RU2207471C2 - Animal house ventilation apparatus - Google Patents

Abstract

FIELD: agriculture, in particular, animal farming. SUBSTANCE: apparatus has fan connected to air duct network comprising delivery heat-exchanging air duct and air distributing duct, and condensate collectors. Air ducts have rectangular section with one angular part being directed down toward condensate collector. Width of condensate collector is at least equal to length of arc of sector defined by angle at upper angular part of air duct and condensate collector surface. Apparatus is designed for venting animal houses with increased moisture releases in the form of water vapors. EFFECT: improved zoohygienic conditions in animal houses by increased heat-exchanging efficiency, enhanced reliability in operation and veterinary safety of ventilation system. 2 cl, 2 dwg

Description

 The invention relates to the ventilation of livestock buildings having large moisture in the form of water vapor.

 A device for ventilation of livestock buildings (ed. St. USSR 1681148, F 24 F 7/06, 3/147). The device for ventilation of the livestock building contains a heat exchanger-dryer made in the form of an air duct located under the ceiling along the entire length of the livestock building in its central part, and communicated by the inlet through the supply air duct with the supply fan, and the outlet through the connecting air duct with a distributing air duct, while the heat exchanger-dehumidifier is made conical in shape with a decrease in cross section along the air flow, moreover, the taper of the heat exchanger-dehumidifier is 0.5 - 0.6, and the supply The second and distributing ducts are placed along the walls of the room.

 The known device has several disadvantages.

The heat exchange surface of the system is located directly above the animals. At low outdoor temperatures, the heat exchange surface can cool significantly down to negative temperatures on its surface, which will cause ice to form on its surface. As a result, radiation hypothermia of animals will occur, which is unacceptable by zoohygienic requirements. The resulting ice can break and injure both animals and maintenance personnel. Condensate formed on the surfaces of the ducts will drip down on both animals and people, which is unacceptable. The closest analogue is Turushev’s heat-exchange blocking ventilation device for livestock buildings (V. Turushev, Heat-exchange blocking ventilation of livestock buildings. Recommendation. Ulan-Ude: Buryat, publishing house, 1985.- 60 p.)
The ventilation system contains a heat exchanger-dryer, made in the form of an air duct located under the ceiling along the entire length of the livestock building (in its central part) and communicated through the supply air duct with the supply fan, on the one hand, and on the other hand, with a distribution duct. The air ducts of the Turushev ventilation system are made of plastic film with a cross section in the form of a triangle, one of the vertices of which is directed downward, respectively, two faces of the air ducts are directed downward, and the third is located horizontally under the ceiling of the room. Under the lower ribs of the ducts there are grooves for collecting and draining condensate.

 In the cold season, the system operates as follows.

 Cold outside air is supplied by a fan to polyethylene ducts located indoors and washed outside with warm, moist air. In contact with the warm moist air of the livestock building with the surfaces of the duct, cooled by the flow of cold air, heat and mass transfer occurs on the outer surfaces of the ducts. As a result, condensate forms on the surfaces of the air ducts, latent heat of vaporization is released, and harmful gases (ammonia, carbon dioxide), dust and microflora are captured by condensate. The released heat of vaporization is perceived by the flow of cold air inside the ducts, which is heated. The condensate formed, together with the absorbed gases and dust, flows along the inclined faces of the air ducts into the groove and is removed from the room.

 Thus, in the known system, the latent heat of vaporization is transformed into the apparent heat of the supply air, while the air is dried and cleaned of gases and dust.

 However, this system also has some disadvantages.

 At low outside temperatures, zones of condensation, frost and ice formation form on the heat-exchanging surfaces of the ducts. Ice formed on polyethylene surfaces causes film rupture, which reduces the efficiency of the system and its reliability.

 Condensation forms on the horizontal faces of the ducts with trapped dust and microflora. Due to the fact that the plastic film has plastic properties, the horizontal face of the air ducts under the influence of the formed condensate bends. As a result, a significant part of the condensate with trapped dust is trapped on the sagging face of the duct. After some time, a jelly-like mass is formed on the sagging horizontal face of the duct, consisting of condensate and dust and microflora of the livestock building. The resulting mass reduces the efficiency of heat and mass transfer on the surface of this face of the duct, which reduces the efficiency of the system. It should also be noted the difficulty of cleaning from contamination and disinfection of the horizontal surface of the ducts located under the ceiling. This leads both to a decrease in the efficiency of heat and mass transfer and, accordingly, to a deterioration of the indoor microclimate, and to the possibility of the propagation of pathogenic microbes, which violates the veterinary well-being of the livestock building. The design of the ducts does not protect animals from radiation overcooling them from the sides of the ducts directed downward. Protection of animals from possible ice fall from the edges of the ducts is not provided.

 The objective of the invention is to improve the hygiene conditions in the livestock building by increasing the efficiency of heat and mass transfer, increasing the reliability and veterinary safety of the ventilation system.

A device for ventilating a livestock building, comprising a heat exchanger-dryer made in the form of an air duct located under the ceiling along the entire length of the livestock building in its central part, and communicated by the inlet through the supply air duct with the supply fan, and the outlet through the connecting air duct with a distributing air duct, underneath condensate collectors for collecting and removing condensate are located on the edges of the ducts, the ducts are made in cross section in the form of a quadrangle, one of tires which is directed down towards the condensate collector; the width of the latter is not less than the arc length of the sector formed by the angle at the top of the duct and the surface of the condensate collector. New significant features:
1. The ducts are made in cross section in the form of a quadrangle.

 2. One of the vertices of the duct is directed down towards the condensate collector.

 3. The width of the condensate collector is not less than the length of the arc of the sector formed by the angle at the top of the duct and the surface of the condensate collector.

 The listed new essential features in conjunction with the known ones allow to obtain a technical result in all cases to which the requested amount of legal protection applies.

 In contrast to the known systems, all facets of the air ducts, which perform the functions of heat-exchange surfaces, are located at an angle to the vertical plane, the ceiling mates not with the surface of the duct, but with a rib. Such a solution provides a continuous drain of condensate from all heat-exchange surfaces, and hence the washing away of “dirt” from these surfaces, and, accordingly, maintaining the heat-exchange surfaces in a constantly clean state. This circumstance provides the conditions for stable and maximally efficient heat and mass transfer between the air flow inside the air ducts and the indoor air of the room, as a result of which the highest heat engineering effect is ensured.

 The cross-section of the ducts in the form of a quadrangle, one of whose sides is directed towards the condensate collector, provides the convenience of washing and disinfecting the surfaces of the ducts with water and disinfecting solutions from a safe distance - with jets.

 The use of condensate collectors, the width of which is not less than the arc length of the sector formed by the angle at the top of the duct and the surface of the condensate collector, makes it possible to collect not only condensate draining into the condensate collector, but also ice falling from the faces of the ducts. In addition, such a width of the condensate collector excludes radiation heat exchange between animals and the faces of the air ducts, which excludes radiation overcooling of animals. The manufacture of ducts from solid materials eliminates the rupture of ducts during ice formation, which increases the reliability of these systems.

 The design of the heat-exchange duct made in the form of a quadrangle in cross section provides stable conditions for maximum intensive heat and mass transfer between the flow of external air inside the heat-exchange duct and the indoor air of the room for a long period of operation of the device for ventilation of the livestock building, which ensures a stable maximum degree of drying and cleaning of the indoor air in the livestock building and heating the flow of outdoor air by emogo the room.

 Stability of drying and purification of internal air allows to reduce the amount of ventilation air supplied to the livestock building by a value proportional to the amount of dried moisture.

 At the same time, the heat consumption for heating the ventilation air is reduced, equal to the amount of latent heat of vaporization of the formed condensate and utilized by the supply air stream.

 In FIG. 1 shows a device for ventilation of a livestock building in plan, and in figure 2 in cross section.

 A device for ventilation of a livestock building 1 with walls 2, a ceiling 3, and animals 4 includes a supply fan 5 connected through a discharge duct 6 to a heat exchange duct 7, the latter being connected to an air distribution duct 8 through a connecting duct 9, under a heat exchange duct 7 made in cross section a condensate collector 10 is installed in the form of a quadrangle. The width of the condensate collector is not less than the arc length of the sector formed by the angle at the top of the duct and the surface Stu condensate.

 In the cold period, the device for ventilation of the livestock building works as follows.

 The cold air from the outside atmosphere by the fan 5 through the discharge duct 6 is fed into the heat exchange duct 7, the cross section of which is in the form of a quadrangle, the upper edge of which is mated to the ceiling of the room 3, and the lower edge is directed towards the condensate collector 10. Warm and humid air of the livestock building 1 under the effect of natural convection formed by heat dissipation of animals 4, washes the outer surfaces of the heat exchange duct 7. Between the flow of cold air inside heat exchange duct 7 and the internal air of the room 1 is the process of heat and mass transfer. In this case, the flow of internal air washing the outer walls of the heat exchange duct 7 is cooled below the dew point and condensate falls on it to the outer surfaces of the duct. Simultaneously with the condensate falling out on the outer surfaces of the heat-exchange duct, heat is generated in the amount of latent heat of vaporization of the condensate released, this heat is perceived by the flow of cold air inside the duct, i.e. the supply air is heated. Heated air through the connecting duct 9 enters the air distribution duct 8, where it is heated and admitted to the livestock building.

 The condensate formed on the outer surfaces of the ducts absorbs harmful gases (ammonia, carbon dioxide), microflora, dust and flows along the inclined faces of the duct 7 into the condensate collector 10. Ice formed on the ice formation section of the heat exchange duct 7, when separated from the duct walls , gets into the condensate collector, which does not pose a danger to animals and maintenance personnel.

 Due to the fact that all the faces of the heat exchange duct 7 have a slope in the vertical plane, there is an intensive drain of condensate from all faces of the duct, while the condensation does not stagnate anywhere. An intensive drain of condensate from the edges of the heat-exchange duct ensures complete washing off of the “dirt” that has formed, which provides stable conditions for maximum heat and mass transfer between the flow of cold outside air in the heat-exchange duct and the indoor air of the room.

 Since the width of the condensate collector 10 is not less than the arc length of the sector formed by the angle at the top of the duct and the surface of the condensate collector, the radiant heat exchange of the cold surfaces of the heat exchange duct 7 can be carried out only with the ceiling 3 and the surface of the condensate collector 10, which does not cause the danger of radiation overcooling of animals 4.

 Thus, in a livestock room equipped with a device for ventilation of the livestock room, a continuous process of drying the internal air and its purification from harmful gases, dust and microflora is provided. The flow of outdoor air supplied to the room is heated by utilizing the latent component of the heat of the indoor air, i.e. there is a process of translating the latent heat of water vapor into the apparent heat of the supply air.

Claims (1)

 A device for ventilation of a livestock building, comprising a heat exchanger-dryer made in the form of an air duct located under the ceiling along the entire length of the livestock building in its central part, and communicated by the inlet through the supply air duct with the supply fan, and the outlet through the connecting air duct with a distribution duct, under the lower ribs of the ducts are condensate collectors for collecting and removing condensate, characterized in that the ducts are made in cross section in the form of four a triangle, one of the vertices of which is directed down towards the condensate collector, the width of the latter is not less than the length of the arc of the sector formed by the angle at the top of the duct and the surface of the condensate collector.

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