AVS-150 Chemical Mixing Machine
AVS-150
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Adavantages
- simultaneous pulverization, mixing and activation of processed media;
- super-fine pulverization;
- process intensification. Retention times measured in fractions of a second;
- reduced power consumption;
- raw material economy;
- simple to retrofit into existing processing lines.
GlobeCore is the world’s only high-tech company for production of operating vortex layer devices with real applications in the industrial sector which deliver the expected results.
The Chemical Mixing1In industrial process engineering, mixing is a unit operation that involves manipulation of a heterogeneous physical system with the intent to make it more homogeneous. Machine operates on the principle of transforming the energy of electromagnetic field2An electromagnetic field (also EMF or EM field) is a physical field produced by electrically charged objects. It affects the behavior of charged objects in the vicinity of the field. into other forms of energy. The unit is a chamber (pipeline) of 90-136 mm diameter, located inside rotating electromagnetic field inductor3An inductor, also called a coil, choke, or reactor, is a passive two-terminal electrical component that stores energy in a magnetic field when electric current flows through it.. There are ferromagnetic4Ferromagnetism is the basic mechanism by which certain materials (such as iron) form permanent magnets, or are attracted to magnets. cylindrical elements of 0.5 – 5 mm diameter and 5 – 60 mm length in the operating area, from several dozen to several hundred (0.05 – 5 kg), depending on the volume of the work zone.
The chamber can be designed in several ways depending on the requirements of the processes in the chamber.
For liquid phase processes, strainers are installed on the sides of the bush, or at outlet end only. If fibrous materials are processed, labyrinth type strailers are installed. These devices hold the ferromagnetic particles in the work zone.
Consumption of energy in the chamber is defined only by its design, material and the thickness of the walls and does not depend on magnetic field strength. To reduce energy consumption, we manufacture the chamber from a non-magnetic material (stainless steel).
The rotating electromagnetic field causes the ferromagnetic elements in the work zone to move and create the so called “vortex layer”
The main components of electromagnetic units with vortex layer are: the inductor of rotating electromagnetic field with cooling system, connected to three phase 380/220V, 50Hz power supply, and operating chamber with ferromagnetic elements.
Chemical Mixing Machine AVS-150 Technical characteristics
Chemical Mixing Machine AVS-150 with ferromagnetic elements are designed to intensify5An intensification is an increase in strength or magnitude (or intensity). various physical and chemical processes.
The units can be efficiently used for
- production of multicomponent emulsiosn6An emulsion is a mixture of two or more liquids that are normally immiscible (unmixable or unblendable). and suspensions7A suspension is a heterogeneous mixture that contains solid particles sufficiently large for sedimentation.;
- acceleration of production of finely dispersed8A dispersion is a system in which distributed particles of one material are dispersed in a continuous phase of another material. The two phases may be in the same or different states of matter. mixtures;
- activation9Activation generally refers to the process whereby something is prepared or excited for a subsequent reaction. of materials both in dry form and dispersed in water;
- leading to improcved properties of resin and decreased vulcanizing time;
- for complete purification of industrial waste water10Wastewater (or waste water) is any water that has been affected by human use. from phenol, formaldehyde, heavy metals11Heavy metals are generally defined as metals with relatively high densities, atomic weights, or atomic numbers., arsenic, cyanides;
- acceleration of heat treatment;
- production of protein material from yeast cells;
- improvement of microbiological stability of food products and activation of yeast in bread baking;
- improvement of crude products and finished products from meat and fish;
- intensification of extraction12An extract is a substance made by extracting a part of a raw material, often by using a solvent. processes, including production of broth, juice, pectin etc;
- production of suspensions and emulsion of increased microbiological safety in food production without the used of staibilizers and increase of product output.
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Chemical Mixing Machine AVS-150 could be used as:
AVS-150 Technical characteristics
Parameter | Type |
AVS-150 | |
Max processing rate, m3/hour
– water water treatment |
30 |
– suspension production | 15 |
Operating pressure, MPa (kg/cm2), max: | 0,25 (2,5) |
Work zone diameter, mm | 136 |
Magnetic induction in work zone, Т | 0,15 |
Electric supply | From AC network |
Frequency, Hz | 50 |
Voltage, V | 380 |
Rotation of magnetic field in work area, RPM | 3 000 |
Power consumption, kW | 9,5 |
Dimensions, mm
-unit – control panel |
1300×1100×1 690 1 060×1030×1 900 |
Weight, kg
-unit – control panel |
500 450 |
- simultaneous pulverization, mixing and activation of processed media;
- super-fine pulverization;
- process intensification. Retention times measured in fractions of a second;
- reduced power consumption;
- raw material economy;
- simple to retrofit into existing processing lines.
AVS vortex layer devices manufactured by GlobeCore can be used:
In construction for:
- quartz sand grinding;
- caked cement grinding and activation;
- wood flour manufacturing;
- construction mix production;
- expanded clay production;
- aerated concrete production;
- sand-lime brick production;
- manufacture of asbestos-cement products;
- microcement production;
- dry mortar production;
- bitumen emulsion production;
- gypsum processing and activation;
- calcium carbonate grinding;
- production of ceramic items;
- water magnetization;
- chalk grinding;
- linoleum production;
- mixing of bitumen and perlite, bitumen and chalk, as well as other additives to bitumen for obtaining of grouts;
- ovalization (removal of sharp edges) and selective crushing of synthetic diamonds;
- mixing of charge stock constituents applied in production of diamond tool bodies.
In additive technology for:
- preparation of finely dispersed mixes;
- graphene production;
- graphite milling;
- pyrocarbon (carbon) crushing;
- glass milling;
- obtaining (by mixing) of refractory compounds (titanium carbide, molybdenum silicide) with simultaneous grinding to the required granularity;
- pulverization and mixing of refractory powders;
- mixing of various constituents of bulk materials (organic-bond powders, metal-based bond powders, micropowders, ceramic frit constituents, graphite and metal powders during the synthesis of superhard materials, disintegration of diamonds (including the needle-shaped ones), ovalization of diamond grains);
- mixing of diamond-bearing molding powders;
- cellulose milling;
- resistors manufacturing.
In the fuel industry for:
- blending of diesel fuel and fuel oil;
- heavy marine fuel preparation;
- mixed oxide fuel production;
- coal grinding to obtain water-coal fuel;
- biodiesel production.
In the paint and varnish industry for:
- paint production;
- mineral pigment dispersion;
- synthesis of inorganic pigments;
- road surface marking paint production;
- improving the protective properties of paints and varnishe.
In agriculture for:
- pre-sowing electromagnetic seed processing;
- sugar beet processing;
- peet processing for humic fertilizers production;
- humate production;
- leonardite grinding;
- peat gel production;
- sapropel processing;
- amaranth milling;
- chicken manure decontamination;
- chicken manure disinfection;
- swine manure decontamination;
- fodder production;
- herbicidal suspensions production;
- production of granulated organic fertilizers from chicken manure.
In the metallurgical industry for:
- titanium dioxide production;
- gold production;
- oil shale grinding;
- intensification of sulfur smelting autoclave process;
- ferrite powders grinding;
- ferrite powders mixing;
- mold flash removal to ensure hardening of parts.
In the petrochemical industry for:
- preparation of dispersions to manufacture rubber products;
- crude oil activation;
- removal of sulfur from crude oil and petroleum products;
- purification of used oils;
- gasoline processing;
- cutting fluids production;
- graphene lubricant processing;
- lubricant grease production;
- preventing the formation of heavy oil deposits;
- activation of crude and residual oils;
- drilling mud production;
- rongalite production;
- neutralization of sulfite solution;
- resin glue production;
- activation and modification of fillers to be added to pure rubbers;
- lubricants production;
- processing of crude oil to increase the yield of low-boiling fractions;
- obtaining (by grinding and subsequent mixing) of filled metallopolymers based on fluoroplastic and graphite;
- medicinal plants extraction.
In wastewater treatment:
- wastewater treatment from hexavalent and trivalent chromium;
- wastewater treatment from iron;
- wastewater treatment from nickel;
- wastewater treatment from zinc;
- wastewater treatment from copper;
- wastewater treatment from cadmium;
- wastewater treatment from cyanide compounds;
- wastewater treatment from arsenic;
- wastewater treatment from lead;
- wastewater treatment from magnesium;
- wastewater treatment from fluorine;
- wastewater treatment from phenol;
- wastewater treatment from phosphates;
- wastewater treatment petroleum products;
- wastewater treatment from healthcare facilities (infectious diseases hospitals, specialized centers for early treatment of tuberculosis, etc.);
- domestic wastewater treatment;
- wastewater treatment from milk processing factories;
- poultry farms wastewater treatment;
- vegetable oil factories wastewater treatment;
- wastewater treatment from electroplating facilities;
- wastewater treatment from fodder yeast production facilities.
In the food industry for:
- pectin extraction;
- coffee milling;
- lignin production from apricot kernels;
- production of pulpy juices from berries;
- electromagnetic processing of vegetables;
- electromagnetic processing of semi-finished meat products;
- electromagnetic processing of finished meat products (sausages, frankfurters);
- intensification of meat broth production process;
- production of bone food paste;
- intensification of flour-based foods production process;
- mayonnaise production;
- extraction of protein substances from microorganisms;
- yeast activation;
- activation of ingredients in chocolate products;
- freezing-out of vegetable oil;
- electromagnetic processing of water-alcohol solutions (liqueurs and spirits);
- obtaining of starch and molasses;
- hydrolysis of carbohydrates to the level of alcohols;
- production of emulsion-based sauces;
- purification of unrefined vegetable oil (sunflower, rapeseed, mustard seed oils);
- instant dissolution of powdered milk (or casein) in sour cream;
- dispersing (micro-level mixing) of mustard, powdered milk, powdered eggs with other ingredients;
- hot pepper milling;
- cocoa shell grinding;
- ethyl alcohol production.
In waste processing for:
- production of tiles from waste materials;
- fuel preparation for sast-neutron reaactors;
- grinding of old asphalt concrete;
- obtaining of mineral binders from smelter slags;
- preliminary processing of liquid organic waste before anaerobic fermentation;
- zeolite grinding and activation;
- intensifying the process of radwaste vitrification in electric furnaces;
- liquid radwaste cementing;
- disposal of ash dumps from hydroelectric and thermal power plants, slag heaps, and coal beneficiation factories;
- paper stock grinding in the pulp and paper industry.