya, and A. W. Weimer, “Intrinsic Reaction and Self-Diffusion Kinetics for Silicon Carbide Synthesis by Rapid Carbothermal Reduction,” Journal of the American Ceramic Society, 85, 2273-2280 (2002).

7)  Dahl, S. R., R. Clelland, and C. M. Hrenya, “The Effects of Continuous Size Distributions on the Rapid Flow of Inelastic Particles,” Physics of Fluids, 14, 1972-1984 (2002).

6)  Clelland, R. and C. M. Hrenya, “Simulations of a Binary-sized Mixture of Inelastic Grains in Rapid Shear Flow,” Physical Review E, 65, art. no. 031301 (2002).

2001

5)  Alam, M. and C. M. Hrenya, “Inelastic Collapse in Simple Shear Flow of a Granular Medium,” Physical Review E, 63, art. no. 061308 (2001).

4)  Detamore, M. S., M. A. Swanson, K. R. Frender, and C. M. Hrenya, “A Kinetic-Theory Analysis of the Scale-up of Circulating Fluidized Beds,” Powder Technology, 116, 190-203 (2001).

Pre-2000

3)  Hrenya, C., S. Miller, T. Mallo and J. Sinclair, "Comparison of Low Reynolds Number k-e Turbulence Models in Predicting Heat Transfer Rates for Pipe Flow," International Journal of Heat and Mass Transfer, 41, 1543-1547 (1998).

2)  Hrenya, C. M. and J. L. Sinclair, "The Role of Particle-Phase Turbulence in Gas-Solid Flows," AIChE Journal, 43, 853-869 (1997).

1)  Hrenya, C. M., E. J. Bolio, D. Chakrabarti and J. L. Sinclair, "Comparison of Low Reynolds Number k-e Turbulence Models in Predicting Fully Developed Pipe Flow," Chemical Engineering Science, 50, 1923-1941 (1995).