RU136435U1 - INSTALLATION OF PREPARATION OF RAW MATERIALS FOR ANAEROBIC PROCESSING OF ORGANIC WASTE - Google Patents

Abstract

1. Installation for the preparation of raw materials for anaerobic processing of organic waste, including means for the dosed supply of raw materials and liquids, heating, radiation treatment and dosed supply of the substrate to the bioreactor, characterized in that it is equipped with a sealed container that is equipped with a vacuum pump, and the means for processing the mixture with radiation are made in the form of an ultrasonic hydrodynamic emitter, the camera of which is connected to the tank with the formation of a closed loop. 2. Installation according to claim 1, characterized in that the chamber of the ultrasonic hydrodynamic emitter is equipped with a means for supplying oxygen-free gas. Installation according to claim 2, characterized in that the gas supply means is connected to the bioreactor. 4. Installation according to claim 1, characterized in that the fluid supply means is connected to a bioreactor drain system.

Description

The utility model relates to the field of agriculture and bioenergy and can be used in the preparation of raw materials for anaerobic processing of various types of organic waste into environmentally friendly and useful substances in the form of fertilizer and biogas for the purpose of utilizing biological waste and local stabilization of the environmental situation in places of their accumulation (manure , bird droppings, agricultural and agro-industrial waste, household food waste, etc.).

The promising development of biotechnology for the disposal of organic waste includes the intensification of bioprocesses both by increasing the potential of biological agents and by improving equipment. An important stage in the biotechnological production of useful products from organic waste is the careful preparation of the feedstock in order to create a nutrient medium for the cultivation of microorganisms and to obtain a high-quality mixture introduced into the main apparatus - the bioreactor (fermenter).

Under ideal conditions, anaerobic processing of biomass not properly prepared lasts much longer (2-3 times), and biogas yield is 50-200% less than when processing the same amount of carefully prepared biomass.

Improving the quality of the substrate allows you to increase the efficiency of using a bioreactor - the most expensive element of the biogas complex.

Traditionally, in the preparation of raw materials for anaerobic processing of organic waste, devices for mechanical grinding and mixing of raw materials with the addition of, if necessary, liquid and / or other components with or without heating are used.

The preparation of raw materials without grinding (utility model RU 88665, 11/20/2009) does not ensure uniform particle size distribution of the feedstock entering the bioreactor, which slows down the biofermentation process.

This drawback is eliminated in the block for the preparation of raw materials of the technological line according to the patent for utility model RU 125995, 03/20/2013, containing a storage hopper and shredder, which provides for the possibility of supplying large feedstock to the shredder, returning shredded raw materials to the hopper-feeder and feeding shredded raw materials from the hopper-feeder to the loading conveyor-mixer. Such preparation of raw materials requires a large amount of equipment and also does not provide optimal substrate quality.

Mechanical grinding rotary grinders are widely used as grinding and mixing means of biomass, for example, blade devices with a drive shaft and blades installed in a tank connected by a perforated partition with a chamber of acid fermentation of the reactor (RU 2084515, July 20, 1997).

To increase the efficiency of the digestion process in the raw material preparation system according to the patent RU 2370457, 10.20.2009 additionally, means are provided for supplying into the container with a grinder a liquid obtained from wet organic fertilizer after draining from an anaerobic bioreactor.

There is also known a plant for processing organic waste to produce fertilizers, in which the means of mixing, grinding and homogenization are made in the form of an electro-hydraulic chamber, in the housing of which a number of paired electrodes are placed (RU 2135437, 08.27.1999), the biogas plant according to the patent RU 2102468, 01.20.1998 ., in which for the preparation of raw materials use a destructor located between the litter collector and the bioreactor, as well as plants for implementing methods for producing organic fertilizer by dispersing the mixture according to patents RU 2258686, 08.20.2005 and RU 2 207328, 06/27/2003, in the first of which a rotary hydropercussion apparatus is provided for hydropercussion on the mixture during its circulation in a closed circuit, and in the second, an ultrasonic oscillation generator for ultrasonic impact on the mixture during aerobic treatment.

Known plants for the preparation of raw materials using mechanical grinders and destructors that eliminate large and extended fragments that prevent the pumping of the mixture into the bioreactor, as well as the methods implemented on them, are ineffective and do not provide a high-quality substrate, thereby complicating the design of bioreactors for further anaerobic processing of organic waste .

As a prototype of a plant for the preparation of raw materials for anaerobic waste processing, a system for the preparation of raw materials in a plant for processing biological waste was adopted EP 1636869, 05.22.2008.

The preparation system for the prototype includes a means for mixing raw materials with water and a group of ultrasonic emitters for ultrasonic treatment, placed around the passage of the mixture to the bioreactor. As an irradiator of the mixture with ultrasound, the device described in WO 0035579, 06/22/2000, containing a vessel and a plurality of ultrasound transducers attached to the outer wall of the vessel, is used. Sixty modules of 50 W piezoelectric transducers, each of which resonates at a frequency of 20 kHz, are tightly packed in a lattice and form five rings around the vessel with 12 modules each.

With a rather complicated design, the installation for preparing the raw materials according to the prototype, as well as the method implemented on it, is ineffective and does not provide good quality of the substrate, it requires large material costs and time for processing.

The problem, which the utility model is aimed at, is to create an installation that provides increased efficiency in the preparation of raw materials, accelerated anaerobic processing of organic waste and an increase in its depth.

The technical result is to improve the quality of the substrate by achieving a high degree of grinding, disinfection and homogenization of the mixture, which provides an increase in processing speed and an increase in the yield of a useful product while reducing material costs.

The technical result is also achieved by the fact that the installation for the preparation of raw materials for anaerobic processing of organic waste, including means for the dosed supply of raw materials and liquids, heating, radiation processing and dosed supply of the substrate to the bioreactor, according to the utility model, it is equipped with a sealed container that is equipped with a vacuum pump, and means for processing the mixture with radiation is made in the form of an ultrasonic hydrodynamic emitter, the camera of which is connected to the tank with the formation of a closed loop.

In this case, the chamber of the ultrasonic hydrodynamic emitter is equipped with a means for supplying oxygen-free gas, which can be connected directly to the bioreactor, and a means for supplying liquid for mixing the raw material to its discharge system.

The utility model is illustrated by an example implementation with the accompanying drawing of a schematic representation of a plant for the preparation of raw materials for anaerobic processing of organic waste.

The installation contains a sealed container 1 connected to the dispensers 2 and 3, respectively, the supply of organic raw materials and liquids, with a vacuum pump 4, the dispenser 5 for supplying gas from the bioreactor and the dispenser 6 for supplying the substrate to the bioreactor (not shown in the drawing). The tank 1 is equipped with a heater 7 and an ultrasonic hydrodynamic emitter 8 of plate or rod type, the chamber of which is connected to the tank 1 through a pumping pump 9 with the formation of a closed loop of the mixture.

The installation is as follows.

Raw materials from the storage hopper and liquid obtained from wet organic fertilizer after draining from the anaerobic bioreactor and having an elevated temperature are simultaneously fed into the sealed container 1 through dispensers 2 and 3 under pressure. Upon completion of the load, the temperature of the mixture is determined and the heater 7 is turned on to bring the temperature of the mixture to a predetermined temperature corresponding to the first stage of the bioreactor process, which is usually 37 ° C. Turn on the vacuum pump 4 and at the same time as the mixture is heated in a single volume of the sealed chamber, the mixture is degassed for 15-20 minutes. As a result of evacuation, gas vapors are pumped out and the main part of the oxygen dissolved in the feedstock, which is a poison for microorganisms involved in the biotechnological process, is removed. Then turn off the pump 4, close the line with valve 10, turn on the pump 9, start the ultrasonic hydrodynamic emitter 8 and connect the means of gas supply through the dispenser 5 from the bioreactor. Carry out simultaneously heating the mixture and its circulation in a closed loop through an ultrasonic hydrodynamic emitter 8. In this case, excess gas is vented through the valve 11.

As a result of multiple circulation of the mixture through an ultrasonic hydrodynamic emitter 8, the turbulence of the fluid and the natural vibrations of the resonators breaking from the surfaces of its mechanical resonators excite harmonic acoustic vibrations in the form of periodic pressure pulses in the fluid. Periodic pulses simulate oscillations, providing feedback and undamped acoustic vibrations, as a result of which the amplitude of excited harmonic acoustic vibrations increases under resonance conditions with vibrations of the mechanical resonators of the emitter 8. The cavitation region is expanded along the processing zone, which affects the cellular structure of biomass, destroying cellular partitions and providing intensive grinding of the mixture. Under the influence of acoustic and ultrasonic waves in the fluid, excessive tensile pressures and stresses arise, as a result of which redox phenomena occur at the interface between the liquid and solid phases, due to which a stable emulsion and suspension with particle sizes of high dispersion are obtained. The additional supply of oxygen-free gas to the cavitation zone by dispenser 5 facilitates the creation of a developed cavitation flow regime, optimizes the process and creates many very small carbon dioxide bubbles, which then enter the bioreactor and are food for methanogens, i.e. contribute to an increase in the share of methane in biogas. The processing process lasts 10-30 minutes and ends after the mixture is heated to a predetermined temperature. After processing, the substrate through the dispenser 6 is pumped into the bioreactor. Then the preparation process is repeated.

The operation of the installation is fully automated.

Thus, in a single volume of a sealed container, at the same time as the mixture is heated, it is degassed and processed well, which significantly increases the productivity of the process of preparing a high-quality substrate from any type of organic raw material.

The installation, equipped with a capacity of 1.5 m ³ and a pumping pump with a capacity of 20-50 m ³ / h, provides preparation of 50 m ^{3 of} substrate per day.

It was experimentally established that the duration of fermentation of chicken manure using the inventive installation for the preparation of raw materials was reduced from 14 to 9 days, and the amount of biogas increased by 2.2 times. In addition, the result of the removal of oxygen contained in the mixed components was a significant acceleration of the onset of the reaction and a decrease in the proportion of carbon dioxide in the biogas composition.

Claims (4)

1. Installation for the preparation of raw materials for anaerobic processing of organic waste, including means for the dosed supply of raw materials and liquids, heating, radiation treatment and dosed supply of the substrate to the bioreactor, characterized in that it is equipped with a sealed container that is equipped with a vacuum pump, and the means for processing the mixture with radiation are made in the form of an ultrasonic hydrodynamic emitter, the camera of which is connected to the tank with the formation of a closed loop. 2. Installation according to claim 1, characterized in that the chamber of the ultrasonic hydrodynamic emitter is equipped with a means of supplying gas that does not contain oxygen. 3. Installation according to claim 2, characterized in that the gas supply means is connected to the bioreactor. 4. Installation according to claim 1, characterized in that the fluid supply means is connected to a bioreactor drain system.

Images