SU1712744A1 - Heating low-temperature device - Google Patents

Abstract

The invention relates to heating technology and is intended for air heating of greenhouses. The aim of the invention is to increase the utilization of the temperature potential of the coolant, reduce the material consumption of the device and increase its compactness. In a single design, the positive properties of the surface and contact heat exchangers are combined. Structurally, this combination is performed using nozzles connected to a source of low-temperature heat transfer fluid and placed in an annular gap between the central air duct and the perforated outer casing of the device. At the same time, in order to reduce the material consumption of the device, the central air duct and the outer casing of the device are made of synthetic film. 3 il.

Description

The invention relates to heating technology and is intended for air heating of greenhouses.

The aim of the invention is to increase the use of temperature, the potential of the coolant, reducing the consumption of materials of the device, increasing the compactness.

This goal is achieved by combining the positive properties of a surface and contact heat exchanger in a single design due to this; that the low-temperature heating device is equipped with nozzles connected to the low-temperature heat-transfer source and a central air duct placed coaxially perforated with the formation of an annular gap and a rotating chamber, the length of the specified air duct is less than the length of the body, and the cross-sectional area for

the air passage is equal to the area of the annular gap in which the nozzles are located, the air duct and the perforated body being made of synthetic film. FIG. 1 shows the proposed device, a general view; FIG. 2 is a section A-A in FIG. one; H | d. 3 shows a section BB in FIG. one.

The device contains. a central air duct 1 placed in a perforated body 2 with an air inlet head 3 with the formation of a rotating chamber 4, while the length of air duct 1 is less than the length of body 2, and the cross-sectional area of air duct 1 is equal to the area of the annular gap between body 2 and air duct 1. Case 2 plugged with a rotating chamber 4. In the annular gap are placed nozzles 5, connected to the source of low-temperature heat transfer fluid by pipelines 6, cooling coolant is discharged through fitting 7. At the end of the air inlet head 3 is located a fan 8.

The device works as follows.

The air flow is supplied by the fan 8 to eight air caps 3 and then to the central air duct 1, where, in contact with the inner surface of the air duct, it is heated. Heated in the surface part of the device, the air flow turns by 180 ° in the rotary chamber 4 and enters the annular gap between the inner surface of the housing 2 and the outer surface of the Central duct 1.

During the movement in the annular gap, the air flow is in contact with the low-temperature coolant sprayed countercurrently by means of nozzles 5. installed in the upper part of the annular gap, which leads to evaporative heating of the air flow in the contact part of the device. The heated and humidified air flow enters through perforations, which, to ensure equality of flow rates of outgoing air, is performed with different numbers and diameters of the openings in the respective sections of housing 2, into the heated room. Drops of low-grade coolant, stack on the inner surface of the housing 2 and the outer surface of the duct 1, form a film that transfers residual heat

low-grade coolant to these structural elements. The cooled low-temperature water is collected at the bottom of the device and discharged through

fitting 7, for which case 2 is attached to the slope.

The supply of the low-temperature heat carrier to the nozzles 5 of the device is carried out through the pipeline b.

Claims (1)

Thus, combining the surface and contact heat exchangers in a single device, coaxial placement of the central duct allows to achieve the purpose of the invention, with equal cross-sectional areas1 (1 duct and annular gap leads to a constant flow rate along the entire length of the device, which ensures optimal heat engineering and aerodynamic characteristics of the device. Formula of the invention Low-temperature heating device containing air ducts made of GOVERNMENTAL sections with input and output heads, and a fan, which are known to, in order to reduce material consumption and increase compactness, the device is equipped with nozzles connected to the collector, while air ducts are placed coaxially along the entire length and made of elastic material, the outer air duct being perforated, and nozzles are installed in the annular gap between the air ducts. Af fig 2 6B fig.Z