RU193511U1 - COMPOSTING INSTALLATION HOUSING WITH THE POSSIBILITY OF MONITORING AND MAINTENANCE OF OPERATION MODES - Google Patents

Abstract

The utility model relates to agriculture and can be used to increase the efficiency of composting plants due to the automated control and management of heat and mass transfer processes in the processing of organic waste, including sewage sludge to produce fertilizers. The case of the composting plant with the ability to control and maintain modes work, comprising a sealed cylindrical housing communicated by means of an air duct with a blower and provided with a liquid jacket heating, a double bottom with a controlled source of a magnetic field and a discharge window with a sealed cover, the upper horizontal raised bottom made of porous metal with magnetic shape memory and open pores, and a horizontal discharge auger with a drive mechanism, a conical cover installed above the raised bottom communicated by its central part with a source material supply device, which is connected to a component mixing device, the upper part of the housing contains an electronic input, processing, output device and storage of information, a meter and regulator of humidity and temperature, a meter and regulator of air flow rate and a gas analyzer that is connected to a sensor unit mounted on the inside of the lid and equipped with sensors of oxygen, carbon dioxide, ammonia, hydrogen sulfide and methane, and a meter and regulator of temperature with a sensor for measuring temperature and has the function of stabilizing the set temperature in the heating jacket in the range from 10 to 90 ° C, the blower has an electric drive with a frequency converter and with It is used by an air flow velocity sensor connected to a meter-regulator of air flow velocity and with a controlled source of magnetic field connected to it. Using the proposed utility model as a composting plant housing with the ability to control and maintain the operating modes of an organic waste composting plant will increase the efficiency of aeration and control and maintaining operating modes, which will reduce the composting time and improve the quality of the finished organic fertilizer niya (compost).

Description

The utility model relates to agriculture and can be used to process organic waste with fertilizer.

A device is known for implementing a method for preparing compost for multipurpose purposes (Pat. For Invention RU No. 2112764 C1, C05F 3/00, 06/10/1998), comprising a fermenter equipped with pressure and exhaust fans, a pressure duct system, a control panel with a purge timer and openings for measuring temperature and oxygen content in the mixture.

Also known is an aeration bioreactor device (Pat. For Invention RU No. 2310631 C2, C05F 3/06, 09/09/2004) comprising a housing communicated by means of an air duct with a blower, a device for supplying source material, a horizontal discharge screw, probes for measuring temperature and control air mixture, oxygen generator.

The disadvantages of these devices are the cyclical nature of the work, the poor quality of compost due to the loss of nutrients and environmental pollution by harmful gases.

Closest to the claimed device is the installation of composting (US Pat. For Utility Model RU No. 186661 U1, C05F 3/00, C05F 7/00, 04/28/2018 - prototype), comprising a heating jacket, a double bottom with a controlled magnetic field source and an upper horizontal a false bottom made of porous metal with magnetic shape memory and open pores.

The disadvantages of this device are:

low aeration efficiency due to lack of regulation of air supply;

poor composting conditions due to the lack of control and maintenance of process parameters.

The purpose of the utility model is to increase the efficiency of composting plants through automated monitoring and control of heat and mass transfer processes.

This goal is achieved in that the composting installation body with the ability to control and maintain operating modes contains a heating jacket, a controlled magnetic field source, according to a utility model, has an electronic device for input, processing, output and storage of information, a gas analyzer with a block of oxygen sensors, carbon dioxide, ammonia , hydrogen sulfide, methane, air flow meter-regulator with an air flow rate sensor and connected to a blower and a controlled source of magnetic field, Temperature sensor with a temperature-controller and zmeritel function stabilization predetermined temperature in the heating jacket in the range of 10 to 90 ° C.

The essence of the utility model is illustrated in FIG. 1 is a general view of the device.

The case of the composting installation with the ability to control and maintain operating modes, Fig. 1, containing a sealed cylindrical body 1, connected by means of an air duct 2 with a blower 3 and equipped with a liquid heating jacket 4, a double bottom 5 with a controlled magnetic field source 6 and a discharge window 7 s sealed cover 8, and the upper horizontal raised bottom 9 is made of porous metal with a magnetic shape memory and open pores, and above the raised bottom there is a horizontal discharge screw 10 with drive fur by anism 11, a conical cover 12, communicated by its central part with a device for supplying source material 13 and which is connected to a device for mixing components 14, the upper part of the housing contains an electronic device for input, processing, output and storage of information 15, connected by communication channels to the meter-controller humidity and temperature 16, a meter-regulator of air flow rate 17 and a gas analyzer 18, which is connected to the sensor block 19 for monitoring the air mixture, equipped with oxygen sensors, carbon dioxide gas, ammonia, hydrogen sulphide and methane. A temperature meter is connected to a sensor for measuring temperature 20. The blower has an electric drive 21 with a frequency converter, is equipped with an air velocity sensor 22 connected to a meter and controller for air flow 17, with a controlled magnetic source 6 connected to it.

The composting unit body with the ability to control and maintain operating modes operates as follows. The components of the compost mixture are loaded into the component mixing device 14, mixed while moving into the device for feeding the starting material 13, and then through the central part of the conical cover 12 the composted material enters the housing 1. Air is continuously supplied by the blower 3 through the air duct 2 into the space formed by the double bottom 5 with an upper horizontal raised bottom 9, which is made of porous metal with a magnetic shape memory and open pores. Then, passing through the pores of the false bottom 9, air aerates the composted material, passing through which from the bottom up it goes to the side of rarefaction of the blower 3. The air flow rate is measured by a sensor 22 installed on the duct 2 and connected to the meter-controller of the air flow rate 17 with data transmission to an electronic device for inputting, processing, outputting and storing information 15. During the passage of aerating air through the material, oxygen dissolves in the liquid phase on the surface of the solid and provides the krobiological decomposition of organic matter, and carbon dioxide, water, ammonia, hydrogen sulfide and, in the case of oxygen deficiency, methane released during composting are displaced from the pore space, trapped by the air stream and fed to the rarefaction side of the blower 3, passing through the sensor unit for control the air mixture 19, equipped with sensors of oxygen, carbon dioxide, ammonia, hydrogen sulfide, methane and connected to a gas analyzer 18 for continuous measurement of gas concentration and data transmission to communication channel to an electronic device for inputting, processing, outputting and storing information p 15. The temperature of the composted material, as well as temperature and air humidity, are continuously measured by a temperature measuring sensor 20, which is connected to a humidity and temperature meter 16, with data transmission to the electronic device input, processing, output and storage of information 15. Depending on the gas composition, humidity and temperature of the air-gas mixture, as well as the temperature of the composted material, the volume is regulated m pumping the air-gas mixture by controlling the frequency converter of the electric drive 21 of the blower 3 and controlling the source of the magnetic field 6, as follows. The indicated process parameters are analyzed by an electronic device for inputting, processing, outputting and storing information 15 with transmission of a control signal to a meter-regulator of air flow rate 17, which generates a control action on actuators: frequency converter of electric drive 21 of blower 3, source of controlled magnetic field 6. The control of the frequency converter of the electric drive 21 of the blower 3 allows you to set the necessary air pressure and volume erekachivaemoy air-gas mixture. In turn, under the influence of the controlled magnetic field of the source 6, the raised bottom 9 of the installation case 1 made of porous metal increases the transverse dimensions, while the cross section of the open pore channels for air passage also increases, and as a result, the aeration of the composted material increases. After removing the magnetic field, the porous metal of the false bottom 9 retains its shape and provides aeration of the composted material in a fixed volume. With a controlled change in the direction of action of the magnetic field of the source 6, the raised bottom 9 takes its initial transverse dimensions, which reduces the throughput of the porous metal and, as a result, reduces the aeration of the composted material in the installation.

The composted material continuously passes through the installation for 7-14 days at a self-heating temperature of 65 ° C sufficient for disinfection and active microbial decomposition of organic matter and is discharged from the installation with the screw 10 through the discharge window 7 with a sealed cover 8.

Using an electronic device for inputting, processing, outputting and storing information 15, connected by communication channels to a meter-regulator of air flow rate 17, a meter-regulator of humidity and temperature 16 and a gas analyzer 18, information on the main characteristics of the technological process is continuously collected and stored. The installation operates in continuous mode. In the liquid heating jacket 4 with the function of stabilizing a predetermined temperature, a temperature is set in the range from 10 to 90 ° C. depending on the process stage.

Using the proposed utility model as a composting plant body with the ability to control and maintain the operating modes of the organic waste composting plant will increase the efficiency of aeration, control and maintenance of the operating modes, which will reduce the composting time and improve the quality of the finished organic fertilizer (compost).

Claims (1)

The composting unit body with the ability to control and maintain operating modes, comprising a sealed cylindrical body communicated by means of an air duct with a blower and equipped with a liquid heating jacket, a double bottom with a controlled magnetic field source and an unloading window with a sealed cover, the upper horizontal raised bottom made of porous metal with a magnetic shape memory and open pores, and above the raised bottom there is a horizontal discharge screw with a drive mechanism, conically a lid communicated by its central part with a device for supplying source material, which is connected to a device for mixing components, characterized in that the upper part of the housing contains an electronic device for inputting, processing, outputting and storing information, a humidity and temperature meter, a speed meter air flow and a gas analyzer that is connected to a sensor unit mounted on the inside of the cover and equipped with sensors for oxygen, carbon dioxide, ammonia, hydrogen sulfide and tana, a temperature meter-controller is connected to a sensor for measuring temperature and has the function of stabilizing the set temperature in the heating jacket in the range from 10 to 90 ° C, the blower has an electric drive with a frequency converter and is equipped with an air flow rate sensor connected to a meter-controller of the flow rate air, with a controlled source of magnetic field connected to it.

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