Effects of particle‐phase turbulence in gas‐solid flows CM Hrenya, JL Sinclair AIChE Journal 43 (4), 853-869, 1997 | 315 | 1997 |

Comparison of soft-sphere models to measurements of collision properties during normal impacts AB Stevens, CM Hrenya Powder technology 154 (2-3), 99-109, 2005 | 304 | 2005 |

Enskog theory for polydisperse granular mixtures. I. Navier-Stokes order transport V Garzó, JW Dufty, CM Hrenya Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 76 (3 …, 2007 | 179 | 2007 |

Kinetic temperatures for a granular mixture SR Dahl, CM Hrenya, V Garzó, JW Dufty Physical Review E 66 (4), 041301, 2002 | 158 | 2002 |

Comparison of low Reynolds number k− ε turbulence models in predicting fully developed pipe flow CM Hrenya, EJ Bolio, D Chakrabarti, JL Sinclair Chemical Engineering Science 50 (12), 1923-1941, 1995 | 151 | 1995 |

The clustering instability in rapid granular and gas-solid flows WD Fullmer, CM Hrenya Annual Review of Fluid Mechanics 49 (1), 485-510, 2017 | 147 | 2017 |

Enskog theory for polydisperse granular mixtures. II. Sonine polynomial approximation V Garzó, CM Hrenya, JW Dufty Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 76 (3 …, 2007 | 138 | 2007 |

Experimental segregation profiles in bubbling gas‐fluidized beds GG Joseph, J Leboreiro, CM Hrenya, AR Stevens AIChE journal 53 (11), 2804-2813, 2007 | 136 | 2007 |

Enskog kinetic theory for monodisperse gas–solid flows V Garzó, S Tenneti, S Subramaniam, CM Hrenya Journal of Fluid Mechanics 712, 129-168, 2012 | 133 | 2012 |

Size segregation in gas–solid fluidized beds with continuous size distributions SR Dahl, CM Hrenya Chemical Engineering Science 60 (23), 6658-6673, 2005 | 126 | 2005 |

On the role of non-equipartition in the dynamics of rapidly flowing granular mixtures JE Galvin, SR Dahl, CM Hrenya Journal of Fluid Mechanics 528, 207-232, 2005 | 115 | 2005 |

Cluster characteristics of Geldart Group B particles in a pilot-scale CFB riser. I. Monodisperse systems JW Chew, R Hays, JG Findlay, TM Knowlton, SBR Karri, RA Cocco, ... Chemical engineering science 68 (1), 72-81, 2012 | 106 | 2012 |

Direct numerical simulation of gas–solid suspensions at moderate Reynolds number: quantifying the coupling between hydrodynamic forces and particle velocity fluctuations S Tenneti, R Garg, CM Hrenya, RO Fox, S Subramaniam Powder Technology 203 (1), 57-69, 2010 | 103 | 2010 |

Simulations of heat transfer to solid particles flowing through an array of heated tubes AB Morris, Z Ma, S Pannala, CM Hrenya Solar Energy 130, 101-115, 2016 | 100 | 2016 |

Simulations of a binary-sized mixture of inelastic grains in rapid shear flow R Clelland, CM Hrenya Physical Review E 65 (3), 031301, 2002 | 100 | 2002 |

Quantitative assessment of fine‐grid kinetic‐theory‐based predictions of mean‐slip in unbounded fluidization WD Fullmer, CM Hrenya AIChE Journal 62 (1), 11-17, 2016 | 90 | 2016 |

Method of quantifying surface roughness for accurate adhesive force predictions CQ LaMarche, S Leadley, P Liu, KM Kellogg, CM Hrenya Chemical Engineering Science 158, 140-153, 2017 | 88 | 2017 |

Axial segregation in bubbling gas‐fluidized beds with Gaussian and lognormal distributions of Geldart Group B particles JW Chew, JR Wolz, CM Hrenya AIChE journal 56 (12), 3049-3061, 2010 | 87 | 2010 |

A conductive heat transfer model for particle flows over immersed surfaces AB Morris, S Pannala, Z Ma, CM Hrenya International Journal of Heat and Mass Transfer 89, 1277-1289, 2015 | 85 | 2015 |

Particle cluster dynamics during fluidization J McMillan, F Shaffer, B Gopalan, JW Chew, C Hrenya, R Hays, SBR Karri, ... Chemical Engineering Science 100, 39-51, 2013 | 80 | 2013 |