Abstract
The results are given of an experimental investigation of the formation of liquid films from wall gas-droplet jets under quasi-isothermal conditions. The experiments are performed in the initial segment of a round cylindrical tube under conditions of varying cocurrent-flow parameter m = ρsws/ρ0w0 and concentration of liquid droplets. The instantaneous thickness of the liquid film is measured by a capacitive sensor. The distributions of the liquid-film thickness and of the mass rate of particle deposition along the length of the channel are obtained. The pattern of deposition is compared with available data for a stabilized two-phase flow in a tube. Reasons for the difference of the laws of liquid-droplet deposition from wall gas-droplet jets are discussed.
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