RU2755071C1 - The device of air cooling of the heat carrier - Google Patents

Abstract

FIELD: air cooling systems.

SUBSTANCE: invention relates to systems of air cooling and condensation of heat carriers used in the oil and gas, chemical and power industries. The device for air cooling of the heat carrier includes housing with a mounted heat exchanger and a fan with a diffuser, a means of feeding and a means of spraying water. The water spray device is made in the form of at least one ultrasonic water disperser into fine components and is mounted directly in front of the diffuser of each fan in its central part to supply a mixture of dispersed water and air flow by the fan to the heat exchanger of the device. The ultrasonic water disperser is equipped with a perforated bell that directs the dispersed fine water components to the fan diffuser, made at an opening angle of 30.0-60.0 degrees to the horizontal.

EFFECT: invention makes it possible to increase the efficiency of the heating agent cooling process and increase the reliability of the device.

4 cl, 1 dwg

Description

The invention relates to systems for air cooling and condensation of heat carriers used in oil and gas, chemical and energy industries during operation, for example, gas treatment plants, booster compressor stations, gas cooling stations, linear compressor stations, etc.

Known air coolers [GOST R 51364-99, http://docs.cntd.ru/document/gost-r-51364-99] are a heat exchanger consisting of a supporting metal structure with a heat exchange section mounted on it, an air supply system , including a fan driven by an electric motor, a diffuser with a manifold. These devices can be equipped with air humidifiers that work due to the effect of water spraying through nozzles under high pressure (more than 70 atm) and air suction into the device to reduce peak loads on heat exchange equipment in the summer. A pool is provided under the structure to collect water that has not evaporated in the air.

The disadvantages of the known devices include the low efficiency of cooling the coolant at high ambient temperatures. At the same time, the intensification of the cooling process by spraying water through the nozzles is not effective enough.

This is due to the fact that a significant amount of the sprayed liquid does not have time, due to evaporation, to increase the air humidity, and, accordingly, to reduce the air temperature in the adiabatic process. In addition, due to the sufficiently high velocities of the sprayed liquid, the nozzles are subject to significant erosive wear, which inevitably leads to a decrease in the efficiency of the air cooling process.

Known air cooling apparatus [RU 2200907, published 03/20/2003] consisting of a heat exchange unit, a fan, supports and a water sprinkler system between the supports. On the lower plane of the heat exchanger block, a frame with a metal mesh and a filter cloth is installed, the metal mesh is electrically connected to the heat exchange tubes, the jet shafts are directed from top to bottom and from the center to the perimeter, are located on each side in a row in a zigzag pattern, an air compressor is connected to the jet shafts, along the perimeter a water tray is laid on the floor. At high ambient temperatures, water irrigation is used. The direction of the jet barrel from top to bottom and from the center to the perimeter ensures the moistening of the vertical filter cloths, the movement of water particles towards the air flow and for a longer time, thereby deepening the evaporation of water and cooling the air. The supply of compressed air to the jet barrel significantly intensifies the grinding of water particles, the process of evaporation of water and cooling of the air that works as a coolant in air cooling devices.

The disadvantages of the known apparatus include the presence of large particles of water falling towards the air flow and contributing to the additional accumulation of water on the surface of the heat exchanger, which reduces the cooling efficiency and promotes the deposition of salts on the surface of the pipes, which impede heat exchange and promote the development of corrosion processes.

Known device for cooling air with a water sprinkler system, used at high ambient temperatures, [RU No. 2614623, published 03/28/2017], taken as the closest analogue, including a housing, a ventilation element (fan), a heat exchanger, at least one an element for spraying water, located in front of the openings in the housing for air intake from the outside and made in the form of a closed loop with nozzles for spraying water evenly spaced along the length of the contour and rigidly connected to the body or fixed on a common base with the body, while the loop is two hollow tubes connected in the upper and lower parts in such a way as to ensure the movement of liquid along them under a pressure of about 80 atm. and to ensure uniform pressure at each nozzle. The technical result, according to the applicant, is to improve the interaction of air with the coolant.

The disadvantages of the known system and irrigation device include the need to maintain high water pressure to ensure stable operation of the spray nozzle system with the formation of dropping liquid (condensate) on metal structures. Due to excessive moistening, a heterogeneity of the sprayed fog occurs, followed by dropping of a droplet liquid under the air coolers, which can lead to moistening of the soils of the bases under the structure of the apparatus and reduce the bearing capacity of the foundation. In addition, the need to maintain high pressure in the nozzle water supply circuit significantly limits the ability to control the flow rate of the supplied water, which is necessary to improve the performance of the cooling process. This circumstance also determines the high flow rates of water jets through the nozzles, which also reduces their operational reliability and imposes high requirements on water treatment. The sprayed and non-evaporated droplet liquid together with the sucked air, falling on the heat exchange surface, evaporates, which leads to the formation of salts, promotes the development of corrosion processes and the formation of contaminants, which in turn impairs the heat exchange process when air moves through the bundles of heat exchange tubes and reduces the overall efficiency. In addition, a part of the water sprayed by the nozzles is not drawn in by the fan, but falls directly onto the base of the apparatus.

The technical result of the proposed invention is to eliminate the disadvantages of the prototype, in particular to increase the efficiency of the coolant cooling process, to simplify the design of the device and to increase the reliability of its operation.

The technical result delivered by the proposed invention is achieved by using common known features with the prototype, including a housing with a mounted heat exchanger and a fan with a diffuser, supply means and water spraying means, and new features consisting in the fact that the water spraying means is made in the form of at least one ultrasonic disperser of water into finely dispersed components and mounted directly in front of the diffuser of each fan in the central part of the supply of a mixture of dispersed water and air flow by the fan to the heat exchanger of the device.

The ultrasonic water disperser is equipped with a perforated bell that directs the dispersed fine water components to the fan diffuser, made at an opening angle of 30.0-60.0 degrees to the horizontal.

An ultrasonic disperser sprays water into finely dispersed components with a particle size of the order of 2 ... 10 microns, intensifying the process of adiabatic air cooling due to the absorption of heat by evaporating water.

The means for supplying water to the ultrasonic disperser is made in the form of a pipeline connecting the disperser with a container with water by means of a pump.

The novelty of the proposed technical solution is the implementation of the means for spraying water in the form of at least one ultrasonic disperser of water into finely dispersed components and mounted directly in front of the diffuser of each fan in the central part of the supply of the mixture of dispersed water and air flow by the fan to the heat exchanger of the device.

So, the implementation of the means for spraying water in the form of at least one ultrasonic disperser of water into finely dispersed components makes it possible to create a foggy, homogeneous cloud of highly crushed water particles, which, due to the vacuum created by the fan, are drawn into the air flow and begin to evaporate intensively , preventing the formation of droplet liquid (water condensation) on the surrounding structures and foundations, effectively cooling the air flow that washes the heat exchange tubes of the heat exchange section. As a result of the adiabatic cooling of the water-air mixture flowing through the fan to the heat exchanger, the temperature of the coolant rapidly decreases at the outlet of the device, which leads to an intensification of the coolant cooling process.

Installation of an ultrasonic water disperser directly in front of the diffuser of each fan allows, as much as possible, without significant obstacles to the flow of cooled air, to mix evaporating fine water particles with air and purposefully supply the cooled air to the heat exchange tubes to cool the coolant.

Such signs as: the presence of a perforated socket in the ultrasonic water disperser, made at an opening angle of 30.0-60.0 degrees to the horizontal, and directing dispersed fine water components to the fan diffuser, spraying water by an ultrasonic disperser into finely dispersed components with a particle size of about 2 ... 10 microns, intensifying the process of adiabatic cooling of the air due to the absorption of heat by evaporating water and the implementation of the means for supplying water to the ultrasonic disperser in the form of a pipeline connecting the disperser with a container with water by means of a pump - these are additional signs that reveal and concretize the main features and contribute to the achievement of the set the alleged invention of the technical result.

Thus, the dispersion of water by an ultrasonic atomizer into finely dispersed components of the order of 2 ... 10 microns creates conditions for the rapid evaporation of water particles and, as a consequence, creates better conditions for adiabatic air cooling.

Execution of the bell perforated, directing the dispersed fine water components to the fan diffuser, at an opening angle of 30.0-60.0 degrees to the horizontal, by changing the angle in the specified range, depending on the design and diameter of the fan diffuser, effectively and purposefully directing the created by the atomizer and fan the flow of the mixture to the heat exchanger tubes, and, due to the perforation, direct finely dispersed water particles without delays and swirls to the heat exchanger tubes.

The patent information search carried out in the process of preparing the materials, the combination of the proposed known and new features of the alleged invention in the patent and scientific and technical literature has not been revealed, which makes it possible to classify the features as having novelty.

Since the proposed combination of features is not known from the state of the art and allows a higher technical result to be obtained, the proposed essential features can be recognized as meeting the criterion of inventive step.

The description of the implementation of the proposed device and the experimental work carried out make it possible to classify the proposed device as industrially feasible.

The drawing schematically shows the proposed device for air cooling of the coolant.

The proposed device contains a housing 1 on which heat exchangers 2 are mounted, a fan 3 with a casing 4 and a diffuser 5. A container 6 with water is connected by means of a pipeline 7 with a supply means 8 (pump) with an ultrasonic water disperser 9. In the central part of the casing 4 are mounted fan blades, driven by an electric motor 10. The water disperser 9 is made in the form of a high-frequency ultrasonic emitter that sprays water into finely dispersed components and is mounted directly in front of the diffuser 5 of the fan 3 in its central part to supply a mixture of dispersed water and air flow by the fan to the heat exchangers 2 of the device ... The bell 11 of the ultrasonic disperser is perforated, with an opening of 30.0-60.0 degrees to the horizontal, providing the fan 3 supplying the fog-like cloud 12 created by the disperser directly to the tubes of the heat exchangers 2.

The proposed device works as follows:

The heat carrier to be cooled or condensed is supplied to the heat exchangers 2. To cool the tubes of the heat exchanger 2 and the heat carrier through the pipeline 7 from the tank 6, using the pump 8, water is supplied to the ultrasonic disperser 9. The ultrasonic disperser 9, using a high-frequency ultrasonic emitter, disperses water in the form of a cloud 12 into fine particles of the order of 2 ... 10 microns, and with the help of a perforated bell 11 directs them up to the fan blades 3, which is carried away by the air flow to heat exchangers 2. Finely dispersed the particles begin to intensively evaporate in the air, and as a result of the resulting adiabatic process, the air is cooled due to the absorption of heat by the evaporating water, the mixture of which with sprayed water is fed to the heat exchange tubes by a fan. Intensive cooling of the coolant takes place.

At the same time, the high intensity of water evaporation helps to prevent the formation of droplet liquid (condensate) on the surrounding structures and foundations of the bases, salt deposition is prevented, and the likelihood of corrosion is reduced. Adiabatic cooling of the flow of a mixture of air with evaporating water entering the fans leads to an intensification of the coolant cooling process, which ensures a lower temperature of the cooled coolant at the outlet from the device.

Prevention of the formation of droplet liquid can also be achieved due to some unsaturation of air with water by selecting its specific supply.

Currently, the enterprise has manufactured several prototypes of the proposed device, which have been submitted for testing. Preliminary tests have shown positive results.

Upon completion of the tests, a decision will be made on the manufacture of the proposed devices for the needs of the industry.

Claims (4)

1. A device for air cooling of a heat carrier, including a housing with a mounted heat exchanger and a fan with a diffuser, a supply means and a water spraying means, characterized in that the water spraying means is made in the form of at least one ultrasonic water disperser into finely dispersed components and is mounted directly in front of the diffuser of each a fan in its central part for supplying a mixture of dispersed water and air flow by a fan to the heat exchanger of the device. 2. The device according to claim. 1, characterized in that the ultrasonic water disperser is equipped with a perforated bell, directing the dispersed fine water components to the fan diffuser, made at an opening angle of 30.0-60.0 ° to the horizontal. 3. A device according to claim 1, characterized in that the ultrasonic disperser sprays water into finely dispersed components with a particle size of the order of 2 ... 10 microns. 4. The device according to claim. 1, characterized in that the means for supplying water to the ultrasonic disperser is made in the form of a pipeline connecting the disperser with a container with water by means of a pump.

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