Abstract
An attempt has been made to carry out a systematic study of the hydrodynamic resistance and refracting properties of screens and screen packs on the basis of both a generalization of the existing data and additional experiments with broad variation of the principal characteristics of the screens and the values of the Reynolds number. A universal law of resistance, valid on the interval 1 < Ree < 105, is obtained for screens and combinations of screens (matrices) is investigated in detail; Gol'dshtik's theoretical relation for the index of refraction of the streamlines is shown to be correct. The relation obtained for the hydrodynamic resistance coefficient and the index of refraction of screens and matrices can be used for apparatus design purposes.
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