Self-organization of processes in gas and liquid-phase catalytic reactors

Abstract

The paper provides a system of flexible self-organization of hydrodynamic, thermal and diffusion processes in gas and liquid-phase catalytic reactors the purpose of which is to self-adapt the system to the most qualitative chemical catalytic and gas-liquid reactions and search for the best energy transfer modes (resonant modes). The developed flexible system of self-organization of processes in catalytic and gas-liquid reactors implies using elastically deformable layers of catalysts, both independently made from the required materials (contributing to resonance and effective chemical reactions) and applied on blocks of compressed metal shavings with volumetric-elastic properties. This allows affecting the chemical reactions significantly and also solving a very serious environmental problem of recycling manufacturing wastes since various steel grades being mechanically processed at machine-building enterprises form a huge amount of wastes with various properties and configuration; those block scan undoubtedly be applied as elastically deformable catalyst units in manufacturing.