RU2166717C1 - Air-cooling apparatus with external air recirculation - Google Patents

Abstract

FIELD: applicable in chemical, oil, gas and other branches of industry for cooling of products changing their aggregate state at a drop of temperature to a solid phase, or forming solid chemical compounds. SUBSTANCE: the apparatus has a heat exchange section, recirculation channel and a chamber for mixing of warm and cold air located under them. A header with a fan placed in it is installed in the upper part of the mixing chamber under the heat exchange section with a shift towards the side opposite the recirculation channel. Trapezoidal plates are fastened on the walls in the point of communication of the chamber with the recirculation channel, one of the plates is inclined towards the fan, and the other two - towards the recirculation channel. The presence, dimensions and definite angle of inclination of the plates provide for through mixing of heterogeneous air flows. EFFECT: enhanced efficiency of product cooling due to maintaining of the temperature of all heat-exchanging walls above the temperature of hydrate formation. 2 dwg

Description

 The invention relates to air cooling apparatuses used in the chemical, oil, gas and other industries for cooling products, which, when the temperature decreases in the operating range, change the state of aggregation to a solid phase or form solid chemical compounds.

 A known design of an air cooling apparatus with external air recirculation (Promotional brochure of the company "Batignolles technologies thermiques (Btt)", France, the exhibition "Neftegaz - 89"), in which there is a channel located outside the relative to the compartment of the heat exchanger. Through this channel, external circulation of the air heated by the tube bundle directed under the fan located in the heat exchanger compartment is carried out. On the other hand, cold air is supplied under the fan.

 The disadvantage of this apparatus is that there is practically no mixing of cold and hot air, as a result of which the flows of cold air are directed by the fan into the tube bundle, which negatively affects the operation of the air cooling apparatus.

 A known design of an air-cooling apparatus with external air recirculation - (prototype) (Winterizingair cooled heat exchanders, Frank L. Rubin. Hidrocarbon processing. October, 1980, vol. 59, N 10, p. 149), in which there is a channel located outside relative to the heat exchanger compartment. Through this channel, external circulation of air warmed by the tube bundle is carried out, and it is mixed with incoming cold air. The maximum distance for the movement of the mixed flows is created by the upper inlet for cold air, and the narrowing at the outlet of the channel accelerates the additional mixing of the air directed under the fan located in the heat exchanger compartment. In this system, cold air does not come into contact with the surface of the pipes.

 The disadvantage of this apparatus is the insufficient mixing of cold and hot air, as a result of which flows of insufficiently warmed air are directed by the fan to the far end of the tube bundle, which negatively affects the reliable operation of the air cooling apparatus.

 The aim of the invention is to increase the reliability of the design of the air cooling apparatus, ensuring stable operation of the air path of the apparatus and increasing the cooling efficiency of the product.

This goal is achieved by the fact that in the apparatus of air cooling with external air recirculation, consisting of a heat exchange section, a fan, a recirculation channel and louvers for air inlet and outlet, a mixing chamber is placed under the heat exchange section and the recirculation channel, connected to the recirculation channel, while the upper part of the mixing chamber under the heat exchange section with an offset to the side opposite to the recirculation channel, a collector is installed in which the fan is located, and in with a recirculation channel, the mixing chamber is equipped with trapezoidal plates with a width equal to 0.25 - 0.40 of the width of the heat exchange section, fixed with their large bases on the lower parts of the walls of the recirculation channel, while the middle plate is fixed on the wall separating the recirculation channel from the heat exchange section, with an inclination at an angle of 40 - 50 ^o in the direction of the fan, and the other two on adjacent walls with an inclination at an angle of 40 - 50 ^o in the direction of the recirculation channel.

Placement in an air-cooled apparatus with external air recirculation under the heat exchange section and the recirculation channel of the mixing chamber in communication with the recirculation channel, the location of the fan in the manifold, which is installed in the upper part of the mixing chamber under the heat exchange section with an offset to the side opposite to the recirculation channel, as well as supply mixing chambers in the place of communication with the recirculation channel with trapezoidal plates with a width equal to 0.25 - 0.40 of the width of the heat exchange section, closed heated by their large bases on the lower parts of the walls of the recirculation channel, the middle plate fixed to the wall separating the recirculation channel from the heat exchange section, tilted at an angle of 40 - 50 ^o towards the fan, and the other two on adjacent walls with an inclination at an angle of 40 - 50 ^o towards the recirculation channel, allowed for more thorough mixing of cold and hot air, thereby ensuring reliable operation of the apparatus at low temperatures. The proposed design made it possible to increase the reliability of the air-cooling apparatus, to ensure the stable operation of the air duct of the apparatus, and to increase the cooling efficiency.

 The applicant is not aware of air cooling apparatus with external air circulation, in which the temperature field is equalized in a similar way.

 In FIG. 1 shows a diagram of an air cooling apparatus with external air recirculation.

 In Fig.2 is a section along a - a in Fig. 1.

An air cooling apparatus with external air recirculation consists of a housing 1 in which a heat exchange section 2, a fan 3 with a drive 4 and a recirculation channel 5 are installed, a wall 6 separates the recirculation channel 5 from the heat exchange section 2. The heat exchange section 2 is equipped with a channel 7. Mixing chamber 8 located in the housing 1 under the channel 7 of the heat exchange section 2 and the recirculation channel 5 and communicated with the lower part of the recirculation channel 5. In the upper part of the mixing chamber 8 is a collector 9, mounted with an offset to the walls 10 of the housing 1. In the manifold 9, there is a fan wheel 3. In the place of communication with the recirculation channel 5, the mixing chamber 8 is equipped with trapezoidal plates 11 and 12 with a width equal to 0.25 - 0.40 of the width of the heat exchange section 2, fixed with its large bases on the lower parts of the walls of the recirculation channel 5. The plate 11, having the shape of an isosceles trapezoid, is mounted with its large base on the lower part of the wall 6 of the recirculation channel 8 with an angle of 40-50 ^° towards the fan 3. Two other plates 12 having the shape rectangular trapezoid, mounted on the lower parts of the adjacent wall 6 of the front and rear walls of the recirculation channel 5 with an angle of 40 - 50 ^o in the direction of the recirculation channel 5. The sides of the plates 12 are mounted on the wall 13 of the housing 1. The device is equipped with a blinds 14, 15 for the outlet of heated air from the heat exchange sections 2 and 16 for the entry of cold air into the recirculation channel 5.

 The air cooler with external air recirculation works as follows.

The air pumped by the fan 3 blows the pipes of the heat exchange section 2 and cools the product passing through them. At the exit of the heat exchange section 2, part of the heated air is removed from the apparatus through the shutters 14, and part through the shutters 15 enters the recirculation channel 5. On the opposite side, a stream of cold air enters through the shutters 16 into the recirculation channel 5. Partial mixing of cold and hot air flows takes place in the recirculation channel 5, but since the interpenetration is carried out by large jets, the indicated patterns of velocity distribution are preserved for each of these flows along the entire path of the recirculation channel 5. This means that at the outlet of the recirculation channel 5 the content of hot air is increased from the side of the wall 13, and cold from the side of the wall 6. In the mixing chamber 8, a vacuum is created sufficient to suck in an inhomogeneous air stream from recirculation channel 5. Inhomogeneous air flow, falling into the mixing chamber 8, changes the direction of motion by 90 ^o .

Using the plates 12 installed in the mixing chamber 8 and fixed on the lower parts of the walls of the recirculation channel with an angle of 40-50 ^° to the side of the recirculation channel 5, the inhomogeneous air stream from the recirculation channel 5 is mixed along the width of the mixing chamber 8. A installed in the mixing chamber 8, a plate 11, fixed at the bottom wall 6 of the recirculation channel 5 with an inclination through an angle of 40 - 50 ^o towards the fan 3 restricts airflow entering an inhomogeneous structure in the valve op provides mixing and nonuniform flow along the length of the mixing chamber 8. Thus, with the help of the plates 11 and 12 is provided by thorough mixing in the mixing chamber 8 coming from the recirculation duct 5 nonuniform air flow.

 The air flow with an equalized temperature field over the entire cross section of the mixing chamber 8 near the wall 10 makes a sharp turn and passes through the fan 3 with a velocity vector directed at an angle to the axis of the fan, thereby forming a region of increased pressure near the wall 6 of the channel 7 of the heat exchange section 2 and low - near the wall 10. The maximum pressure drop occurs in the zone of action of the vortex formed in the space of channel 7 above the central part of the fan wheel 3. Alignment of the velocity field in channel 7 is carried out about the displacement of the collector 9 with the fan 3 installed in the mixing chamber 8, towards the wall 10. This made it possible to increase the cooling efficiency of the product.

 Thus, the proposed design of an air cooling apparatus with external air recirculation has increased the reliability of the air cooling apparatus, ensured the stable operation of the air duct of the apparatus, and increased the cooling efficiency of the product by performing a mixing chamber with the possibility of thorough mixing of hot and cold air to maintain the temperature of the walls of all heat transfer pipes above hydrate formation temperatures.

Claims (1)

An air cooling apparatus with external air recirculation, consisting of a heat exchange section, a fan, a recirculation channel and air inlet and outlet louvres, characterized in that a mixing chamber is placed under the heat exchange section and the recirculation channel in communication with the recirculation channel, while in the upper part of the mixing chamber under the heat exchange section with an offset to the side opposite to the recirculation channel, a collector is installed in which the fan is located, and in the place of communication with the recirculation The mixing chamber is equipped with trapezoidal plates with a width equal to 0.25-0.40 of the width of the heat exchange section, fixed with their large bases on the lower parts of the walls of the recirculation channel, while the middle plate is fixed on the wall separating the recirculation channel from the heat exchange section, with an inclination at an angle of 40-50 ^o in the direction of the fan, and the other two on adjacent walls with an angle of 40-50 ^o in the direction of the recirculation channel.

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