RU2729151C1 - Ultrahigh-frequency plant with biconical resonator and screw for boiling animal slaughter wastes - Google Patents

Abstract

FIELD: cattle breeding.

SUBSTANCE: invention relates to microwave equipment and can be used for heat treatment of non-food wastes produced during processing of livestock, poultry, rabbits and other animals. Ultrahigh frequency plant comprises horizontally located biconical resonator 5. Screw conveyor is installed inside it coaxially along central axis in the form of cylindrical dielectric housing 4 with helical dielectric screw 3. Hole on one vertex of circular cone and end of cylindrical dielectric housing 4 are docked to lower base of loading container 2 so that continuation of screw dielectric screw 3 is located in loading container. Motor-reducer 1 for screw drive is installed on outer side of loading container 2 made of non-ferromagnetic material. Diameter of hole 7 on the other vertex of the circular cone is less than a quarter of the wavelength. Magnetrons 6 of super-high-frequency generators are installed along perimeter of joint of bases of circular cones with shift by 120 degrees.

EFFECT: continuous operation mode of the installation with a biconical resonator, having high proper Q-factor, radio tightness and possibility to excite an electric field of high intensity.

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Description

The proposed invention relates to microwave equipment and can be used for heat treatment of non-food waste obtained during the processing of livestock, poultry, rabbits and other animals. Wastes from the processing of animals of all kinds include: inedible trimmings, offal, intestinal waste, udder, blood, etc.

Known open biconical resonators used to increase the radiation quality factor [1]. A characteristic feature of a biconical resonator is the presence in the resonant volume of regions with a pronounced exponential law of variation of the electromagnetic field. The presence of regions with such a field distribution makes it possible to remove a part of the surface without significant loss of Q-factor for some types of oscillations and thus to realize an open resonance system. Biconical resonators, in comparison with a cylindrical resonator, exclude the degeneration of parasitic oscillation modes, and this makes it possible to achieve high Q-factors. An appropriate choice of the angle at the apex of the cone can form an electromagnetic field, concentrated mainly in the central region of the resonator, and this contributes to a greater increase in the Q-factor of the resonator [1]. In order to increase the radiation quality factor, open resonators are used, the cross section of which decreases from the center to the edges. In the middle part of such resonators, there are waves, the propagation constants of which decrease when moving away from the center of the resonator.

We are developing a microwave installation for continuous operation, with a biconical resonator with a sufficiently high intrinsic Q-factor, radio-tightness and where it is possible to excite a high-intensity electric field.

The technical result is achieved by the fact that a microwave installation with a biconical resonator and a screw for cooking animal slaughter waste contains, inside a horizontally located biconical resonator, coaxially along its central axis, an installed screw conveyor in the form of a cylindrical dielectric body with a screw dielectric screw,

wherein the hole at one top of the circular cone and the end of the cylindrical dielectric body are attached to the lower base of the loading container so that the continuation of the screw dielectric auger is located in the loading container, and a gear motor for its drive is installed on the outside of the loading container made of non-ferromagnetic material.

moreover, the hole diameter at the other vertex of the circular cone is less than a quarter of the wavelength, and the magnetrons of the microwave generators are installed along the perimeter of the joint of the bases of the circular cones with a shift of 120 degrees.

FIG. 1 shows a spatial image of a microwave installation with a biconical resonator and a screw for cooking animal slaughter waste (in section):

1 - gear motor for driving the dielectric screw; 2 - loading container for shredded non-food waste of animal origin; 3 - screw auger made of dielectric material; 4 - cylindrical screw housing made of dielectric material; 5 - biconical resonator; 6 - magnetrons of a microwave generator; 7 - unloading hole at the top of the circular cone.

FIG. 2 shows a spatial image of a microwave installation with a biconical resonator and a screw for cooking animal slaughter waste (general view).

A superhigh-frequency installation with a biconical resonator and a screw for cooking animal slaughter waste contains (Figs. 1-2): a gear motor 1 for driving the screw; loading capacity 2 for shredded non-food waste of animal origin; screw 3 made of dielectric material with a spiral rib; cylindrical housing 4 screws made of dielectric material; biconical resonator 5; microwave generator magnetrons 6; discharge hole at the top of the circular cone 7.

The main units of the installation are a biconical resonator 5, microwave generators, a screw conveyor 3, 4 with a gear motor 1 and a loading capacity 2 (Figs. 1, 2). Inside the horizontally located biconical resonator 5, a screw conveyor 3,4 is installed coaxially along its central axis. It is made in the form of a cylindrical dielectric body 4 with a screw dielectric screw 3.

The hole at one top of the circular cone 5 and the end of the cylindrical dielectric body 4 are docked to the lower base of the charging container 2. The continuation of the screw dielectric auger 3 is located in the charging container 2, and is connected to the shaft of the gear motor 1. The gear motor 1 for driving the screw is installed with the outer side of the loading container 2. This container 2 is made of non-ferromagnetic material.

The hole diameter at the other top of the circular cone (biconical resonator 5) is less than a quarter of the wavelength, then the radiation is limited. Magnetrons of 6 ultra-high-frequency generators are installed along the perimeter of the joint of the bases of circular cones, with a shift of 120 degrees.

A high-intensity electric field is excited in the region of the tops of the circular cones in the biconical resonator. This means that under a double exposure to a high intensity of an electric field of an ultrahigh frequency, the destruction of bacterial microflora occurs, i.e. ensured sterility of the cooked protein feed for animals.

The continuity of the technological process is ensured by means of a screw screw 3, made of a dielectric material, for example, from a fluoroplastic and a cylindrical body, and the screw itself. The screw screw conveyor consists of a cylindrical dielectric body 4, inside which a dielectric screw 3 with a spiral rib rotates. At the tops of the cones with a common circular base, there are openings for feeding raw materials and unloading finished products in a continuous mode. If the diameter of these holes is less than a quarter of the wavelength, then the installation meets the requirements of radio-tightness, i.e. the maximum permissible level (MPL) of the radiation power flux does not exceed the standard value. The design parameters of the conical resonator are matched to the wavelength.

The technological process of thermal treatment of animal slaughter waste in a biconical resonator in a continuous mode is as follows.

Load the loading container with crushed non-food waste. Switch on the gear motor 1 to drive the screw conveyor 3,4. When the helical dielectric screw 3 rotates, spiral ribs push the raw material along the dielectric cylindrical body 4. Turn on microwave generators, emitters from magnetrons 6, directed inside the biconical resonator 5, excite an electromagnetic field in it. Moreover, the intensity of the microwave electric field in the biconical resonator increases from the center to the tops of the circular cones. Therefore, when moving the raw material using a screw screw 3 through the biconical resonator 5, the raw material is exposed to an electric field of immediately high intensity with a gradual decline to the central part of the resonator, then with an increase in the electric field strength to the discharge hole 7. Such a double effect of the electric field with a smooth change in intensity from minimum to maximum, ensures the destruction of pathogenic microorganisms and equalization of the temperature of the raw material in the volume of the turn-to-turn space of the screw auger during its movement and mixing. This ensures uniform dielectric heating and cooking of raw materials.

The principle of operation of the screw made of dielectric material is based on the use of a rotating screw, the spiral ribs of which move the raw material, located in the cavities between the cylindrical body and the screw of the screw. The rotation of the auger is transmitted from the reducer motor from the side of the loading tank 2. The use of such a screw auger is due to the physical properties of non-food waste of animal slaughter, and the possibility of maintenance of the electric drive. The auger is driven by a motor-reducer, which allows you to adjust the rotation frequency, to control the duration of the movement of raw materials through the biconical resonator. The productivity of the installation depends on the number of microwave generators and the dose (W /s / g) of exposure to an ultrahigh frequency electromagnetic field (EMUHF), i.e. the product of the specific power of the generator (W / g) and the duration of exposure (s).

The cylindrical screw body 4 is made of dielectric material and can be assembled from separate sections. The dimensions of the housing 4 (diameter and length) are matched to the dimensions of the biconical resonator, which in turn are matched to the wavelength.

The shape and design of the feeding screw auger largely depends on the physical and mechanical properties of the raw material. The screw auger is suitable for transporting raw materials over short distances. The screw, thanks to its spiral ribs, transports the raw material. When the dielectric screw auger rotates in the mass of raw materials, the force of internal friction, the force of external friction of the raw material against the walls of the cylindrical dielectric housing and the helical surface, gravitational and centrifugal forces created by the screw act.

Sources of information:

1. Drobakhin, OO Microwave engineering and semiconductor electronics: Textbook [Electronic edition] / O.O. Drobakhin, S.V. Plaksin, V.D. Ryabchiy, D.Yu. Saltykov. - Sevastopol: Weber, - 2013 .-- 322 p.

Claims (3)

An ultrahigh-frequency installation with a biconical resonator and a screw for cooking animal slaughter waste, characterized by the fact that a screw conveyor in the form of a cylindrical dielectric housing with a screw dielectric screw is installed inside a horizontally located biconical resonator coaxially along its central axis, in this case, the hole at one top of the circular cone and the end of the cylindrical dielectric body are docked to the lower base of the loading container so that the continuation of the screw dielectric auger is located in the loading container, and the gear motor for its drive is installed on the outside of the loading container made of non-ferromagnetic material, moreover, the hole diameter at the other vertex of the circular cone is less than a quarter of the wavelength, and the magnetrons of the microwave generators are installed along the perimeter of the joint of the bases of the circular cones with a shift of 120 degrees.

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