Abstract
Variants of pneumatic transport with temperature data of the material are given. Methods for protecting the container from thermal heating are listed. An unloading device for cargo containers for pipeline transport of hot bulk materials has been developed. The proposed system of two integral equations will make it possible to calculate with sufficient accuracy the required compressed air pressure, geometric parameters of aerodynamic ridges for a given length of the unloading section of rotating containers and their translational speed. The presence of aerodynamic ridges will reduce the loss of energy from friction when moving containers in a spiral.
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