{"id":11,"date":"2020-12-07T11:58:31","date_gmt":"2020-12-07T16:58:31","guid":{"rendered":"https:\/\/mae.ncsu.edu\/pmmf\/?page_id=11"},"modified":"2026-04-14T17:56:39","modified_gmt":"2026-04-14T21:56:39","slug":"publications","status":"publish","type":"page","link":"https:\/\/mae.ncsu.edu\/pmmf\/publications\/","title":{"rendered":"Journal Publications"},"content":{"rendered":"

171-M.J. Gildeh, M. Jamali, A. Moghadam, H.V. Tafreshi, Molecular Dynamics Simulation of Compound Droplet Detachment using Magnetic Attractive and Repulsive Forces, Langmuir<\/u><\/em><\/strong> (under review)<\/span><\/p>\n

170-D. Malusare, J. Nguyen, G.N. Parsons, B. Pourdeyhimi, H.V. Tafreshi, S.A. Khan, Solvent-Free Air-Spray Deposition Method for Fabrication of MOF-Fiber Web Composites, ACS Applied Materials and Interfaces<\/strong><\/span><\/em> (under review)<\/span><\/p>\n

169-M. Lv, H. V. Tafreshi, R Yin, Multiscale Mechanisms of Water-Induced Hemp Fiber Reinforcement, Journal of Materials Science<\/u><\/em><\/strong>\u00a0(under review)<\/span><\/p>\n

168-A. Kumar, M. Dasdemir, H.V. Tafreshi, J.J. Pawlak, B. Pourdeyhimi, Numerical Simulation of Fiber-Bundle Dispersion in a Mixing Tank, Industrial Engineering Chemistry Research <\/u><\/em><\/strong>(under review)<\/span><\/p>\n

167-M.J. Gildeh, N. Bhatta, J.T. McLeskey, H.V. Tafreshi, J. Liu, 3D Simulation of Water Desalination via Fibrous Distillation Membranes, Langmuir<\/em><\/strong>, 42, 4127 (2026)<\/span><\/p>\n

166-M.J. Gildeh, N. Bhatta, H.V. Tafreshi, J. Liu, Microscale simulation of water desalination in Direct Contact Membrane Distillation, International Journal of Heat and Mass Transfer<\/strong><\/em>, 255, 127751 (2026)<\/span><\/p>\n

165-S. Atri, A. Kumar, M.J. Gildeh, H.V. Tafreshi, B. Pourdeyhimi, Computationally efficient simulation of electret filters via Eulerian formulations, Journal of Aerosol Science<\/em><\/strong>, 194,106771 (2026)<\/span><\/p>\n

164-S.M. Rahman, N. Bhatta, H.V. Tafreshi, B. Pourdeyhimi, Python Implementation of Pore Morphology Method Enhanced with Convolutional Neural Network for Cost-Effective Simulation of Fluid Saturation in Porous Media, Chemical Engineering Science<\/strong><\/em>, 321, 122822 (2026)\u00a0<\/span><\/p>\n

163-S. Gautam, N. Bhatta, H.V. Tafreshi, B. Pourdeyhimi, MATLAB Implementation of Pore Morphology Method for Modeling Liquid Residue in Porous Media with Heterogenous Wettabilities, Powder Technology<\/em><\/strong>, 452, 120509 (2025)<\/span><\/p>\n

162-N. Bhatta, S. Gautam, A. Kumar, H.V. Tafreshi, B. Pourdeyhimi, Novel Method to Simulate Collection Efficiency and Pressure drop of Coalescing Filters, Journal of Aerosol Science<\/em><\/strong>,183, 106486 (2025)<\/span><\/p>\n

161-A. Kumar, S. Gautam, N. Bhatta, H.V. Tafreshi, B. Pourdeyhimi, A Computational Model to Study Blood Penetration in Surgical Masks, International Journal of Multiphase Flow<\/strong><\/em>, 193, 105388 (2025)\u00a0<\/span><\/p>\n

160-A. Kumar, S. Gautam, N. Bhatta, H.V. Tafreshi, B. Pourdeyhimi, Electrostatic Interactions between Liquid Aerosols and Charged Fibers, Soft Matter<\/em><\/strong>,<\/em> 21, 198 (2025)\u00a0<\/span><\/p>\n

159-S. Atri, A. Kumar, S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, Corrigendum to \u201cNovel microscale-macroscale approach to predict permeability of bimodal fibrous media comprised of soft fibers\u201d [Chem. Eng. Sci. 313 (2025) 121724], Chemical Engineering Science<\/em><\/strong>, <\/em>317, 122208 (2025)<\/span><\/p>\n

158-S. Atri, A. Kumar, S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, Novel Microscale-Macroscale Approach to Predict Permeability of Bimodal Fibrous Media Comprised of Soft Fibers, Chemical Engineering Science<\/em><\/strong>, 313, 121724 <\/em>(2025)<\/span><\/p>\n

157-S.M. Rahman, S. Rahman, H.V. Tafreshi, B. Pourdeyhimi, CFD-DEM Simulation of Air-Assisted Electrospinning, Chemical Engineering Journal, <\/em><\/strong>503, 158370 (2025)<\/span><\/p>\n

156-H.S. Perera, K.J. Ernst, H.V. Tafreshi, S.A. Saad, Viscoelastic Fluid Stresses in the Formation and Shaping of Melt-Spun Hollow Fibers, ACS Applied Engineering Materials<\/strong><\/em>, 3, 75 (2025)<\/span><\/p>\n

155-N. Bhatta, S. Gautam, H.V. Tafreshi, B. Pourdeyhimi, On the Accuracy of Pore Morphology Method in Modeling Fluid Saturation in 3-D Fibrous Media, Industrial & Engineering Chemistry Research<\/strong><\/em>, 63, 18147 (2024)<\/span><\/p>\n

154-A. Kumar, S. Gautam, S. Atri, H.V. Tafreshi, B. Pourdeyhimi, Competing Electrostatic Fields in Particle-Loaded Electret Filters, Journal of Aerosol Science, <\/em><\/strong>181, 106426 (2024)<\/span><\/p>\n

153-S.M. Rahman, S. Gautam, H.V. Tafreshi, B. Pourdeyhimi, The Role of 3-D Electrostatic Field in Modeling the Electrospinning, Journal of Applied Physics,<\/em><\/strong> 135, 014701 (2024)<\/span><\/p>\n

152-S. Gautam, A. Kumar, H.V. Tafreshi, B. Pourdeyhimi, Designing Multi-Layer Electret Filters via Numerical Simulation, Chemical Engineering Science,<\/em><\/strong> 286, 119680 (2024)<\/span><\/p>\n

151-S. Raza, J. He, H.V. Tafreshi, J. Liu, Corrigendum to Molecular dynamics simulation of steady-state droplet condensation on a fiber in direct contact membrane distillation settings, Journal of Molecular Liquids<\/strong><\/em>, 393, 123525 (2024)<\/span><\/p>\n

150-S. Gautam, A. Kumar, H.V. Tafreshi, B. Pourdeyhimi, A simple approach to simulate corona-charged electret filters, Journal of Aerosol Science<\/em><\/strong>, 176, 106293 (2024)\u00a0<\/span><\/p>\n

149-N. Bhatta, H.V. Tafreshi, and B. Pourdeyhimi, Toward Formulating Coalescence Filtration: Characterizing Wetting Saturation via Centrifugal Force, International Journal of Multiphase Flow<\/strong><\/em> 170, 104641 (2024)<\/span><\/p>\n

148-S. Atri, A. Kumar, S. Gautam, H.V. Tafreshi, B. Pourdeyhimi, Microscale Modelling of Electret Filters using Disordered 2-D Domains, Powder Technology<\/em><\/strong> 431, 119094 (2024)<\/span><\/p>\n

147-A. Kumar, S. Gautam, S. Atri, H.V. Tafreshi, B. Pourdeyhimi, Importance of Dipole Orientation in Electrostatic Aerosol Filtration, Langmuir<\/strong><\/em> 39, 17653 (2023)<\/span><\/p>\n

146-Y.X. Liu, F.J. Chapparo, Z. Tian, Y. Jia, G.J. Gaumer, L. Ross, H.V. Tafreshi, J. J. Lannutti, Visualization of Porosity and Pore Size Gradients in Electrospun Scaffolds using Laser Metrology, PLOSONE<\/em><\/strong> 18(3), e0282903 (2023)<\/span><\/p>\n

145-S. Gautam, A.M. Saleh, H.V. Tafreshi, J.G. Radney, B. Pourdeyhimi, Macroscale Simulation of Particle Loading in Electrostatically Charged Filters, Journal of Aerosol Science<\/strong><\/em> 173, 106212 (2023)\u00a0<\/span><\/p>\n

144-M. Jamali, S. Atri, S. Gautam, A.M. Saleh, H.V. Tafreshi, B. Pourdeyhimi, Macroscale Modeling of Electrostatically Charged Face Masks, Aerosol Science and Technology<\/strong><\/em> 57, 7, 700 (2023)<\/span><\/p>\n

143-S. Raza, J. He, H.V. Tafreshi, J. Liu, Molecular Dynamics Simulation of Steady-State Droplet Condensation on a Fiber in Direct Contact Membrane Distillation Settings, Journal of Molecular Liquids<\/em><\/strong>, 368, 120736 (2022)<\/span><\/p>\n

142-S.M. Rahman, H.V. Tafreshi, B. Pourdeyhimi, Physics-Based Deep Neural Network Model to Guide Electrospinning Polyurethane Fibers, Journal of Applied Polymer Science<\/em><\/strong>, 139, 53108 (2022)<\/span><\/p>\n

141-M. Jamali and H.V. Tafreshi, Numerical Simulation of Two-Phase Droplets on a Curved Surface Using Surface Evolver, Colloids and Surfaces A<\/em><\/strong> 629, 127418 (2021)<\/span><\/p>\n

140-M. Jamali and H.V. Tafreshi, Studying Droplet Adhesion Using the Magnetic Force: A Review Paper, Experiments in Fluids<\/strong><\/em> 62, 161 (2021)<\/span><\/p>\n

139-M. Jamali, K. Mehta, H. Holweger, M.M. Amrei, H.V. Tafreshi, Controlling Detachment Residue via Magnetic Repulsion Force, Applied Physics Letters<\/em><\/strong> 118, 191601 (2021)<\/span><\/p>\n

138-H. Holweger, M. Jamali, and H.V. Tafreshi, Centrifugal Detachment of Compound Droplets from Fibers, Langmuir<\/em><\/strong> 37, 928\u2212938 (2021)<\/span><\/p>\n

137-B. Pourdeyhimi, S. Schick, R. Groten, H.V. Tafreshi, Respiratory Effectiveness of Cloth Masks, Journal of Science and Medicine<\/strong><\/em>\u00a02, 4 (2020)<\/span><\/p>\n

136-H. Abdelrazeq, M. Khraisheh, F. Almomani, J.T. McLeskey, M.K. Hassan, M. Gad-el-Hak, H.V. Tafreshi, Performance of electrospun polystyrene membranes in synthetic produced industrial water using direct-contact membrane distillation, Desalination<\/em><\/strong>\u00a0493, 114663 (2020)<\/span><\/p>\n

135-M. Jamali and H. V. Tafreshi, Measuring Force of Droplet Detachment from Hydrophobic Surfaces via Partial Cloaking with Ferrofluids, Langmuir<\/em><\/strong> 36, 22. 6116 (2020)<\/span><\/p>\n

134-R.J.A. Esteves, V. Gornick, D. S. Alqurwani, J. K. Lovejoy, H. Abdelrazeq, M. Khraisheh, A.V. Forzano, M. Gad-el-Hak, H.V. Tafreshi, J.T. McLeskey, Activated carbon-doped polystyrene fibers for direct contact membrane desalination, Emergent Materials<\/em><\/strong>, (2020) https:\/\/doi.org\/10.1007\/s42247-020-00107-z<\/span><\/p>\n

133-S.H. Yousefi and H.V. Tafreshi, Novel Approach to Model Microstructure of Dust-Deposits Comprised of Polydisperse Particles of Arbitrary Shapes, Separation and Purification Technology <\/em><\/strong>244, 116844 (2020)<\/span><\/p>\n

132-A. Moghadam and H.V. Tafreshi, On Liquid Bridge Adhesion to Fibrous Surfaces under Normal and Shear Forces, Colloids and Surfaces A<\/em><\/strong> 589, 124473 (2020)<\/span><\/p>\n

131-S.H. Yousefi and H.V. Tafreshi, Modeling Electrospun Fibrous Structures with Embedded Spacer Particles: Application to Aerosol Filtration, Separation and Purification Technology,<\/em><\/strong> 235, 116184 (2020)<\/span><\/p>\n

130-M. Jamali, H.V. Tafreshi, B. Pourdeyhimi, Easy-To-Use Correlations to Estimate Droplet Mobility on Hydrophobic Fibrous Coatings, Colloids and Surfaces A<\/em><\/strong> 582, 123867 (2019)<\/span><\/p>\n

129-H. Aziz and H.V. Tafreshi, Competing Forces on a Liquid Bridge between Parallel and Orthogonal Dissimilar Fibers, Soft Matter<\/strong> <\/em>15, 6967 (2019)<\/span><\/p>\n

128-S.H. Yousefi, C. Tang, H.V. Tafreshi, B. Pourdeyhimi, Empirical model to simulate morphology of electrospun polycaprolactone mats, Journal of Applied Polymer Science<\/em><\/strong>,<\/em> (2019) DOI: 10.1002\/APP.48242<\/span><\/p>\n

127-N. Farhan and H.V. Tafreshi Using Magnetic Field to Measuring Detachment Force between a Nonmagnetic Droplet and Fibers, Langmuir<\/em><\/strong> 35, 8490\u22128499 (2019)<\/span><\/p>\n

126-N. Farhan, H. Aziz, H.V. Tafreshi, Simple Method to Measuring Intrinsic Contact Angle of A Fiber with Liquids, Experiments in Fluids<\/em><\/strong> 60, 87 (2019)<\/span><\/p>\n

125-M. Jamali, H.V. Tafreshi, B. Pourdeyhimi, Formulating Droplet Penetration in Thin Hydrophobic Fibrous Materials, Journal of Applied Physics<\/em><\/strong> 125, 145304 (2019)<\/span><\/p>\n

124-A. Moghadam, S. H. Yousefi, H. V. Tafreshi, B. Pourdeyhimi, Characterizing Nonwoven Materials via Realistic Microstructural Modeling, Separation and Purification Technology<\/em><\/strong>, 211, 602 (2019)<\/span><\/p>\n

123-S. H. Yousefi, D.G. Venkateshan, C. Tang, H.V. Tafreshi, B. Pourdeyhimi, Modeling Effects of Electrospinning Conditions on Thickness and Porosity of Electrospun Polystyrene Mats, Journal of Applied Physics<\/em><\/strong> 124, 235307 (2018)<\/span><\/p>\n

122-H. Aziz, N. Farhan, and H.V. Tafreshi, Effects of fiber wettability and size on droplet detachment residue, Experiment in Fluids<\/em><\/strong> 59, 122 (2018)<\/span><\/p>\n

121-N. Farhan and H.V. Tafreshi, Predictive Correlations for Droplet\u2013Fiber Detachment Force, Journal of Applied Physics<\/em><\/strong> 124, 075301 (2018)<\/span><\/p>\n

120-N. Ojaghlou, H.V. Tafreshi, D. Bratko, A. Luzar, Dynamical Insights into the Mechanism of a Droplet Detachment from a Fiber, Soft Matter<\/em><\/strong> 14, 8924 (2018)<\/span><\/p>\n

119-M. Jamali, H.V. Tafreshi, B. Pourdeyhimi, Droplet Mobility on Hydrophobic Fibrous Coatings Comprised of Orthogonal Fibers, Langmuir<\/em><\/strong>, 34, 12488 (2018)<\/span><\/p>\n

118-A.A. Hemeda, R.J.A. Esteves, J.T. McLeskey, M. Gad-el-Hak, M. Khraisheh, H.V. Tafreshi, Molecular Dynamic Simulations of Fibrous Distillation Membranes, International Communications in Heat and Mass Transfer<\/em><\/strong> 98, 304 (2018)<\/span><\/p>\n

117-A. Moghadam, M. Jamali, D.G. Venkateshan, H. V. Tafreshi, B. Pourdeyhimi, A New Approach to Modeling Liquid Intrusion in Hydrophobic Fibrous Membranes with Heterogeneous Wettabilities, Colloids and Surfaces A<\/em><\/strong> 558, 154 (2018)<\/span><\/p>\n

116-M. Jamali, A. Moghadam, H.V. Tafreshi, B. Pourdeyhimi, Droplet Adhesion to Hydrophobic Fibrous Surfaces, Applied Surface Science<\/em><\/strong>, 456, 626 (2018)<\/span><\/p>\n

115-M. Davoudi, M.M. Amrei, H.V. Tafreshi, G.G. Chase, Measurement of inflection angle and correlation of shape factor of barrel-shaped droplets on horizontal fibers, Separation and Purification Technology<\/em><\/strong> 204, 127 (2018)<\/span><\/p>\n

114-R. Ullah, M. Khraisheh, R.J. Esteves, J.T. McLeskey, M. AlGhouti, M. Gad-el-Hak, H.V. Tafreshi, Energy Efficiency of Direct Contact Membrane Distillation, Desalination <\/em><\/strong>433, 56 (2018)<\/span><\/p>\n

113-D.G. Venkateshan and H.V. Tafreshi, Modelling Droplet Sliding Angle on Hydrophobic Wire Screens, Colloids and Surfaces A<\/em><\/strong> 538, 310 (2018)<\/span><\/p>\n

112-H. Aziz and H.V. Tafreshi, Role of particles spatial distribution in drag reduction performance of superhydrophobic granular coatings, International Journal of Multiphase Flow<\/em><\/strong> 98, 128 (2018)<\/span><\/p>\n

111-M.M. Amrei, M. Davoudi, G.G. Chase, H.V. Tafreshi, Effects of roughness on droplet apparent contact angles on a fiber, Separation and Purification Technology<\/em><\/strong> 180, 107 (2017)<\/span><\/p>\n

110-H. Aziz, M.M. Amrei, C. Tang, H.V. Tafreshi, Modeling Cassie Droplets on Superhydrophobic Coatings with Orthogonal Fibrous Structures, Colloids and Surfaces A<\/em><\/strong> 512, 61 (2017)<\/span><\/p>\n

109-M.M. Amrei, D.G. Venkateshan, J. Atulasimha, H.V. Tafreshi, Novel Approach to Measuring Droplet Detachment Force from Fibers, Langmuir<\/em><\/strong> 32, 13333 (2016)<\/span><\/p>\n

108-D.G. Venkateshan, M.M. Amrei, A. Hemeda Z. Cullingsworth, J. Corbett, H.V. Tafreshi, Failure Pressures and Drag Reduction Benefits of Superhydrophobic Wire Screens, Colloids and Surfaces A<\/em> <\/strong>511, 247 (2016)<\/span><\/p>\n

107-B.M. Dodd, H.V. Tafreshi, G.C. Tepper, Flow-Enhanced Kinetics of Uranyl (UO2) Transport into Nano-porous Silica Gel, Materials and Design<\/em><\/strong> 106, 330 (2016)<\/span><\/p>\n

106-A.A. Hemeda, M.M. Amrei, H.V. Tafreshi, Analytical Formulations for Critical Pressure of Submerged Superhydrophobic Surface Comprised of Polygonal Pores or Posts, Journal of Applied Physics<\/em><\/strong> 119 (17) (2016)<\/span><\/p>\n

105-A.A. Hemeda and H.V. Tafreshi, Liquid\u2013Infused Surfaces with Trapped Air (LISTA) for Drag Force Reduction, Langmuir<\/em><\/strong> 32, 2955 (2016)<\/span><\/p>\n

104-D.G. Venkateshan, M.A. Tahir, H.V. Tafreshi, B. Pourdeyhimi, Modeling Effects of Fiber Rigidity on Thickness and Porosity of Virtual Electrospun Mats, Materials and Design<\/em><\/strong> 96, 27 (2016)<\/span><\/p>\n

103-A.M. Saleh, H.V. Tafreshi, B. Pourdeyhimi, An Analytical Approach to Predict Pressure Drop and Collection Efficiency of Dust-Load Pleated Filters, Separation and Purification Technology<\/em> <\/strong>161, 80 (2016)<\/span><\/p>\n

102-A.M. Saleh, H.V. Tafreshi, B. Pourdeyhimi, Service Life of Circular Pleated Filters vs. that of their Flat Counterparts, Separation and Purification Technology<\/em><\/strong> 156, 881(2015)<\/span><\/p>\n

101-A. Hemeda and H.V. Tafreshi, Instantaneous Slip-Length in Superhydrophobic Microchannels: Grooves with Dissimilar Walls or Arbitrary Wall Curvatures, Physics of Fluids<\/em><\/strong> 27, 102101 (2015)<\/span><\/p>\n

100-T.M. Bucher, M.M. Amrei, H.V. Tafreshi, Effect of Wetting Heterogeneity on Capillarity of Superhydrophobic Coatings with Orthogonally Layered Fibers, Surface and Coatings Technology<\/em> <\/strong>277, 117 (2015)<\/span><\/p>\n

99-A.M. Saleh and H.V. Tafreshi, Effects of Fibers Cross-Sectional Shape on Performance of Dust Loaded Filters, Separation and Purification Technology<\/em><\/strong> 149, 295 (2015)<\/span><\/p>\n

98-M.M. Amrei and H.V. Tafreshi, Effects of Hydrostatic Pressure on Wetted Area of Submerged Superhydrophobic Granular Coatings. Part II: Poly-Dispersed Coatings, Colloids and Surfaces A<\/em> <\/strong>481, 547 (2015)<\/span><\/p>\n

97-M.M. Amrei and H.V. Tafreshi, Effects of Hydrostatic Pressure on Wetted Area of Submerged Superhydrophobic Granular Coatings. Part I: Mono-Dispersed Coatings, Colloids and Surfaces A<\/em> <\/strong>465, 87 (2015)<\/span><\/p>\n

96-A.M. Saleh and H.V. Tafreshi, A Simple Semi-Analytical Model for Predicting the Service Life of Pleated Aerosol Filters, Separation and Purification Technology<\/em><\/strong> 137, 94 (2014)<\/span><\/p>\n

95-A. Hemeda and H.V. Tafreshi, General Formulations for Predicting Longevity of Submerged Superhydrophobic Surfaces Comprised of Pores or Posts, Langmuir<\/em><\/strong> 30, 10317 (2014)<\/span><\/p>\n

94-T.M. Bucher, H.V. Tafreshi, Modeling Air\u2013Water Interface in Disordered Fibrous Media with Heterogeneous Wettabilities, Colloids and Surfaces A<\/strong> <\/em>461, 323 (2014)<\/span><\/p>\n

93-A. Hemeda, M. Gad-el-Hak, H.V. Tafreshi, Longevity of Submerged Superhydrophobic Surfaces Made of Grooves with Hierarchical Fins, Physics of Fluids<\/em><\/strong> 26, 082103 (2014)<\/span><\/p>\n

92-M.A. Saleh, S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, 3-D Modeling of Surface and Depth Particle-Loading in Pleated Filters, Powder Technology<\/em><\/strong> 266, 79 (2014)<\/span><\/p>\n

91-R. Arambakam, H.V. Tafreshi, B. Pourdeyhimi, Modeling Performance of Multi-Component Fibrous Insulations against Conductive and Radiative Heat Transfer, International Journal of Heat and Mass Transfer<\/em><\/strong> 71, 341\u2013348 (2014)<\/span><\/p>\n

90-C.A. Barth, M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Convective Air Mass Transfer in Submerged Superhydrophobic Surfaces: Turbulent Flow, International Journal of Flow Control<\/em> <\/strong>5(3-4) 143 (2013)<\/span><\/p>\n

89-C.A. Barth, M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Convective Air Mass Transfer in Submerged Superhydrophobic Surfaces, International Journal of Flow Control<\/em><\/strong> 5(2), 79 (2013)<\/span><\/p>\n

88-T.M. Bucher, H.V. Tafreshi, G.C. Tepper, Modeling Filtration Performance of Nanofiber Coatings with Orthogonal Fiber Orientations, Powder Technology<\/em><\/strong> 249, 43 (2013)<\/span><\/p>\n

87-B. Emami, A. Hemeda, M.M. Amrei, A. Luzar, M. Gad-el-Hak, H.V. Tafreshi, Modeling Longevity of Submerged Superhydrophobic Surfaces Made up of Parallel Grooves, Physics of Fluids<\/em><\/strong> 25, 062108 (2013)<\/span><\/p>\n

86-T.M. Bucher and H.V. Tafreshi, On Applications and Limitations of One-Dimensional Capillarity Formulations for Media with Heterogeneous Wettability, Applied Physics Letters<\/em><\/strong> 102, 241606 (2013)<\/span><\/p>\n

85-A.M. Saleh, S.A. Hosseini, H.V. Tafreshi, B. Pourdeyhimi, 3-D Microscale Simulation of Dust-Loading in Thin Flat-Sheet Filters: A Comparison with 1-D Macroscale Simulations, Chemical Engineering Science<\/em><\/strong> 99, 284 (2013)<\/span><\/p>\n

84-R. Arambakam, H.V. Tafreshi, B. Pourdeyhimi, Dual-Scale 3-D Approach for Modeling Radiative Heat Transfer in Fibrous Insulations, International Journal of Heat and Mass Transfer<\/em> <\/strong>64, 1109 (2013)<\/span><\/p>\n

83-B. Emami, S. Fotovati, M.M. Amrei H.V. Tafreshi, Effects of Fiber Orientation on Permeability of Fibrous Media to Power-Law Fluids, International Journal of Heat and Mass Transfer<\/em><\/strong> 60, 375 (2013)<\/span><\/p>\n

82-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Novel Method to Characterize Superhydrophobic Coatings, Journal of Colloids and Interface Science<\/strong><\/em> 395, 315 (2013)<\/span><\/p>\n

81-R. Arambakam, H.V. Tafreshi, B. Pourdeyhimi, A Simple Simulation Method for Designing Fibrous Insulation Materials, Materials & Design<\/em><\/strong> 44, 99 (2013)<\/span><\/p>\n

80-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Sustainability of Superhydrophobicity under Pressure, Physics of Fluids<\/em><\/strong> 24, 112103 (2012)<\/span><\/p>\n

79-S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, Unsteady\u2013State Modeling of Depth Deposition in Pleated Aerosol Filters, Separation and Purification Technology<\/em> <\/strong>98, 344 (2012)<\/span><\/p>\n

78-R. Arambakam, H.V. Tafreshi, B. Pourdeyhimi, An Analytical Monte Carlo Simulation of Radiative Heat through 3-D Fiberglass Insulation Media, International Journal of Heat and Mass Transfer<\/em><\/strong> 55, 7234 (2012)<\/span><\/p>\n

77-S.A. Hosseini and H.V. Tafreshi, Modeling Particle-Loaded Single Fiber Efficiency and Fiber Drag using Fluent CFD Code, Computers and Fluids<\/em><\/strong> 66, 175 (2012)<\/span><\/p>\n

76-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Influence of Flow on Longevity of Superhydrophobic Coatings, Langmuir<\/em><\/strong> 28, 9759 (2012)<\/span><\/p>\n

75-B. Emami and H.V. Tafreshi, Optimizing Fiber Cross-Sectional Shape for Improving Stability of Air\u2013Water Interface over Superhydrophobic Fibrous Coatings, Applied Physics Letters<\/em> <\/strong>100, 193104 (2012)<\/span><\/p>\n

74-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Effects of Hydrostatic Pressures on Drag-Reduction Performance of Submerged Aerogel Particle Coatings, Colloids and Surfaces A<\/em><\/strong> 399, 62 (2012)<\/span><\/p>\n

73-T.M. Bucher, B. Emami, H.V. Tafreshi, M. Gad-el-Hak, G.C. Tepper, Modeling Resistance of Nanofibrous Superhydrophobic Coatings to Hydrostatic Pressure: Role Microstructure, Physics of Fluids<\/em><\/strong> 24, 2, 022109 (2012)<\/span><\/p>\n

72-B. Emami, H.V. Tafreshi, M. Gad-el-Hak, G.C. Tepper, Predicting Shape and Stability of Air\u2013Water Interface on Submerged Thin Electrospun Superhydrophobic Coatings, Journal of Applied Physics<\/em><\/strong> 111, 064325 (2012)<\/span><\/p>\n

71-B. Emami, H.V. Tafreshi, M. Gad-el-Hak, G.C. Tepper, Predicting Shape and Stability of Air\u2013Water Interface on Superhydrophobic Surfaces Comprised of Pores with Arbitrary Shapes, Applied Physics Letters<\/em><\/strong> 100, 013104 (2012)<\/span><\/p>\n

70-M. Mital and H.V. Tafreshi, A Methodology for Determining Optimal Thermal Damage in Magnetic Nanoparticle Hyperthermia Cancer Treatment, International Journal for Numerical Methods in Biomedical Engineering<\/em><\/strong> 28, 2, 205 (2012)<\/span><\/p>\n

69-F. Ochanda, M.A. Samaha, H.V. Tafreshi, G.C. Tepper, M. Gad-el-Hak, Effects of Salinity on Drag Reduction and Longevity of Superhydrophobic Fiber Coatings, Journal of Applied Polymer Science<\/em><\/strong> 123, 1112 (2012)<\/span><\/p>\n

68-F. Ochanda, M.A. Samaha, H.V. Tafreshi, G.C. Tepper, M. Gad-el-Hak Fabrication of Superhydrophobic Fiber Coatings by DC-Biased AC-Electrospinning, Journal of Applied Polymer Science<\/em><\/strong> 123, 1112 (2012)<\/span><\/p>\n

67-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Superhydrophobic Surfaces: From the Lotus Leaf to the Submarine, Comptes Rendus Mecanique<\/em><\/strong> 340, 18 (2012)<\/span><\/p>\n

66-S.A. Hosseini and H.V. Tafreshi, On the Importance of Fibers\u2019 Cross-Sectional Shape for Air Filters Operating in the Slip Flow Regime, Powder Technology<\/em><\/strong> 212, 425 (2011)<\/span><\/p>\n

65-S. Fotovati, S.A. Hosseini, H.V. Tafreshi, B. Pourdeyhimi, Modeling Instantaneous Pressure Drop of Pleated Thin Filter Media during Dust Loading, Chemical Engineering Science<\/em><\/strong> 66, 4036 (2011)<\/span><\/p>\n

64-B. Emami, T.M. Bucher, H.V. Tafreshi, D. Pestov, M. Gad-el-Hak, G.C. Tepper, Simulation of Meniscus Stability in Superhydrophobic Granular Surfaces under Hydrostatic Pressures, Colloids and Surfaces A<\/em><\/strong> 385, 95 (2011)<\/span><\/p>\n

63-A. Ashari, T.M. Bucher, H.V. Tafreshi, Modeling Motion-Induced Fluid Release from Partially-Saturated Fibrous Media onto Surfaces with Different Hydrophilicity, International Journal of Heat and Fluid Flow<\/em> <\/strong>32, 1076 (2011)<\/span><\/p>\n

62-B. Emami, H.V. Tafreshi, M. Gad-el-Hak, G.C. Tepper, Predicting Shape and Stability of Air\u2013Water Interface on Superhydrophobic Surfaces with Randomly Distributed, Dissimilar Posts, Applied Physics Letters<\/em><\/strong> 98, 20, 203106 (2011)<\/span><\/p>\n

61-M.A. Samaha, F. Ochanda, H.V. Tafreshi, G.C. Tepper, M. Gad-el-Hak, In-Situ Non-Invasive Characterization of Superhydrophobic Coatings, Review of Scientific Instruments<\/em><\/strong> 82, 4, 045109 (2011)<\/span><\/p>\n

60-R. Arambakam, S.A. Hosseini, H.V. Tafreshi, B. Pourdeyhimi, A Monte Carlo Simulation of Radiative Heat through Fibrous Media: Effects of Boundary Conditions and Microstructural Parameters, International Journal of Thermal Sciences<\/em><\/strong> 50, 935 (2011)<\/span><\/p>\n

59-M.A. Samaha, H.V. Tafreshi, M. Gad-el-Hak, Modeling Drag Reduction and Meniscus Stability of Superhydrophobic Surfaces Comprised of Random Roughness, Physics of Fluids<\/em><\/strong> 23, 012001 (2011)<\/span><\/p>\n

58-S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, Analytical Expressions for Predicting Collection Efficiency and Pressure Drop of Fibrous Media with Trilobal Fibers, Journal of Hazardous Materials<\/em><\/strong> 186, 1503 (2011)<\/span><\/p>\n

57-A. Ashari, M. Bucher, H.V. Tafreshi, A Semi-Analytical Model for Simulating Fluid Transport in Multi-Layered Fibrous Sheets Made up of Solid and Porous Fibers, Computational Materials Science<\/em><\/strong> 50, 378-390 (2010)<\/span><\/p>\n

56-S. Fotovati, H.V. Tafreshi, B. Pourdeyhimi, Influence of Fiber Orientation Distribution on Collection Efficiency of Fibrous Filters, Chemical Engineering Science<\/em><\/strong> 65, 5285-5293 (2010)<\/span><\/p>\n

55-M.A. Tahir, H.V. Tafreshi, B. Pourdeyhimi, Modeling the Role of Microstructural Parameters in Radiative Heat Transfer through Disordered Fibrous Media, International Journal of Heat & Mass Transfer<\/em> <\/strong>53, 4629-4637 (2010)<\/span><\/p>\n

54-S.A. Hosseini and H.V. Tafreshi, Modeling Particle Filtration in 2-D Disordered Domains: A Comparison with Cell Models, Separation and Purification Technology<\/em> <\/strong>74, 160-169 (2010)<\/span><\/p>\n

53-S.A. Hosseini and H.V. Tafreshi, 3-D Simulation of Particle Filtration in Electrospun Nanofibrous Filters, Powder Technology<\/em><\/strong> 201, 153-160 (2010)<\/span><\/p>\n

52-S. Fotovati, H.V. Tafreshi, A. Ashari, S.A. Hosseini, B. Pourdeyhimi, Analytical Expressions for Predicting Capture Efficiency of Bimodal Fibrous Filters, Journal of Aerosol Science<\/em><\/strong> 41, 295 (2010)<\/span><\/p>\n

51-A. Ashari, T.M. Bucher, H.V. Tafreshi, M. A. Tahir, M.S.A. Rahman, Modeling Fluid Spread in Thin Fibrous Sheets: Effects of Fiber Orientation, International Journal of Heat & Mass Transfer<\/em> <\/strong>53, 1750 (2010)<\/span><\/p>\n

50-S.A. Hosseini and H.V. Tafreshi, Modeling Permeability of 3-D Nanofiber Media: Effects of Slip Flow, Chemical Engineering Science<\/em><\/strong> 65, 2249 (2010)<\/span><\/p>\n

49-M.A. Tahir and H.V. Tafreshi, Influence of Fiber Orientation on the Transverse Permeability of Fibrous Media, Physics of Fluids<\/em><\/strong> 21, 083604 (2009)<\/span><\/p>\n

48-A. Ashari and H.V. Tafreshi, General Capillary Pressure and Relative Permeability Expressions for Through-Plane Fluid Transport in Thin Fibrous Sheets, Colloids and Surfaces A<\/em><\/strong> 346, 114 (2009)<\/span><\/p>\n

47-A. Ashari and H.V. Tafreshi, A Two-Scale Modeling of Motion-Induced Fluid release from Thin Fibrous Porous Media, Chemical Engineering Science<\/em><\/strong> 64, 2067 (2009)<\/span><\/p>\n

46-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, A Realistic Modeling of Fluid Infiltration in Thin Fibrous Sheets, Journal of Applied Physics<\/em><\/strong> 105, 113522 (2009)<\/span><\/p>\n

45-H.V. Tafreshi, M.S.A. Rahman, S. Jaganathan, Q. Wang, B. Pourdeyhimi, Analytical Expressions for Predicting Permeability of Bimodal Fibrous Porous Media, Chemical Engineering Science<\/em> <\/strong>64, 1154 (2009)<\/span><\/p>\n

44-S. Jaganathan, H.V. Tafreshi, E. Shim, B. Pourdeyhimi, A Study on Compression-Induced Morphological Changes of Nonwoven Fibrous Materials, Colloids and Surfaces A<\/em><\/strong> 337, 173 (2009)<\/span><\/p>\n

43-Qashou, H.V. Tafreshi, B. Pourdeyhimi, An Investigation of the Radiative Heat Transfer through Fibrous Thin Sheets, Journal of Engineered Fibers & Fabrics<\/em><\/strong> 4, 1, 9-15 (2009)<\/span><\/p>\n

42-B. Maze, H.V. Tafreshi, B. Pourdeyhimi, Case Studies of Air Filtration at Microscales: Micro- and Nanofiber Media, Journal of Engineered Fibers & Fabrics<\/em><\/strong> 3, 2 Special Issue: Sp. Iss. SI (2008)<\/span><\/p>\n

41-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, Two-Scale Modeling Approach to Predict Permeability of Fibrous Media, Journal of Engineered Fibers & Fabrics<\/em><\/strong> 3, 2 Special Issue: Sp. Iss. SI (2008)<\/span><\/p>\n

40-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, Modeling Liquid Porosimetry in Modeled and Imaged 3-D Fibrous Microstructures, Journal of Colloid & Interface Science<\/em><\/strong> 326, 166 (2008)<\/span><\/p>\n

39-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, A Case Study of Realistic Two-Scale Modeling of Water Permeability in Fibrous Media, Separation Science & Technology<\/em><\/strong> 43, 1901 (2008)<\/span><\/p>\n

38-M. Latifi, H.V. Tafreshi, B. Pourdeyhimi, A Note on an Optical Method to Evaluate Fiber Dispersion in Wet-laid Nonwoven Process, Textile Research Journal<\/em><\/strong> 78(6): 518 (2008)<\/span><\/p>\n

37-S. Jaganathan, H.V. Tafreshi, B. Maze, B. Pourdeyhimi, Simulating Liquid Flow through Virtual Glass Fiber Mats, Textile Research Journal<\/em> <\/strong>78, 903 (2008)<\/span><\/p>\n

36-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, The Influence of Forming Surface on the Vacuum Pressure in Hydroentangling Process, Journal of The Textile Institute<\/em><\/strong> 99(5): 407 (2008)<\/span><\/p>\n

35-B. Karaguzel, H.V. Tafreshi, B. Pourdeyhimi, Potentials and Challenges in Jetting Microdroplets onto Nonwoven Fabrics, Journal of The Textile Institute<\/em><\/strong> 99(6): 581 (2008)<\/span><\/p>\n

34-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, A Realistic Approach for Modeling Permeability of Fibrous Media: 3-D Imaging Coupled with CFD Simulation, Chemical Engineering Science<\/em> <\/strong>63, 244 (2008)<\/span><\/p>\n

33-S. Jaganathan, H.V. Tafreshi, B. Pourdeyhimi, On the Pressure Drop Prediction of Filter Media with Bimodal Fiber Diameter, Powder Technology<\/em><\/strong> 181, 89 (2008)<\/span><\/p>\n

32-B. Maze, H.V. Tafreshi, B. Pourdeyhimi, Geometrical Modeling of Fibrous Materials under Compression, Journal of Applied Physics<\/em><\/strong> 102, 073533 (2007)<\/span><\/p>\n

31-Q. Wang, B. Maze, H.V. Tafreshi, B. Pourdeyhimi, Simulating Through-plane Permeability of Fibrous Materials Having Different Fiber Lengths, Modeling & Simulation in Materials Science and Engineering<\/em><\/strong> 15, 855-868 (2007)<\/span><\/p>\n

30-S. Zobel, B. Maze, H.V. Tafreshi, Q. Wang, B. Pourdeyhimi, Simulating Permeability of 3-D Calendered Fibrous Structures, Chemical Engineering Science<\/em><\/strong> 62, 6285-6296 (2007)<\/span><\/p>\n

29-Q. Wang, B. Maze, H.V. Tafreshi, B. Pourdeyhimi, On the Pressure Drop Modeling of Monofilament Woven Fabrics, Chemical Engineering Science<\/em><\/strong> 62, 4817-4821 (2007)<\/span><\/p>\n

28-N. Anantharamaiah, H.V. Tafreshi, B. Pourdeyhimi, Predicting Inlet Roundness of Hydroentangling Nozzles via CFD Simulations, Journal of Micromechanics and Microengineering<\/em> <\/strong>17(5), N31 (2007)<\/span><\/p>\n

27-B. Maze, H.V. Tafreshi, Q. Wang, B. Pourdeyhimi, Unsteady-state Simulation of Nanoparticle Aerosol Filtration via Nanofiber Electrospun Filters at Reduced Pressures, Journal of Aerosol Science<\/em><\/strong> 38, 550-571 (2007)<\/span><\/p>\n

26-N. Anantharamaiah, K. Roempert, H.V. Tafreshi, B. Pourdeyhimi, A New Design for Nozzle Strips of Hydroentangling Process for Minimizing Jet Marks on the Fabrics, Journal of Materials Science<\/em><\/strong> 42 (15), 6161-6170 (2007)<\/span><\/p>\n

25-Q. Wang, B. Maze, H.V. Tafreshi, B. Pourdeyhimi, A Note on Permeability Simulation of Multifilament Woven Fabrics, Chemical Engineering Science<\/em><\/strong> 61, 8085 (2006)<\/span><\/p>\n

24-K. Wegner, P., Piseri, H.V. Tafreshi, P. Milani, Cluster Beam Deposition: A Tool for Nanoscale Science and Technology, Journal of Physics D-Applied Physics<\/em><\/strong> 39, R439 (2006)<\/span><\/p>\n

23-N. Anantharamaiah, H.V. Tafreshi, B. Pourdeyhimi, A Study on Hydroentangling Waterjets and their Impact Forces, Experiments in Fluids<\/em><\/strong> 41 (1), 103 (2006)<\/span><\/p>\n

22-Q. Wang, B. Maze, H.V. Tafreshi, B. Pourdeyhimi, A Case Study of Simulating Submicron Aerosol Filtration via Spun-bonded Filter Media, Chemical Engineering Science<\/em><\/strong> 61, 4871 (2006)<\/span><\/p>\n

21-N. Anantharamaiah, H.V. Tafreshi, B. Pourdeyhimi, Numerical Simulation of the Formation of Constricted Waterjets in Capillary Nozzles: Effects of Nozzle Geometry, Chemical Engineering Research & Design<\/em><\/strong> 84(A3), 231 (2006)<\/span><\/p>\n

20-N. Anantharamaiah, H.V. Tafreshi, B. Pourdeyhimi, A Study on Deterioration of Hydroentangling Nozzles due to Erosion and Particle Accretion, Chemical Engineering Science<\/em><\/strong> 61, 4582 (2006)<\/span><\/p>\n

19-H.V. Tafreshi, P. Piseri, G. Benedek, P. Milani, The Role of Gas Dynamics in Operation Conditions of a Pulsed Microplasma Cluster Source for Nanostructured Thin Films Deposition, Journal of Nanoscience & Nanotechnology<\/em><\/strong> 6, 1140 (2006)<\/span><\/p>\n

18-H.V. Tafreshi, E. Ercan, B. Pourdeyhimi, Calculating Mass Transfer from Vertical Wet Fabrics Using a Free Convection Heat Transfer Correlation, Heat & Mass Transfer<\/em><\/strong> 42(9) 767 (2006)<\/span><\/p>\n

17-B. Pourdeyhimi, B. Maze, H.V. Tafreshi, Simulation and analysis of unbonded nonwoven fibrous structures, Journal of Engineered Fibers & Fabrics<\/em><\/strong> 1, 2 47-65 (2006)<\/span><\/p>\n

16-P. Piseri, H.V. Tafreshi, P. Milani, Manipulation of Nano-particles in Supersonic Beams for the Production of Nanostructured Materials, Current Opinion in Solid State & Material Science<\/em><\/strong> 8, 195 (2004)<\/span><\/p>\n

15-H.V. Tafreshi and B. Pourdeyhimi, Simulation of Cavitation and Hydraulic Flip inside Hydroentangling Nozzles, Textile Research Journal<\/em><\/strong> 74(4), 359 (2004)<\/span><\/p>\n

14-Begenir, H.V. Tafreshi, B. Pourdeyhimi, Effects of the Nozzle Geometry on Hydroentangling Waterjets: Experimental Study, Textile Research Journal<\/em> <\/strong>74(2), 178 (2004)<\/span><\/p>\n

13-H.V. Tafreshi and B. Pourdeyhimi, Effects of Nozzle Geometry on Waterjet Breakup at High Reynolds Numbers, Experiments in Fluids<\/em><\/strong> 35(4), 364 (2003)<\/span><\/p>\n

12-H.V. Tafreshi and B. Pourdeyhimi, Simulation of Flow Dynamics in Hydroentangling Nozzles: The Effect of Cone Angle and Nozzle Aspect Ratio, Textile Research Journal<\/em><\/strong> 73(8), 700 (2003)<\/span><\/p>\n

11-H.V. Tafreshi and B. Pourdeyhimi, The Role of Baffles on Flow Fields inside Wet-lay Mixing Tanks and their Potential Influence on the Fiber Dispersion, Textile Research Journal<\/em><\/strong> 73(7), 575 (2003)<\/span><\/p>\n

10-H.V. Tafreshi, B. Pourdeyhimi, R. Holmes, D. Shiffler, Simulation and Characterization of Water Flow inside Hydroentangling Orifices, Textile Research Journal<\/em><\/strong> 73(3), 256 (2003)<\/span><\/p>\n

9-G. Benedek, H.V. Tafreshi, E. Barborini, P. Piseri, P. Milani, C. Ducati, J. Robertson, The structure of negatively curved spongy carbon, Diamond & Related Materials<\/em><\/strong> (12), 768 (2003)<\/span><\/p>\n

8-H.V. Tafreshi, P. Piseri, E. Barborini, G. Benedek, P. Milani, Simulation on the Effect of Brownian Motion on Nanoparticle Trajectories in a Pulsed Micro-plasma Cluster Source, Journal of Nanoparticle Research<\/em><\/strong> 4(6), 511 (2002)<\/span><\/p>\n

7-H.V. Tafreshi, G. Benedek, P. Zamankhan, P. J. Sarkomaa, Diffusive Behavior and Structural Characterization of the Hard Sphere Fluid Through Narrow Channels with Roughened Walls, Canadian\u00a0Journal\u00a0of Physics<\/em><\/strong> 80(7), 723 (2002)<\/span><\/p>\n

6-H.V. Tafreshi, G. Benedek, P. Piseri, S. Vinati, E. Barborini, P. Milani, A Simple Nozzle Configuration for the Production of Low Divergence Supersonic Cluster Beam by Aerodynamic Focusing, Aerosol Science & Technology<\/em><\/strong> 36(5), 326 (2002)<\/span><\/p>\n

5-H.V. Tafreshi, G. Benedek, P. Piseri, S. Vinati, E. Barborini, P. Milani, Aerodynamic Focusing of Clusters into a High Intensity and Low Divergence Supersonic Beam, European Physical Journal-Applied Physics<\/em><\/strong> 16(2), 149 (2001)<\/span><\/p>\n

4-P. Zamankhan, H.V. Tafreshi, W. Jr. Polashenski, P. Sarkomaa, C. Hyndman, Shear-induced Diffusive Mixing in Simulations of Dense Couette Flow of Rough, Inelastic Hard Spheres, Journal of Chemical Physics<\/em><\/strong> 109(11), 4487 (1998)<\/span><\/p>\n

3-P. Zamankhan, W. Jr. Polashenski, H.V. Tafreshi, A. S. Manesh, P. Sarkomaa, Shear-induced Particle Diffusion in Inelastic Hard Sphere Fluids, Physical Review E<\/em><\/strong> 58(5), R5237 (1998)<\/span><\/p>\n

2-P. Zamankhan, W. Jr. Polashenski, H.V. Tafreshi, P. Sarkomaa, C. Hyndman, Bond-orientational Order in Sheared Dense Flows of Inelastic Hard Spheres, Applied Physics Letters<\/em><\/strong> 73, 450 (1998)<\/span><\/p>\n

1-P. Zamankhan, H.V. Tafreshi, John C. Chen, Lateral Diffusive Migration of Massive Particles in High-velocity Vertical Pipe Flow of Moderately Dense Gas-solid Suspensions, Physical Review E<\/em> <\/strong>56(3), 2972 (1997)<\/span><\/p>\n","protected":false},"excerpt":{"rendered":"

171-M.J. Gildeh, M. Jamali, A. Moghadam, H.V. Tafreshi, Molecular Dynamics Simulation of Compound Droplet Detachment using Magnetic Attractive and Repulsive Forces, Langmuir (under review) 170-D….<\/p>\n","protected":false},"author":394,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-11","page","type-page","status-publish","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/pages\/11","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/users\/394"}],"replies":[{"embeddable":true,"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/comments?post=11"}],"version-history":[{"count":10,"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/pages\/11\/revisions"}],"predecessor-version":[{"id":1313,"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/pages\/11\/revisions\/1313"}],"wp:attachment":[{"href":"https:\/\/mae.ncsu.edu\/pmmf\/wp-json\/wp\/v2\/media?parent=11"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}