SU1759309A1 - Agricultural fodder drying device - Google Patents

Abstract

Use of the invention: for drying feeds and obtaining nutrient condensate. SUMMARY OF THE INVENTION: The device comprises a premise for placing the forage mass, the roof and walls of which have a porous solar collector, a discharge channel in which a suction fan and a condenser with a cooler are installed, a condensate collector. The transmission of heated air through the mass to be dried is carried out from top to bottom immediately after heating the air in a porous solar collector, and the condensate is collected in a collector. 2 Il.

Description

The invention relates to the field of agriculture, in particular to the drying of agricultural products using solar energy.

Devices for drying agricultural products are known, which provide for heating air with solar energy in solar receivers, passing heated air through the mass to be dried upwards and then exhausting the used air. A device is known in which air is heated by solar energy by heat exchanging air with building elements and equipment inside a drying room, and passing heated air through the mass to be dried is carried out from top to bottom with subsequent exhaust of used air. However, this device does not provide sufficient efficiency in the use of solar energy, since it is characterized by high convective heat loss through the walls and roof, besides, a significant part of solar energy is lost,

passage through the translucent walls and roof, and is not absorbed by the surface of the equipment. A significant disadvantage of such a device is the impossibility of obtaining high heating temperatures due to the undeveloped heat exchange surface of the equipment and building elements with air.

It is also known a device for drying agricultural products, which contains a supply manifold above the mass to be dried, and a discharge collector - under it, which allows organizing air transmission from top to bottom, thereby increasing the concentration of liquid and solid nutrient fractions in it due to its own hydrostatic pressure. weight of liquid and solid particles. However, in this device, the permeable air has an increased vapor content as a result of heating from a darkened air-tight material, which leads to a decrease in the efficiency of drying and saturation of the mass of non-nutritional moisture (L

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Goy, lower nutrient concentrations in feed.

The closest to the invention is a device for drying agricultural feeds, which contains a room for placing forage in it, the roof and walls of which have a solar porous heat sink, placed in the room by a feed collector and a discharge channel. In this device, the fan forcibly sucks air through a porous solar collector, in which the air is heated by heat exchange with the heated surface of the solar collector pores, and the heated air is drawn into the collecting duct connected to the fan. Next, the fan injects heated air into the air distribution duct, through which air enters the mass to be dried.

However, in the known device there is no condenser for collecting nutrient condensate, besides the feeding collector is located in the lower part of the room, and the discharge channel is in the upper part, which, in aggregate, reduces the quality of drying of feed and does not provide nutrient condensate.

The purpose of the invention is to improve the quality of drying of feed and obtaining nutrient condensate,

The proposed facility is equipped with a condenser with a cooler and a suction fan, successively installed in the discharge channel, and a condensate collector, with the supply manifold located in the upper part of the room and the outlet collector in the lower part.

The proposed device contains the following set of essential features.

Similar to the prototype.

Room for placing the feed mass.

The roof and wall of the room have a solar porous heat sink.

An air supply manifold and a discharge channel are located in the room.

Different from the prototype.

The device is equipped with a condenser with a cooler and a suction fan installed in series & the discharge channel, while the supply manifold is located in the upper part of the room, and the discharge channel in the lower part.

This set of essential features is not found in known devices. Therefore, the proposed method has a novelty.

This set of essential features gives the proposed device new properties that provide the positive effect indicated for the purpose of the invention.

The proposed device contains a room in which the feed is placed.

0 the mass, the roof and the walls of the room have a solar porous heat receiver (heliopathic receiver), the role of the supply manifold is performed by the space formed between the roof and the aft feed being dried

5 by mass, diverting channel.

Atmospheric air is sucked into the interior of the room through a solar porous heat receiver, is heated by heat exchange with a heated pore surface, is sucked through the dried mass, takes its moisture, enters the exhaust channel, where the air moisture condenses and drains into the condensate collector and the air is blown out by the suction vent.

The condenser has a liquid cooler, for example, network water. Moisture precipitated, containing nutrients and biologically valuable substances, can be

0 is used both directly, for example, for the feeding of animals or additives in dry feed, and for further conservation or processing.

The proposed device for drying

5 feeds, when using solar porous tapla receivers with an efficiency of 90% by changing the air flow through the heat receiver from 600 to 50 m3 / g m2, heat the air by 5 ... 60 ° C.

0 FIG. 1 shows a device for

drying agricultural feed; in fig. 2 - the same device as applied to drying hay.

The proposed device is implemented in

In the premises of Sara, in roofing, and also in the south-east, south, the south-west walls of which are made of open-pore material and are solar porous heat receiver 1. Drying mass

0 hay 2 is placed inside the sar on the grate of the discharge channel 3. Atmospheric air, sucked into the room by a suction fan 4, passes a porous heat sink, which is heated by heat exchange with the heated surface of the pores, then passes a mass of hay, which dries, taking moisture with nutrients, then enters the discharge channel, passes the condenser 5 with the cooler 6, where the nutrients

together with moisture, it condenses and enters the condensate collector 7, and then the air is blown out.

Using the proposed method for drying hay reduces the drying time compared with the existing 2 ... 3 times, reduces the loss of nutrients by 30 ... 40%.

Compared with the known solution, the use of the proposed device provides the following advantages:

The location of the feed collector in the upper part of the room, and the discharge channel in the lower part provides an improvement in the quality of the drying of feed.

Condensation of moisture with nutrients from used air allows for maximum utilization of the nutritional value of the feed.

Claims (1)

Invention Formula Device for drying agricultural feed containing room for placing in it the forage mass, the roof and walls of which have a solar porous heat receiver, an air supplying collector and a discharge channel placed in the room, characterized in that, in order to improve the quality of the drying of the feed and to obtain a nutrient condensate, a suction blower in series a discharge channel, and a condensate collector, with the supply manifold located in the upper part of the room, and the discharge channel in the lower part. 4 B 5 7  1 J niTi rrrn g. -yyyyyrgtgp i u i i and m VTTYTT xT / ZI Phage. 2