LT5675B - Composting equipment - Google Patents

Abstract

Composting equipment relates to biodegradable waste, more specifically, fermented waste. The composting mechanism is made of air supply canal (1) by which the air is supplied through ventilator (2) into the composting drum (4), which is rotated by engine (3), through perforated vellum (5). Controlling the air supply velocity by opening valve (6) and by strap transmission (7), which is mounted on tooth wheel (8), connected with engine (3) and the composting drum (4) the different quality of compost (9) could be achieved by twisting. The compost is supplied manually into the mechanism through tightly closed covers (11) and its temperature is measured constantly by thermometer (10) during the process. Composting drum is assembled on two pillow blocks (12), which are tightly fixed with rubber washers (13) and inside there are four shelves (14) fitted into drum for preventing the composting mass from slipping. A biofilter (16) with the air outlet (17) and inlet canal (18) is complemented tothe mechanism

Description

Landfill of organic waste is undesirable due to their fermentation processes, which causes the following problems:

• High temperature heap - fire hazard;

• uneven, unpredictable seating in the heap;

• formation of landfill gas (CH4, CO2) - risk of greenhouse gas explosion;

• landfill leachate formation-water pollution • favorable conditions for pathogens to reproduce;

• infectious risk - diseases transmitted by birds and rodents fed on organic waste;

• odor problem

In the context of the pan-European assessment of the collection and management of biodegradable waste, it should be noted that there is a separate approach to the collection and recycling of this waste. In some countries, household composting is encouraged. These countries handle a large proportion of biodegradable waste.

The most common technologies used in major composting plants are: stationary bundles, aerated stationary bundles, moving clumps, rotating drum and composting bin. Another composting technology is a composting bin, where maturation processes take place in closed containers. The advantage of this system is the reduction of odor, which is a major nuisance caused by the composting process. The choice of box technology allows you to adjust the power of the unit according to the amount of waste used.

Despite the difficulties encountered in placing high-quality digestate and compost products on the market, the recycling of biodegradable waste continues to develop.

The advantage of the proposed composting plant for the recycling of fermented waste is that it meets all the requirements for reducing the adverse effects, in particular the odor problem.

The prototype of the device provided is a rotary aerated composting device (U.S. Pat. No. 6,783,975). The patent is for equipment and processes based on aerobic biodegradable waste composting processes. According to the patent, biodegradable waste such as animal manure, plant biomass, food waste and the like can be treated by aerobic, oxygen consuming, bacteria and the like. Many processes and facilities are used to accelerate the composting of biodegradable waste (US2006172411, CA2436322, CA2435017, CA2242659, US5716013, EP0531832). The main purpose of these devices is to provide sufficient oxygen to ensure efficient aerobic processes. Other equally important factors that influence the initial conditions of composting are oxygen (Ο ₂ ) and aeration, nutrients, carbon to nitrogen ratio (C / N), humidity, porosity, particle structure, texture, size, pH, temperature, salts quantity and duration. Controlling these parameters would allow you to optimize the composting process and obtain good quality compost at a low cost and within a short period of time. Therefore, the main task of the above engineering solutions is to optimize the parameters of the composting process and to solve the problems of air pollution and odors.

The present invention can be used for small waste streams.

The closest embodiment of the present invention is a rotary aerated composting unit (US 6783975), wherein mechanically treated biodegradable waste is biologically stabilized in a relatively inexpensive manner and obtains a high efficiency of this method in an anaerobic reservoir that is pneumatically movable.

Although the patent described describes the process of composting as very simple, there is little control over it. Of course, in order to improve the oxygen supply of all biodegradable waste, the composted mass is often mixed, mixed or shaken. In order to produce quality compost and use different types of biodegradable waste as a batch, it is necessary to supply different amounts of air and different speeds of rotation depending on the composition of the waste, its fraction and its moisture content. Another disadvantage is the complex maintenance and repair of this system. The container consists of eight panels and has an octagonal cross-section. A cylindrical container with modifications would provide better mixing than an octagonal container, where compostable biomass, especially at higher humidity, could slip into walls and allow anaerobic degradation where no mass is consumed and where oxygen cannot penetrate deeper layers of the biomass. Masses of waste that are not adequately supplied with oxygen may not be completely degraded during the aerobic process, especially when waste is large and insufficiently mixed. In addition, the structure consists of sections that contain small amounts of waste for composting, so that the weight of the biodegradable waste would be small compared to the weight of the whole structure.

The design described in the patent is also inflexible in that it does not include a system for controlling air pollution and purifying air.

The example rotary aeration rotary composting unit also does not have the ability to determine the temperature of the compost to judge the end of the composting process, but only a visual assessment box.

The object of the invention is to improve the design of the composting unit so as to improve the quality of composting and reduce the negative environmental impact of biodegradable waste during composting by means of complex measures (regulating air supply, compost mixing speeds and collection and supply of contaminated air to the air cleaning filter).

The target is achieved by means of a device (Fig. 1-3), through which the central stationary part is supplied with air at various speeds and whose rotational speed of the drum is adjustable. A biofilter is installed after this unit to collect and purify contaminated air. Fig. 1 is a side view of a composting unit with a biofilter. Figure 2 illustrates a longitudinal section of a composting unit. Figure 3 illustrates a cross-section of a composting unit.

This unit consists of an air supply duct 1 which feeds the fan 2 to a rotary motor 3 composting drum 4 via a perforated shaft 5. By adjusting the air supply speed by opening the damper 6 and rotating the belt drive 7 mounted on the gears 8 and connected to the motor 3 and the composting drum. 4, various types of compost 9 can be obtained, the temperature of which is continuously measured by a thermometer 10 and fed manually into the unit through sealed lid openings 11. The composting drum is mounted on two bearings 12 which are sealed with rubber gaskets 13 with equipped with four shelves 14 which will prevent the composted mass from slipping as the drum rotates. The entire construction of the composting unit is mobile and is mounted on the feet 15. The unit also includes a biofilter 16 with air inlets 17 and outlets 18. The airflow from the system is regulated by damper 19. It is also possible to take a sample of contaminated air through the opening 20 which, when not in use, is sealed by means of pin 21.

Principle of device operation

Fermented waste is organic waste of different types and fraction from livestock, poultry, food and grass waste, sewage sludge, aerobically treated (after biogas recovery) feed through compost loading and unloading openings 11 into the composting drum 4, to the air being supplied to the composting drum 4 through a perforated shaft 5 for improved aeration. The motor 3 has an adjustable speed rotating composting drum 4, the structure of which is supported by the feet 15. The loading and unloading of the waste takes place through two openings ll which are tightly closed until the composting process is completed and allow convenient loading operations. The organic waste fraction is mixed to ensure efficient composting in a closed composting drum 4. Inside the drum are provided shelves 14 which prevent the compostable mass from sliding over the wall. The optimum rates of substrate mass mixing and air supply to the inside of the drum are selected depending on the type of substrate being composted and its parameters. The initial moisture content of the biomass is tentatively determined by the weight of the organic waste shipped and by visual inspection. Since the moisture content of biodegradable waste after fermentation ranges from 60 to 90%, this mass is mixed with relatively dry waste to optimize the composting process.

A biofilter 16 with air inlet 17 and outlet ducts 18 is used to collect gas and to reduce odors during composting. A valve 19 is provided for discharging gas.

During the composting process, a thermometer 10 is mounted on the rear drum wall to monitor the compost temperature change. It is also possible to take air samples from the composting drum through a dedicated opening 20 which is sealed with a rubber plug 21.

Claims (9)

Definition of the Invention 1. A composting unit having a rotating composting drum for aerobically treating fermented waste, characterized in that the installed drum has a hollow, perforated shaft for air supply, gas collection and cleaning. 2. A composting plant according to claim 1, characterized in that it is provided with a belt drive motor for automatic compost mixing. 3. A composting device as claimed in claim 1, wherein the composting drum is provided with shelves on the inside of the composting drum to prevent the compostable waste from sliding over the cylinder walls. 4. A composting unit as claimed in claim 1, wherein said composting device is provided with a compost temperature setting device and an air sampling outlet. 5. A composting device as claimed in claim 1, wherein a valve is provided to regulate the air supply to the composting drum. 6. A composting unit according to claim 2, wherein the air is supplied to the composting drum through a shaft cavity. 7. A composting device as claimed in claim 6, wherein the inside of the drum is perforated. 8. A composting unit according to claim 2, wherein said composting device is provided for controlling the discharge of contaminated air. 9. A composting plant as claimed in claim 4, wherein after collecting the gas there is provided a biofilter with a load of wood bark.