| 1 |
New Type of Draft Tube Spout-Fluid Bed. Part 2: Modeling and Design of the Acceleration Section of the Riser for the Pneumatic Transport of 1 mm Glass Spheres
Littman H, Paccione JD
Industrial & Engineering Chemistry Research, 54(23), 6187, 2015 |
| 2 |
Design, simulation, and performance of a draft tube spout fluid bed coating system for aerogel particles
Plawsky JL, Littman H, Paccione JD
Powder Technology, 199(2), 131, 2010 |
| 3 |
New Type of Draft Tube Spout-Fluid Bed. Part 1: Hydraulic Transport of 1.94 mm Glass Particles in Water
Littman H, Paccione JD, Plawsky JL
Industrial & Engineering Chemistry Research, 48(20), 9286, 2009 |
| 4 |
Globally optimal design and operation of a continuous photocatalytic advanced oxidation process featuring moving bed adsorption and draft-tube transport
Follansbee DM, Paccione JD, Martin LL
Industrial & Engineering Chemistry Research, 47(10), 3591, 2008 |
| 5 |
Effect of large particles on the augmentation of wall friction in vertical pneumatic and hydraulic transport in a turbulent fluid
Littman H, Paccione JD
Industrial & Engineering Chemistry Research, 46(10), 3429, 2007 |
| 6 |
A Pseudo-Stokes Representation of the Effective Drag Coefficient for Large Particles Entrained in a Turbulent Airstream
Littman H, Morgan MH, Paccione JD
Powder Technology, 87(2), 169, 1996 |
| 7 |
Effect of Particle Diameter, Particle Density and Loading Ratio on the Effective Drag Coefficient in Steady Turbulent Gas-Solids Transport
Littman H, Morgan MH, Jovanovic SD, Paccione JD, Grbavcic ZB, Vukovic DV
Powder Technology, 84(1), 49, 1995 |
| 8 |
Modeling and Measurement of the Effective Drag Coefficient in Decelerating and Non-Accelerating Turbulent Gas-Solids Dilute Phase Flow of Large Particles in a Vertical Transport Pipe
Littman H, Morgan MH, Paccione JD, Jovanovic SD, Grbavcic ZB
Powder Technology, 77(3), 267, 1993 |
