RU146015U1 - AIR COOLING UNIT - Google Patents

Abstract

Air cooling apparatus, consisting of a heat exchanger block, a fan with a drive, supports, frames with a mesh and a filter cloth, equipped with curtains made of airtight material from the inside, characterized in that the frames with a mesh are installed between the extreme supports, lateral supports are installed on the corner supports vertical screens, which are connected from above by visor screens, while the outer edges of the visor screens are connected with fairings to the upper edges of the exhaust ducts.

Description

The utility model relates to the field of operation of compressor stations of main gas pipelines, in particular, air-cooling apparatuses for their group use.

At compressor stations of main gas pipelines, air cooling apparatus (ABO) is used as a means of cooling gas and oil, consisting of a heat exchange unit, a fan with a drive and supports, between which frames with a mesh and a filter cloth are installed / RF Patent No. 2200907. Air Cooler.

A disadvantage of the known ABO is the negative effect of the surface movement of air masses on the cooling efficiency of the compressed gas, because the wind passing between the ABO body and the ground weakens the air flow in the heat exchange unit due to the confuser effect.

The prototype of the utility model is an ABO, consisting of a heat exchange unit, a fan with a drive, supports, between which frames with a mesh and a filter cloth are installed, curtain curtains made of airtight material are installed on the inside of the mesh / RF Patent No. 2294501. Air Cooler.

The disadvantage of the prototype is the lack of efficiency in using the surface movement of air masses for gas cooling during group use of air cooling devices due to the mutual blocking effect of individual devices, since when collecting individual air cooling devices into a group to coordinate the opening of individual curtain-valves, a wind direction sensor is required, a program for coordinating the opening of individual curtain-valves and actuators for the execution of this program.

The objective of the utility model is to increase the heat transfer intensity by increasing the efficiency of using the surface movement of air masses when using air coolers in groups.

The technical result consists in a significant increase in the intensity of heat transfer due to the rational arrangement of grids and curtains-valves, an increase in the scale of the use of surface movement of air masses and an increase in the air flow rate in heat exchange units when using air coolers in a group.

This is achieved by the fact that in an air cooling apparatus consisting of a heat exchanger unit, a fan with a drive, supports, frames with a mesh and a filter cloth, equipped with curtains made of airtight material from the inside, according to a useful model, frames with a mesh are installed between the extreme supports, In addition, lateral vertical screens are installed on the corner supports, which are connected at the top by visor screens, while the outer edges of the visor screens are connected with hoods to the upper edges of the hood ABO's boxes.

The essence of the utility model is illustrated by the drawing, in which the following notation is adopted: 1 - block heat exchangers; 2 - fan with drive; 3 - supports (supports are divided into internal 3c and extreme 3k located along the boundaries of the ABO group; among the extreme there are four angular supports 3u); 4 - frame; 5 - mesh; 6 - filter cloth; 7 - curtain valve made of airtight material; 8 - side vertical screen; 9 - visor screen; 10 - fairing; 11 - exhaust duct. Callout I shows the operation of curtain-valves on the windward side of a group of air-cooling units. Callout II shows the operation of curtain-valves on the leeward side of a group of air-cooling units.

In the ABO group, consisting of heat exchange units 1, fans 2 with a drive, supports 3, between the outermost 3 of which frames 4 with a mesh 5 and a filtering cloth 6 are installed, curtains - valves 7 are made of airtight material, lateral vertical screens are installed on the corner supports 3y 8, connected from above by shields - visors 9, the upper edges of which by fairings 10 are connected to the upper edges of exhaust ducts 11 ABO. Vertical screens 8, visor screens 9 and fairings 10 can be made of both rigid flat elements and flat flexible elements, for example, webs stretched between stiffeners.

The proposed air cooling apparatus operates as follows.

When the wind occurs, the cooling of the natural gas transported through the pipes 1 intensifies due to their flow around the air stream combined for the entire ABO group, which has a lower temperature than compressed natural gas. In the absence of wind and the fan 2 is on, air passing from all sides, lifting the valve curtains through the filter cloth 6, is cleaned of organic and inorganic impurities, thereby significantly reducing the pollution of the heat exchanger tubes 1, which leads to the conservation of heat transfer over time. A mesh construction 5, for example, a metal one with a filter cloth 6, to which the curtain-valves 6 are suspended inside the blown space ensures the air is clean from impurities that can clog the annular space of the heat exchangers and the automatic movement of large volumes of air created by the vertical side shields is independent of the wind direction 8 and visor screens 9. At the same time, their rational arrangement provides a decrease in resistance to air entering the combined space between supports. The curtain-valves 7 on the reverse side are adjacent to the frames 4 with the mesh 5 and the filter cloth 6 attached only to the extreme supports 3k and block the air masses to exit the space between the extreme supports 3k, resulting in almost the same overpressure in a single space between supports, which leads to the movement of air masses only through heat exchangers of the ABO group. The fairing 10, connecting the outer edge of the visor screen 9 with the upper edge of the exhaust duct 11 ABO, reduces the turbulence of the air flow, leads to improved traction in the exhaust duct 11 of the heat exchanger.

The present invention allows to significantly intensify the process of cooling natural gas in air coolers by increasing the air flow in the exhaust ducts when using air coolers in groups, automatic independent of the direction of surface movement of air and the nature of the group ABO increase the efficiency of the heat-removable potential of the wind.

Claims (1)

Air cooling apparatus, consisting of a heat exchanger block, a fan with a drive, supports, frames with a mesh and a filter cloth, equipped with curtains made of airtight material from the inside, characterized in that the frames with a mesh are installed between the extreme supports, lateral supports are installed on the corner supports vertical screens, which are connected from above by visor screens, while the outer edges of the visor screens are connected with fairings to the upper edges of the exhaust ducts.