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N. V. Makarov
N. V. Makarov
Ural State Mining University
Ural State Mining University

Articles

Mining
  • Date submitted
    2019-06-27
  • Date accepted
    2019-09-07
  • Date published
    2019-12-25

Optimization of geometrical parameters of the hydro-cyclone inertial Venturi separator

Article preview

The usage of nanosized particles as modifying agents opens new possibilities in the creation of materials with unique properties. The effective qualitative improvement of Russia's GDP structure is based on the recycling of technogenic mineral formations (TMF) and the production of high-tech products. Numerous studies have shown that the efficiency of this process is limited by high requirements to the fractional composition, median size, and dispersion of TMF particles, as well as imperfection of equipment and technology and their classification. The strict classification requirements must be taken into account, when developing separation methods for the dispersion of the median sizes of TMF microparticles under the conditions of the probabilistic distribution of the physical and mechanical parameters of the feed. The studies covered in the article are based on the provision on a significantly greater influence of inertial forces on the trajectory of a hydrodynamically unsteady motion of the dispersed «a microparticle – a drop of liquid» system during the hydro-cyclone separation with respect to the aerodynamic forces of their movement in a fluidized bed. The paper shows that within the range of kinetic energy of the translational motion of liquid droplets, which overcomes the aerodynamic barrier of coagulation of hydrophobic TMF particles, the minimum diameter of absorbed microparticles during hydro-cyclone coagulation depends only on the magnitude of the angular velocity of rotation of the liquid droplets. We obtained the equations for the Euler and Reynolds criteria, their average values, and the relaxation time of liquid droplets with integrated micro and nanoparticles of TMF, depending on their median size during hydro-cyclone separation. The developed mathematical model of inertial hydro-cyclone separation of finely dispersed TMF allows determining the optimal geometric parameters and energy characteristics of the Venturi separator, its aerator, and the position of the receiving tanks. The experimental results confirmed the possibility of classifying finely dispersed wastes of mining and metallurgical production in the range of median sizes (0.5-5)∙10 –6 m by fractions with a dispersion of not more than 20 %.

How to cite: Makarov V.N., Ugolnikov A.V., Makarov N.V. Optimization of geometrical parameters of the hydro-cyclone inertial Venturi separator // Journal of Mining Institute. 2019. Vol. 240. p. 638. DOI: 10.31897/PMI.2019.6.638
Electromechanics and mechanical engineering
  • Date submitted
    2018-11-13
  • Date accepted
    2019-01-23
  • Date published
    2019-04-25

APPLICATION OF AUTOMATION SYSTEMS FOR MONITORING AND ENERGY EFFICIENCY ACCOUNTING INDICATORS OF MINING ENTERPRISES COMPRESSOR FACILITY OPERATION

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The balance of electricity consumption a significant part is occupied by the production of compressed air at the mining enterprises. Many compressor stations of enterprises are equipped with automated parameter management systems that allow reliable, uninterrupted and safe operation of the compressor facilities. But the majority of automation systems at compressor stations do not perform the function of monitoring the energy efficiency indicators of the operation of a compressor station. The article discusses the issue of including compressed air flow sensors (flow meters) in an automated control system of a compressor station, which allows you to control the production of compressed air and the consumption of electrical energy for its production. Monitoring and recording of these parameters makes it possible, using microprocessor technology, to control one of the main indicators of energy efficiency – the specific energy consumption for producing one cubic meter of compressed air, determine how efficiently the compressor station works, and take appropriate measures to reduce specific energy consumption in time. . The use of additional functions of automated control and monitoring systems will allow the development and application of energy-saving measures aimed at improving the energy efficiency of the enterprise, which will lead to a reduction in the cost of finished products and increase their competitiveness

How to cite: Ugolnikov A.V., Makarov N.V. APPLICATION OF AUTOMATION SYSTEMS FOR MONITORING AND ENERGY EFFICIENCY ACCOUNTING INDICATORS OF MINING ENTERPRISES COMPRESSOR FACILITY OPERATION // Journal of Mining Institute. 2019. Vol. 236. p. 245. DOI: 10.31897/PMI.2019.2.245