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The drag coefficients of single spheres moving in steady and accelerated motion in a turbulent fluid

✍ Scribed by L. B. Torobin; W. H. Gauvin

Publisher
American Institute of Chemical Engineers
Year
1961
Tongue
English
Weight
643 KB
Volume
7
Category
Article
ISSN
0001-1541

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✦ Synopsis

Abstract

Drag coefficients of aerodynamically smooth spheres having a density variation of from 0.252 to 1.91 g./cc. and a diameter variation from 1.56 to 3.21 mm. were obtained for acceleration rates varying from 103.5 ft./sec.^2^ to ‐30 ft./sec.^2^ and for relative intensities of up to 45%. The particle‐to‐Eulerian macroscale ratios varied from 0.50 to 0.16, and the diameter‐to‐Eulerian microscale ratios varied from 10 to 2.

The drag coefficients were found to be a function of the particle Reynolds number and of the relative intensity but not of the acceleration and relative macro‐and‐microscale variations.

A transition theory for the system investigated is presented, which predicts that the product of the critical Reynolds number and the square of the relative intensity should be a constant; it is supported by the experimental results obtained.

📜 SIMILAR VOLUMES

Upper and lower bounds on the drag coeff
Upper and lower bounds on the drag coefficient of a sphere in an Ellis model fluid
✍ Scott W. Hopke; John C. Slattery 📂 Article 📅 1970 🏛 American Institute of Chemical Engineers 🌐 English ⚖ 562 KB

Hill's extremum principles are not directly applicable to an Ellis model fluid. A method of adapting Hill's principles to the Ellis model was developed and used to calculate upper and lower bounds on the drag coefficient for a sphere moving slowly through such a fluid. Amilable experimental data wer