RU107894U1 - SUPPLY AND EXHAUST INSTALLATION FOR OBTAINING ORGANIC FERTILIZER AND DISPOSAL OF HEAT - Google Patents

Abstract

 Forced-air and exhaust installation, characterized in that for monitoring and maintaining the temperature and humidity of the plant material at predetermined levels, sensors located on the aeration pipes of the supply branch are connected to the device and the sprinkler displaying the information received from the sensors.

Description

The utility model relates to ventilation devices used in the field of agriculture. The ventilation device is intended for aeration of compost heaps (shoulders) in order to obtain organic fertilizer (humus) and to utilize the excess heat generated during storage of plant materials with high humidity.

Known heat exchanger, selected as a prototype of the claimed device, which contains three vertical tubular columns rigidly connected to each other using jumpers, the second and third in the direction of flow of the column contain throttle devices, both collectors are made in the form of pipes with corresponding nozzles, the upper collector contains a sprinkler, the lower collector contains a moisture collector, and the entire heat exchanger, except for the nozzles, is covered with a layer of concrete with the formation of a monolithic block. In this case, water and air are discharged through a single chamber between the tubular columns, aerodynamic guides are placed at the bottom, a nozzle is located in the center of each tubular column, the tubular columns have conical expansion at the top, and movable conical control valves are placed above them [1].

The disadvantages of this device is the lack of the possibility of its use for the recovery of heat generated during storage of plant material.

Closest to the claimed device is a heat exchanger made in the form of a container of metal sheets with holes placed in a concrete pit with a tray, juice collector and vertical riser, an air discharge system consisting of a conventional pipe with a built-in pump and perforated aeration pipes, and an air exhaust system, consisting of a pipe with a valve and a filter, to remove excess heat generated during storage of plant materials with high humidity [2].

The disadvantage of such a heat exchanger is that when using it to produce humus, it is impossible to control and maintain the temperature and humidity of plant materials at specified levels,

The technical result of the utility model is the ability to control and maintain the necessary temperature and humidity values in plant materials to obtain high quality humus and prevent spontaneous combustion of plant material during storage.

The technical result of the utility model is solved by the use of a supply and exhaust installation, characterized in that for monitoring and maintaining the temperature and humidity of the plant material at predetermined levels, sensors located on the aeration pipe of the supply branch are used, which are connected to the device and the sprinkler that displays the information received from the sensors. The use of a supply and exhaust system with temperature and humidity sensors on aeration pipes and an irrigator will make it possible to obtain high-quality humus and avoid spontaneous combustion of stored plant material.

Thus, the proposed technical solution meets the criterion of "significant differences" and ensures the achievement of the positive effect indicated by the purpose of the utility model.

Figure 1 schematically shows the proposed supply and exhaust installation for heat recovery and humus production.

Structurally, the supply and exhaust system consists of a container 2 made of perforated metal sheets and placed in a concrete pit 1, a discharge system made of a solid pipe 3 with a built-in pump and perforated aeration pipes 5 for supplying air to plant materials of high humidity, an air removal system 4 , consisting of a pipe with a built-in filter and valve, an irrigator, consisting of a pipe for supplying water 6 and nozzles 7, sensors 8 for monitoring temperature and humidity.

Figure 2 shows the supply and exhaust installation, top view.

The device operates as follows.

The container is filled with plant material of high humidity, in which the process of thermogenesis begins during storage under the action of aerobic microorganisms. According to the injection system, air is fed into the plant material through perforated aeration pipes through a built-in pump, which accelerates the decomposition of the material and allows to obtain high-quality humus. Temperature and humidity are monitored automatically using sensors. When drying the raw materials during the aeration process and reducing humidity, as well as when the temperature rises to critical values for spontaneous combustion of the plant material, cold water is fed through the nozzles of the sprinkler to the plant material. Upon reaching optimal humidity values (80-85%) and lowering the temperature, the irrigation system is turned off. If necessary, the removal of warm air is carried out through the exhaust branch after opening the valve.

Thus, control and maintenance of the required values of temperature and humidity in the plant material occurs, which is necessary to ensure the quality of humus and prevent spontaneous combustion of the plant material.

Information sources.

1. RF patent 2006102839/06, 01/31/2006

2. RF patent 2010129393/02, 07/15/2010

Claims (1)

A supply and exhaust installation, characterized in that, to control and maintain the temperature and humidity of the plant material at predetermined levels, sensors located on the aeration pipe of the supply branch are connected to the device and the sprinkler displaying the information received from the sensors.