UA12166U - A mechanism for the treatment of organic waste - Google Patents

Abstract

A mechanism for the treatment of organic waste contains horizontal body divided by partitions into three serially connected sections, the body contains units for loading the raw stock, unloading the sludge and gas withdrawal, and also it is equipped with heaters and shafts with blades. Every section is equipped with unit for the gas withdrawal, units for unloading raw stock and unloading the sludge are made in the form of siphons. Axles of said shafts are disposed at right angle to the longitudinal body axis, and blades are made in the form of plates every of which is disposed radially relative to the axis of respective shaft.

Description

Description of the invention

A useful model related to devices for anaerobic fermentation of organic waste is claimed, 2 in particular, intended for the production of biogas from agricultural waste, especially for the fermentation of livestock farm manure.

Known installation for obtaining biogas | Patent of Ukraine Mo50357А, СО2Е11/04, prior. 27.12.2001, publ. 15.10.2002, Bull. Mo10), containing a reactor tank with a device for mixing biomass, equipped with devices for supplying biomass, removing fermented biomass and removing biogas, a heat exchanger.

The disadvantages of the installation are the low location of the loading hole, almost in the middle of the tank, which does not allow the installation to work with a small amount of biomass, because all the gas released will go outside. The double stirring mechanism breaks up the colonies of microorganisms formed during the fermentation process and lifts the spent mass from the bottom of the tank, which slows down the biogas production process. In addition, biogas is obtained with admixtures of carbon dioxide, which is a side effect.

The closest to the declared one is a methane tank (Ass. USSR 1353753, СО2Е11/04, prior. 12.03.86, publ. 23.11.87, bull.Mo43), which contains a horizontal body divided by partitions into serially connected sections, heaters, mechanical mixer, pipelines for gas discharge, loading and unloading of biomass.

When unloading sludge, unprocessed biomass is also obtained, which leads to incomplete processing of biomass, as a result of which the output of biogas decreases, and the obtained biogas is contaminated with carbon dioxide impurities. In the process of unloading sludge, a large amount of heat from the heated mass is also lost, which makes the installation very energy-intensive.

The useful model is based on the task of improving the device for the treatment of organic waste, in which, by modifying the design of the body, loading unit, sludge unloading unit, shafts with blades, pipelines for gas removal and the heater of the last section, a reduction in energy consumption, obtaining purified biogas and continuity of work is ensured installation in

The task is solved by the fact that the device for processing organic waste, which has a horizontal body divided by partitions into at least three sequentially connected sections, which contains nodes for loading raw materials, discharging sludge and removing gas, as well as equipped with heaters and shafts installed in bearings with with blades, according to a useful model, each of them is equipped with a node for gas removal, the node for loading raw materials and unloading sludge is made in the form of siphons, the axes "o of the mentioned shafts are located perpendicular to the longitudinal axis of the body, and the blades are made in the form of plates that are located radially relative to axis of the corresponding shaft. In addition, the bottom of each section is made with a slope to - the horizon, and the gas outlet of each section is equipped with a vertical coil with a non-return valve. The heater of the last section is made in the form of a water economizer for heating the raw materials of the first 3o section. --

The causal relationship is as follows.

The design of the installation's loading unit and sludge discharge unit in the form of siphons ensures slow and gradual loading of the hull sections, which stimulates the rapid reproduction of bacteria that emit "biogas." Continuity of operation of the device without gas loss is ensured and fluctuations of Z 70 raw materials are smoothed out during loading and unloading of the device. c The use of shafts with blades, the shaft axes of which are located perpendicular to the direction of movement of the raw material being processed, and the blades are made in the form of plates, allows you to achieve effective gas release due to the fact that it creates the possibility of preserving bacterial colonies and obtaining stable conditions for the gas formation process .

Making the bottom of each section with a slope to the horizon ensures continuous operation of the installation due to the fact that the biomass moves by its own current towards the unloading unit. The pipelines for the gas discharge of each section are equipped with a vertical coil with a non-return valve, which ensures the separation of biogas from the water condensate and obtaining biogas without impurities. - The execution of the heater of the third section in the form of an economizer allows to transfer the heat of fermented raw materials

Gee! 20 of the third section to the heater of the first section, which provides a reduction in energy consumption.

The essence of the useful model is explained by the drawings, where: Fig. 1 is a schematic representation of the general view of the device in section;

Fig. 2 - a top view of the device.

The device for processing organic waste contains a horizontal body 1, equipped with a node 2 22 of loading raw materials and a node Z of discharging sludge in the form of siphons (Fig. 1). The body 1 is divided with vertical partitions 4-5 with pockets 6-7 into three sections 8-10 (Fig. 2), which are equipped with nodes 11-13 for gas removal with vertical coils 14-16 and non-return valves 17-19 (Fig. 1). Heaters 20-22 are placed along the perimeter of each section, which are connected by pipelines 23-25 to the AOGV installation 26. In sections 6 and 7, perpendicular to the longitudinal axis of the housing 1, shafts 27-28 with blades 29-30 are installed (Fig. 2) . The bottom 31 of each 60 section is made with a slope to the horizon.

The device works as follows.

When starting the device, raw materials to be fermented are loaded through node 2 into section b of housing 1. The AOGV installation 26 is included. The water heated in the AOGV installation 26 flows through the pipeline 23 into the heater 20 of section 6. At the beginning of the cycle, the raw materials in section 6 are heated to a temperature of 20-3592C by the heater 20 and are loosened by the blades 29 installed on the shaft 27. Fermentation of raw materials takes place, reproduction of methane bacteria and intensive release of CO 5, which leaves the section through the gas outlet node 11 and the vertical coil 14 through the non-return valve 17 into the gas holder (not shown). Next, the heated and bacteria-enriched raw material flows into section 7 by self-flow.

In section 7, the main process of biogas extraction takes place. The raw material is heated to a temperature of 54-56: by the heater 21, hot water enters through the pipeline 24 from the AOGV installation 26. The loosening process is carried out with blades 30. The released biogas leaves the section 7 through the gas outlet node 12 in the vertical coil 15, where water impurities are condensed further into the gas holder (not shown). The produced raw material from section 7 flows into section 8. 70 In section 8, the final process of biogas selection takes place through the gas outlet unit 13, the vertical coil 16 into the non-return valve 19 and further into the gas holder (not shown). Spent sludge is self-flowing through node C of sludge discharge when a fresh portion of raw materials is added to loading node 2.

The temperature of the sludge produced in section 8 is the same as in section 7. The heat of the raw material in section 8 heats the water in the heater 22, which, according to the principle of the heat pump, is sent through the pipeline 25 to the heater 75 20 to heat the raw material coming from loading node 2 in section 6.

At full start-up of the device, when all sections are operating, the heater 20 of section b operates only due to the heat given off by the slurry of section 8.

The device works in continuous cyclic mode with periodic loading of raw materials.

Claims (4)

The formula of the invention 1. A device for the treatment of organic waste, containing a horizontal body divided by partitions into at least three consecutively connected sections, which contains nodes for loading raw materials, discharging sludge and removing gas, as well as equipped with heaters and shafts with blades, which is distinguished by the fact that each section is equipped with a node for gas removal, nodes for loading raw materials and unloading sludge are made in the form of siphons, the axes of the mentioned shafts are located perpendicular to the longitudinal axis of the body, and the blades are made in the form of plates, each of which is located radially relative to the axis of the corresponding shaft. 2. The device according to claim 1, which differs in that the bottom of each section is made with a slope to the horizon. "about zo Z. The device according to claim 1 or 2, which differs in that the node for the removal of gas of each chamber is equipped with a vertical coil with a non-return valve. co 4. The device according to any of claims 1-3, which differs in that the heater of the last section is made in the form of a water economizer for heating the raw materials of the first section. with - and? - ime) - (o) 4) 60 b5