A model for the motion and deposition of oblate and prolate spheroids in the nano- and microscale was developed. The aim was to mimic the environment of the human lung, but the model is general and can be applied for different flows and geometries for small nonspherical particle Stokes and Reynolds numbers. A study of the motion and orientation of a single oblate and prolate particle has been done yielding that Brownian motion disturbs the Jeffery orbits for small particles. Prolate microparticles still display distinguishable orbits while oblate particles of the same size do not. A statistical study was done comparing the deposition efficiencies of oblate and prolate spheroids of different size and aspect ratio observing that smaller particles have higher deposition rate for lower aspect ratio while larger particles have higher deposition rates for large aspect ratio.
Skip Nav Destination
Article navigation
August 2016
Research-Article
Modeling Transport and Deposition Efficiency of Oblate and Prolate Nano- and Micro-particles in a Virtual Model of the Human Airway
Elise Holmstedt,
Elise Holmstedt
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
e-mail: eliseh@ltu.se
Luleå University of Technology,
Luleå SE-97 187, Sweden
e-mail: eliseh@ltu.se
Search for other works by this author on:
Hans O. Åkerstedt,
Hans O. Åkerstedt
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
Luleå University of Technology,
Luleå SE-97 187, Sweden
Search for other works by this author on:
T. Staffan Lundström,
T. Staffan Lundström
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
Luleå University of Technology,
Luleå SE-97 187, Sweden
Search for other works by this author on:
Sofie M. Högberg
Sofie M. Högberg
Sandvik Materials Technology,
Storgatan 2,
Sandviken SE-811 81, Sweden
Storgatan 2,
Sandviken SE-811 81, Sweden
Search for other works by this author on:
Elise Holmstedt
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
e-mail: eliseh@ltu.se
Luleå University of Technology,
Luleå SE-97 187, Sweden
e-mail: eliseh@ltu.se
Hans O. Åkerstedt
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
Luleå University of Technology,
Luleå SE-97 187, Sweden
T. Staffan Lundström
Division of Fluid and Experimental Mechanics,
Luleå University of Technology,
Luleå SE-97 187, Sweden
Luleå University of Technology,
Luleå SE-97 187, Sweden
Sofie M. Högberg
Sandvik Materials Technology,
Storgatan 2,
Sandviken SE-811 81, Sweden
Storgatan 2,
Sandviken SE-811 81, Sweden
Contributed by the Fluids Engineering Division of ASME for publication in the JOURNAL OF FLUIDS ENGINEERING. Manuscript received April 28, 2015; final manuscript received February 3, 2016; published online May 2, 2016. Assoc. Editor: Daniel Maynes.
J. Fluids Eng. Aug 2016, 138(8): 081203 (10 pages)
Published Online: May 2, 2016
Article history
Received:
April 28, 2015
Revised:
February 3, 2016
Citation
Holmstedt, E., Åkerstedt, H. O., Staffan Lundström, T., and Högberg, S. M. (May 2, 2016). "Modeling Transport and Deposition Efficiency of Oblate and Prolate Nano- and Micro-particles in a Virtual Model of the Human Airway." ASME. J. Fluids Eng. August 2016; 138(8): 081203. https://doi.org/10.1115/1.4032934
Download citation file:
Get Email Alerts
Cited By
Effects of Tire Attributes on the Aerodynamic Performance of a Generic Car–Tire Assembly
J. Fluids Eng (January 2025)
Related Articles
Comparison of Various Pressure Based Boundary Conditions for Three-Dimensional Subsonic DSMC Simulation
J. Fluids Eng (March,2018)
Development of Three-Dimensional Streamline Image Velocimetry Using Superimposed Delaunay Triangulation and Geometrical Fitting
J. Fluids Eng (January,2016)
The Mechanism of Size-Based Particle Separation by Dielectrophoresis in the Viscoelastic Flows
J. Fluids Eng (September,2018)
Modeling Gravity and Turbidity Currents: Computational Approaches and Challenges
Appl. Mech. Rev (July,2015)
Related Proceedings Papers
Related Chapters
Multiphase Flow Simulations of Sediment Particles in Mixed-flow Pumps
Mixed-flow Pumps: Modeling, Simulation, and Measurements
Practical Inverse Model of a Magnetorheological Damper for Vehicle Suspension Applications
International Conference on Instrumentation, Measurement, Circuits and Systems (ICIMCS 2011)
Engineering Design about Electro-Hydraulic Intelligent Control System of Multi Axle Vehicle Suspension
International Conference on Instrumentation, Measurement, Circuits and Systems (ICIMCS 2011)