A mathematical model of suspension with saltation

W.D. Scott; J.M. Hopwood; K.J. Summers

doi:10.1007/BF01177324

Back

A mathematical model of suspension with saltation

Journal article

Peer reviewed

A mathematical model of suspension with saltation

W.D. Scott, J.M. Hopwood and K.J. Summers

Acta Mechanica, Vol.108(1-4), pp.1-22

1995

DOI: https://doi.org/10.1007/BF01177324

Files and links (1)

url

Link to Published Version *Subscription may be requiredView

Abstract

A theoretical approach to the treatment of wind erosion data, particularly from a wind tunnel, is presented. Considerations are given to the utilisation of a real data set in validation of the model, data that will be presented in a forthcoming paper. Following this, the physics of particle suspension, saltation and the turbulent boundary layer are examined. Two different mathematical models evolve: one considers only suspension, another evokes Bagnold's observation that eroding material merely shifts the velocity profile and the effect of the airborne material on the effective density of the air parcel. These produce a final, relatively simple expression that credibly fits the data of Gerety and Slingerland. A critique of the approach reveals it to be an adequate expression of the known mechanisms of suspension and saltation. Derived algebraic forms for integrated collectors show several of the same "logarithmic power" dependences. Importantly, the results show little influence of saltation itself on the profile. It appears that the saltation process is responsible for a feedback such that the eddy diffusion process for particle movement is effectively enhanced. The combination of an appropriate correction of the pitot data (following Scott and Carter) and a complete mass balance has removed the "kink" from the velocity profile and also the need to consider the saltation process itself in the particle mass balance.

Details

Title: A mathematical model of suspension with saltation
Authors/Creators: W.D. Scott (Author/Creator) - Murdoch University
J.M. Hopwood (Author/Creator) - The University of Western Australia
K.J. Summers (Author/Creator) - Alcoa
Publication Details: Acta Mechanica, Vol.108(1-4), pp.1-22
Publisher: Springer Verlag
Identifiers: 991005540084107891
Copyright: © 1995 Springer-Verlag
Murdoch Affiliation: School of Biological and Environmental Sciences
Language: English
Resource Type: Journal article

UN Sustainable Development Goals (SDGs)

This output has contributed to the advancement of the following goals:

Source: InCites

Metrics

45 Record Views

19 Times Cited - Web of Science

InCites Highlights

These are selected metrics from InCites Benchmarking & Analytics tool, related to this output

Collaboration types: Industry collaboration; Domestic collaboration
Citation topics: 8 Earth Sciences; 8.205 Ocean Dynamics; 8.205.2041 Wind Erosion
Web Of Science research areas: Mechanics
ESI research areas: Engineering