WO2014079167A1

WO2014079167A1 - Apparatus for food waste oxygenation, deodorization, inactivation, salt-reduction by rinsing

Info

Publication number: WO2014079167A1
Application number: PCT/CN2013/071210
Authority: WO
Inventors: 许文姬; 李国声; 李汉声; 李振声
Original assignee: 华南再生资源（中山）有限公司
Priority date: 2012-11-23
Filing date: 2013-01-31
Publication date: 2014-05-30
Also published as: CN103074131B; CN103060100B; WO2014079169A1; WO2014079165A1; CN103084049A; WO2014079171A1; HK1180641A1; CN103084049B; CN103072726A; HK1180640A1; WO2014079166A1; CN103071666B; CN203128526U; WO2014079168A1; KR20150105299A; CN103115477B; HK1180761A1; CN103060100A; HK1180657A1; WO2014079173A1

Abstract

An apparatus for food waste oxygenation, deodorization, inactivation, and salt-reduction by rinsing. The apparatus comprises one or more reactors (1) and an ozone-water-material-mixing gas-water-substance mixer (9). An ozone generator (20) is connected onto the mixer. A high viscosity lobe rotor pump (10) is also connected onto the mixer. An outlet of the mixer (9) is extended into one reactor (1). An inlet of the high viscosity lobe rotor pump (10) is connected to another reactor (1). One or more granular activated carbon reaction balls (8) are provided within the reactors (1). Granular activated carbon is provided within the granular activated carbon reaction balls (8). Material outlets (15 and 15A) are arranged at the bottom part of the mixer (9). Ozone is employed to oxygenate, deodorize, and desalt food waste to prevent same from emitting unpleasant odors and from polluting air, while at the same time, to allow for inactivation of microorganisms in the food waste such as bacteria and viruses, to prevent same from spreading, and, especially when biochemical treatment of the food waste is required in the subsequent work step, to prevent the treatment process from being interfered by the bacteria.

Description

Oven oxidation, deodorization, inactivation, cleaning and salt reduction device

Technical field

The invention discloses a kitchen waste disposal device, and more particularly relates to a kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device.

Background technique

The science and technology of waste resource utilization, after a long period of application, has proved that if the waste recycling technology is applied in a single application, the consequences will bring greater crisis to the human living environment, especially The serious problem of secondary pollution is difficult to control, so the comprehensive treatment of waste has become the current development trend. The composition of kitchen waste is extremely complicated, including sewage, plastic bags, plastic bottles, waste cloth strips, spoilage organic matter, paper, metal bottles, broken glass, broken ceramic sheets, animal fats, vegetable oils, primary bacteria and other substances. . At present, the kitchen waste resource treatment technology has presented a “hundred flowers” situation in the domestic and foreign methods and processes, but basically it is a simple single item treatment, and there is no international environmental treatment that shifts from simple treatment to comprehensive treatment, utilization and disposal. The trend and direction may cause the inevitable attachments in the kitchen waste to be transferred and randomly filled, causing water and soil pollution, or transfer, not only blocking the city's sewer pipes, but also emitting a foul smell and causing serious secondary pollution. The single treatment process of kitchen waste is feasible from the perspective of resource utilization value. However, considering the comprehensive protection of the global environment, people's livability and protection of the atmospheric environment, it may still do more harm than good. In the prior art, the treatment of the kitchen waste is mainly to obtain the available materials by biochemical means to make the feed, but in the kitchen waste, it is inevitable to carry bacteria, viruses and salt, etc., with the kitchen waste in the kitchen During the treatment, if the original bacteria, virus and salt are treated incorrectly and effectively, the bacteria will seriously affect the biochemical treatment, and the yield will be low, and the salt will be too high. The quality of the commercial feed produced decreased.

Summary of the invention

In view of the above-mentioned prior art kitchen waste in the process of treatment, it is easy to spread bacteria and viruses, and because of decay and deterioration, it emits an unpleasant smell and pollutes the air, especially in the biochemical treatment of kitchen waste. The invention has the disadvantage that the protobacteria can obviously interfere with the propagation of the added strain. The invention provides a device for oxidizing, deodorizing, inactivating, cleaning and reducing salt of the kitchen waste, which has been specially designed to utilize the ozone to treat the kitchen waste. Oxidation, deodorization, inactivation of microorganisms such as bacteria and viruses.

The technical solution adopted by the invention to solve the technical problem is: a kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device, the device comprises more than one reactor and a gas for mixing ozone-water-material , water, material mixer, the mixer is connected with a waterproof check valve, one end of the waterproof check valve is connected to the gas pipe, and then connected to the ozone generating device, the mixer is also connected with a high viscosity cam rotor pump outlet, the mixer The outlet extends into a reactor, the inlet of the high viscosity cam rotor pump is connected to another reactor, and more than one granular activated carbon reaction sphere is arranged in the reactor, and the granular activated carbon reaction sphere is provided with granular activated carbon, the reactor There is a material outlet at the bottom.

The technical solution adopted by the present invention to solve the technical problem thereof further includes:

The total volume of the particulate activated carbon accounts for 15% to 98% of the volume of the granular activated carbon reaction sphere.

The top of the reactor is provided with an automatic exhaust valve, and an ozone destroyer is connected to the automatic exhaust valve.

The bottom of the reactor is provided with a semi-circular head, and the material outlet is arranged on the semi-circular head.

In the reactor, the front end of the reactor is provided with a beveled ribbon conveyor, and the reactor at the rear end is provided with a water level height regulating pipe.

A solid and liquid separator is connected to the material outlet.

The solid-liquid separator comprises a casing and a slanted mesh barrel, wherein the inclined mesh barrel is disposed in the outer casing, and the inclined mesh barrel is rotated by the motor in cooperation with the transmission, and the front end of the inclined mesh barrel is provided with more than one row. The mesh hole and the inclined mesh barrel are provided with a spiral ribbon connected to the inner wall of the mesh barrel, and a water receiver is arranged at the bottom of the shell.

The spiral ribbon occupies the entire length of the inclined mesh barrel.

The outer casing is provided with a window.

The side of the reactor is equipped with a manhole.

The invention has the beneficial effects that the ozone and water body can be used for oxidizing, deodorizing and desalting the kitchen waste, and at the same time, the bacteria, viruses and the like in the kitchen waste can be inactivated to ensure the kitchen waste in the kitchen. No biochemical interference is involved in the biochemical treatment process.

The invention will be further described with reference to the drawings and specific embodiments.

DRAWINGS

1 is a schematic view showing the structure of a wet advanced oxidation, deodorization, sterilization, cleaning and salt reducing device of the present invention.

2 is a schematic view showing the structure of a solid and liquid separator in the present invention.

In the figure, 1-reactor, 2-semicircular head, 3-slope spiral belt conveyor, 4-flat top head, 5-automatic exhaust valve, 6-ozone destroyer, 7-line liquid level automatic control monitoring , 8-particle activated carbon reaction ball, 9-mixer, 10-high viscosity cam rotor pump, 11-waterproof check valve, 12-motor, 13-wet advanced oxidation deodorization, sterilization, cleaning and salt reduction device, 14-manhole, 15, 15A-discharge port, 16-water level height control pipe, 17-gas, water, material mixture conveying pipe, 18-gas discharge pipe section, 19-ozone input pipe section, 20-ozone generator, 21-Pneumatic Ball Valve, 22-High Viscosity Cam Rotor Pump Outlet, 23-Solid-Liquid Separator Housing, 24-Window, 25-mesh barrel, 26-spiral belt outlet, 27-water.

detailed description

This embodiment is a preferred embodiment of the present invention, and other principles and basic structures are the same as or similar to those of the present embodiment, and are all within the scope of the present invention.

The invention mainly utilizes ozone gas to sterilize and clean kitchen waste in a water body, the device is divided into more than one reactor 1, and each reactor 1 is connected to each other through a pump and a pipe and circulated to each reactor. 1. The number of specific reactors 1 can be set according to actual needs.

The invention will now be specifically described in the context of a specific reactor 1 configuration. Referring to Figure 1, the reactor 1 has a cylindrical shape and is a stainless steel cavity structure. The lower part of the reactor 1 is a semicircular head 2, and the top of the reactor 1 is a semicircular or flat top head 4, and the top of the reactor 1 is sealed. An automatic exhaust valve 5 is mounted on the head 4, and an ozone destroyer 6 is connected to the automatic exhaust valve 5. The gas in the reactor 1 can be eliminated into the ozone destroyer 6 through the automatic exhaust valve 5, and passed through the ozone destroyer 6 The residual ozone in the gas is removed and then discharged through the gas discharge pipe section 18. In this embodiment, a beveled ribbon conveyor 3 is connected to the inlet of the reactor 1, and the sorted kitchen waste is sent from the beveled screw conveyor 3 to the wet advanced oxidation, deodorization, sterilization, and cleaning. In the salt device 13, the beveled ribbon conveyor 3 has a tubular shape, and a conveying screw is provided inside, and the material is fed into the reactor 1 by the rotation of the conveying screw. More than one granular activated carbon reaction sphere 8 is fixedly mounted on the inner periphery of the inner chamber of the reactor 1, and its position is placed in the upper middle portion of the inner chamber of the reactor 1, and the granular activated carbon reaction sphere 8 is a stainless steel mesh outer shell, and the particle activity is The carbon is encapsulated inside the stainless steel mesh casing. In this embodiment, the total volume of the granular activated carbon accounts for 15% to 98% of the volume of the spherical activated carbon reaction sphere 8 sphere, and the combined application of the granular activated carbon reaction sphere and ozone It can accelerate the conversion of ozone into hydroxyl radicals in the liquid state, and achieve the artificial forced inactivation and deodorization speed of bacteria in the water. In this embodiment, the top of the inner chamber of the reactor 1 is also equipped with an on-line liquid level automatic control monitor 7 for monitoring the liquid level in the reactor 1, and the online liquid level automatic control monitor 7 can be realized by a liquid sensor, and The liquid level is adjusted by the water level of the other reactor 1 to control the supply and discharge of the pipe 16.

In this embodiment, a gas, water, and material mixer 9 for ozone-water-mixing of materials is also installed on the outer casing of the reactor 1. The mixer 9 is a three-way connection, one end of which is connected to the inner cavity of the reactor 1 through a communication pipe 17, and the other end is connected to the outlet 22 of the high-viscosity cam rotor pump 12, and the center end of the mixer 9 is connected with an air inlet. The air inlet is connected to the waterproof check valve 11, and the gas supplied from the ozone generator 20 enters through the air pipe 19 and passes through the waterproof check valve 11 to enter the mixer 9 to be strongly mixed with water and materials, thereby making the water- The kitchen waste-ozone mixture is transported to the other reactor 1 through a high viscosity cam rotor pump 10 disposed in a circulation conduit at the lower portion of the reactor 1 to form a cycle between the two reactors. , control the mixing of the material for continuous oxidation time.

The above structure is the front structure of the present invention, and the present invention further includes a rear structure. The latter part of the advanced oxidation deodorization, sterilization and salt reduction device is a solid and liquid separator. Please refer to FIG. 2 together with the present embodiment. In the example, the separator is composed of a slanted mesh barrel 24, and the front end of the separator is connected to the discharge port 15A of the semicircular head 2 at the bottom of the reactor 1. The barrel body 24 is provided with a plurality of rows of mesh holes, in this embodiment. The mesh has a diameter of 3-8 mm, and the outer casing 22 is provided outside the barrel 24, and the window 23 is mounted on the side of the outer casing 22 for viewing the inside of the barrel 24. The bottom of the outer casing 22 is provided with a water receiver 25 for receiving water leaking from the mesh barrel 24. The entire length of the inclined barrel 24 is provided with a flow guiding screw leading to the discharge opening 26, that is, in an inclined mesh shape. The full length of the barrel body 24 is provided with a spiral ribbon, and the material is led by the spiral belt. The rotational power of the inclined mesh barrel 24 is driven by the AC motor and the transmission, which is not shown in the drawing.

When the invention is used, the water and kitchen waste mixture is put into the reactor 1 through the inclined conveyor 3, and the ratio of the kitchen waste mixture to the water volume is 5:7, which is fluid, and the high viscosity cam rotor is utilized. The pump 10 is continuously circulated between the inside and the outside of each reaction vessel, and ozone gas is added to the water-gas mixer 9, and is forcibly mixed with the water-food waste material, and the ozone concentration in the mixture is 10 g/ T——15g/T, the mixture material is used as the advanced oxidation reaction in the reaction time inside and outside the reaction tank. The whole time is 5min-15min, due to the reduction of ozone in the water at any time, and the assistance of the activated carbon reaction ball. Initiating a chain reaction under the reaction, accelerating the conversion of ozone into hydroxyl radicals, similar to the advanced oxidation process of O ₃ /H ₂ O ₂ or O ₃ /UV, producing monoatomic oxygen and hydroxyl OH with strong oxidation, The pathogenic bacteria in the garbage are artificially forcibly inactivated and deodorized and the sodium chloride substance is removed. When the kitchen waste is completed by the artificial inactivation and deodorization of the bacteria, the lower valve of the reaction vessel outlet 15A is opened, and the high-viscosity cam rotor pump is used to input the solid and liquid separator for dehydration.

By using the invention, ozone can be used to oxidize, deodorize and desalinate kitchen waste, prevent it from emitting unpleasant odor and pollute the air, and at the same time, inactivate bacteria and viruses in the kitchen waste to prevent its spread. In particular, if the kitchen waste needs to be biochemically treated in the next stage, the treatment process is protected from the interference of bacteria.

Claims

A kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device, characterized in that: the device comprises more than one reactor (1) and gas and water for mixing ozone-water-materials , the material mixer (9), the mixer (9) is connected with a waterproof check valve (11), one end of the waterproof check valve (11) is connected to the gas pipe (19), and then connected to the ozone generating device (20), The mixer (9) is also connected to a high viscosity cam rotor pump outlet (22), the outlet of the mixer (9) extends into a reactor (1), and the inlet of the high viscosity cam rotor pump (10) reacts with the other The device (1) is connected, and more than one granular activated carbon reaction sphere (8) is arranged in the reactor (1), granular activated carbon is arranged in the granular activated carbon reaction sphere (8), and the material is arranged at the bottom of the reactor (1). Exit (15), (15A).
The apparatus for oxidizing, deodorizing, inactivating, cleaning and reducing salt in a kitchen waste according to claim 1, wherein the total volume of the granular activated carbon accounts for the volume of the intravitreral cavity of the granular activated carbon reaction sphere (8). 15% - 98%.
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 1, wherein the top of the reactor (1) is provided with an automatic exhaust valve (5), an automatic exhaust valve (5) An ozone destructor (6) is connected to it.
The apparatus for oxidizing, deodorizing, inactivating, cleaning and reducing salt of a kitchen waste according to claim 1 or 2 or 3, characterized in that: the bottom of the reactor (1) is provided with a semicircular head (2), material The outlets (15) and (15A) are placed on the semicircular head (2).
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 1 or 2 or 3, characterized in that: the reactor (1) at the front end of the reactor (1) is provided There is a beveled ribbon conveyor (3), and a water level height adjustment pipe (16) is provided on the reactor (1) at the rear end.
The apparatus for oxidizing, deodorizing, inactivating, and cleaning a salt reduction of a kitchen waste according to claim 1 or 2 or 3, wherein a solid-liquid separator is connected to the material outlet (15A).
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 6, wherein the solid and liquid separator comprises a casing (22) and a slanted mesh barrel (24). The inclined mesh barrel (24) is disposed in the outer casing (22), and the inclined mesh barrel (24) is rotated by the motor in cooperation with the transmission, and the front end of the inclined mesh barrel (24) is provided with more than one row of meshes, and the inclined net The spiral barrel (24) is provided with a spiral ribbon connected to the inner wall of the mesh barrel, and the bottom of the outer casing (22) is provided with a water receiver (25).
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 7, wherein the spiral ribbon occupies the entire length of the inclined mesh barrel (24).
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 7, wherein the outer casing (22) is provided with a window (23).
The kitchen waste oxidation, deodorization, inactivation, cleaning and salt reduction device according to claim 1 or 2 or 3, wherein the reactor (1) is provided with a manhole (14) on its side.