CS227142B1 - Air conditioning apparatus - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an air treatment device for the drying and partial drying of wet cereals and to the saving of fuels combusted in dryers for hot-air drying of cereals.

After the cereals are harvested, they are stored in silos. The storage process is influenced, among other things, by the grain moisture and the capacity of the grain dryer that lies. near the silo and in which the grain is dried with warm air, which is heated in a drier heat exchanger heated by noble fuels such as fuel oil.

The existing post-harvest grain treatment system consists of pre-cleaning, drying and storing grain into the silo, where it is blown through the cold air with the help of the active ventilation system. If the capacity of the drier is insufficient, the grain is stored with a moisture content above the set value, ie about 14%, and this grain is then gradually removed from the individual storage cells and returned to the drier where it is dried with warm air. is transported back to the silo.

The existing air treatment device thus consists of an in-house active ventilation system for the cereals, which delivers only cold air to the silo storage cells, and a dryer in which the primary air-fuel exchanger heats the secondary air to dry the grain.

The described storage process is very energy intensive, especially drying, since the consumption of fuel oil in the heat exchanger of the dryer is 100 to 200 tons per season, ie 21 to days.

The above-mentioned drawbacks are eliminated by an air treatment device for drying and partial drying of grain in deep silos

227 142 ferroconcrete or steel, which uses solar energy and consists of an active ventilation device consisting of an air propulsion unit, the intake of which is associated with the surrounding atmosphere and the exhaust pipe leading to a silo storage cell, and which is technologically connected to the dryer exchanger of characterized in that a suction line is connected to the suction of the air drive unit, the other end of which flows into the space formed between the wall of the sunlit silo and the jacket mounted externally on the wall. The sheath is formed so that brackets are fastened to the silo wall on which the sheath is attached at a distance of 100 to 200 mm from the silo wall. The casing can advantageously be made of corrugated aluminum sheet Black color ·

It is also preferred that the space between the jacket and the silo wall is connected to the heat exchanger of the dryer.

The use of the solar energy available at the time of harvesting the grain will result in considerable fuel savings even in low sunlight, since the air is already preheated into the exchanger. The realization of the invention is very simple on both the already built silos and the ones being built, regardless of whether it is a steel or reinforced concrete silo. It is also very advantageous that the entire device is feasible from materials commercially available and the economic payback period is approximately two years at the time of realization.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a reinforced concrete silo provided with a device according to the invention; and FIG. 2 is a view in the direction P of FIG. 1.

227 142

Along the whole wall 2 of the reinforced concrete silo or steel silo, which is situated to the southeast or southwest and whose sine surface is about 2,000 m, an exterior light aluminum shell 2 is mounted on the brackets mounted on the wall 2. up to 200 mm from the wall of 2 silos. In the upper part of the housing 2, suction louver openings 1 are formed which connect the space between the housing 2 and the silo wall 2 with the environment. Into this space between the jacket 2 and the silo wall 2 at its bottom is connected the suction pipe 2 of the active ventilation of the silo cells, which is connected to the air drive unit, eg to a fan 6 located in the basement of reinforced concrete silo or . Connected to the outlet of the fan 6 is an exhaust pipe 2 provided with a control valve, which is constructed in the same way as a pipe of the known conventional active ventilation solution and opens into absorbers 4 at steel forces or louver inlet of hopper cones at reinforced concrete forces.

The device operates in such a way that warm air heated by the action of solar energy on the sunlit surface of the silo shell 2 is sucked out of the solar collector, i.e. the space between the shell 2 and the silo wall 2 by the fan 6 through the suction pipe 2. Thus, not only ventilation but also drying of stored grain takes place, the humidity of which may be higher than its permissible value, without having to transport the grain to the dryer, dry it, and thus burn expensive fuel, and transport it back to the silo.

At the required storage humidity of 14% and an average sunshine intensity in the season, ie July and August, 400 W / m ² , when the temperature of the solar collector is 50 to 60 ° C, the heat gain over the entire side 000 m ² , 800 kWh.

With active ventilation on from 6 to 15 hours, the heat input gain is 7,200 kWh, saving about 650 kg of heating oil per day. For the season, ie about 50 days, with an efficiency of 60%, the savings would be about 12 tonnes.

A further possibility of using the device according to the invention is that the preheated air extracted from the solar collector is blown into the dryer exchanger. Since the air extracted from the solar collector reaches a temperature of 50 to 60 ° C, the noble fuels in the dryer are also considerably saved in this case.

The device according to the invention can be very advantageously used for all kinds of steel and reinforced concrete high-capacity silos and hot-air driers.

Claims (4)

I. An air conditioning device for the drying and partial drying of cereals using solar energy and consisting of an active ventilation device consisting of an air propulsion unit, the intake of which is connected to the ambient atmosphere and the exhaust pipe to the silo storage cells, and technologically connected to the exchanger dryer, characterized in that a suction line (3) is also connected to the suction of the air drive unit, the other end of which flows into a space formed between the sunlit silo surface (2) and the jacket (7) mounted externally on said wall (2). Air treatment device according to claim 1, characterized in that the housing (7) is mounted on brackets mounted on the silo wall (2) at a distance of 100 to 200 mm from this wall (2). Air treatment device according to claim 1 or 2, characterized in that the space formed between the silo wall (2) and the jacket (7) of said wall (2) is connected via a duct to a drier exchanger. Air treatment device according to claim 1, 2 or 3, characterized in that the casing (7) is made of black corrugated aluminum sheet.