RU158000U1 - INSTALLING COARSE NATURAL GAS FROM SOLID PARTICLES IN THE PREMISES - Google Patents

Abstract

Installation for rough cleaning of solid particles of natural gas of high pressure, located in the room, and containing a vertically mounted housing, inlet and outlet nozzles and a flange sealed and permanently connected to the housing, the lid is hermetically and detachably connected to the housing flange, the glass is hermetically and permanently connected with an outlet pipe and located inside the housing, a vertically mounted filter cylindrical element, hermetically and detachably connected to the glass and located inside the housing, the seal is tightly and releasably connected to the upper end of the filtering cylindrical element, characterized in that the vertically mounted filtering cylindrical element is made in the form of a block of several vertically mounted filtering cylindrical elements, one on top of the other, with a height of each equal to the total height of the block divided by the number of filtering cylindrical elements.

Description

The utility model relates to gas supply, in particular, to the purification of high pressure natural gas (GHG) from solid particles and can be used in coarse treatment plants (UGO) located as part of gas control points (HF) operated in the premises.

A known installation of rough cleaning from solid particles of high pressure GHGs located in the room and containing a vertically mounted housing with a small ratio of its height to diameter, inlet and outlet pipes and flange are hermetically and permanently connected to the housing, the cover is hermetically and detachably connected to the housing flange, a glass located inside the housing and hermetically and permanently connected to the outlet pipe, one filtering cylindrical element located inside the housing and hermetically and detachably connected th with a glass, the cover is hermetically and detachably connected to the upper end of the filtering cylindrical element.

Natural gas through the inlet pipe enters the housing, then passes through the outer surface of the filtering cylindrical element, is collected in it, then through the glass enters the outlet fitting of the housing, from where it is supplied to the gas equipment. Solid particles in the gas partially settle on the outer surface of the filtering cylindrical element from a woven metal mesh, and partially fall down, where they settle and accumulate at the bottom of the casing [see p. 326-327. Directory. Industrial gas equipment. Saratov: Gazovik, 2010. 992 s].

However, a disadvantage of the known device is the high specific metal consumption of the casing of the GHG treatment plant, flanges, removable housing cover, due to the small ratio of the height of the UGO casing to its diameter. The ratio of the height of the housing to its diameter for the known UGO is 1.7-2.0. For UGOs working under pressure, the wall thickness of the case, the area, and, as a consequence, the metal consumption increase significantly with increasing diameter. The high specific metal consumption of the known UGO case is also due to the low value of the filtering surface of the filtering cylindrical element located in a unit of the internal volume of the case.

Closest to the claimed utility model is UGO for cleaning high-pressure GHG particulate matter, placed in a room and containing a vertically mounted housing with an optimal ratio of its height to diameter, inlet and outlet nozzles and a flange sealed and permanently connected to the housing, the cover is hermetically and detachably connected to the housing flange, the cup is hermetically and permanently connected to the outlet pipe and located inside the housing, one filtering cylindrical element is hermetically and integrally but coupled with the nozzle and inside the body cover and releasably sealingly connected to the upper end of the cylindrical filter element [v. p. 63-78, 81, 84-89. Theoretical and applied fundamentals of increasing the efficiency and safety of operation of coarse purification of natural gas from solid particles in gas distribution systems / A.P. Usachev, A.L. Shuraits, S.V. Gustov: Saratov: Sarat. state tech. un-t, 2013. 172 s].

The advantage of the known device is the low specific metal consumption of the casing of the GHG cleaning unit, flange, removable cover, achieved by optimizing the ratio of the height of the UGO casing to its diameter and by increasing the filtering surface of the filtering cylindrical element located in a unit of the internal volume of the casing.

According to [see p. 63-78, 81 Theoretical and applied principles for increasing the efficiency and safety of operation of coarse purification of natural gas from solid particles in gas distribution systems / A.P. Usachev, A.L. Shuraits, S.V. Gustov: Saratov: Sarat. state tech. un-t, 2013. 172 s], the optimal value of the ratio of the height of its body to the diameter, equal to 5.5, corresponds to the minimum metal consumption of UGO.

A disadvantage of the known device is an increase in the height and, consequently, the area of the external walls of the room for the UGO, due to the need to completely remove one solid filter cylindrical element from a vertically installed housing for cleaning from solid particles with an optimal ratio of its height to diameter equal to 5.5. The height of the integral cylindrical filtering element, in this case, is 0.6 of the height of the UGO body, and its complete extraction will require an increase in height and, therefore, material for the construction of the outer walls of the room to accommodate the UGO.

The objective of this utility model is to reduce the material consumption of the external walls of the room to accommodate the installation of rough cleaning of natural gas.

The technical result achieved in solving the problem is to reduce the height and, therefore, the material consumption of the outer walls of the room to accommodate the UGO by performing a filtering cylindrical element not from a solid device, but in the form of a block of several vertically arranged filtering cylindrical elements, one on top of the other, with the height of each of them equal to the total height of the block divided by the number of filtering cylindrical elements.

The problem is achieved in that in the known installation of rough cleaning of solid particles of natural gas of high pressure, placed in the room and containing a vertically mounted housing, inlet and outlet nozzles and flange, hermetically and permanently connected to the housing, the cover is hermetically and detachably connected to the housing flange , the glass is hermetically and permanently connected to the outlet pipe and located inside the housing, a vertically mounted filter cylindrical element is hermetically and releasably connected with a glass and inside the case, the cover is hermetically and detachably connected to the upper end of the filtering cylindrical element, according to the proposed solution, a vertically mounted filtering cylindrical element is made in the form of a block of several vertically mounted filtering cylindrical elements, one on top of the other, with a height of each of them, equal to the total block height divided by the number of filtering cylindrical elements.

The proposed utility model is illustrated in the drawing, which shows a diagram of the installation of rough gas purification. The positions in the drawing indicate the following: 1 - housing; 2 - inlet pipe; 3 - flange; 4 - housing cover; 5 - a glass; 6 - outlet pipe; 7, 8 - vertically mounted filtering cylindrical elements; 9 - a cover for overlapping the upper end of the upper filtering cylindrical element.

The coarse installation of high-pressure natural gas placed in the room contains: a vertically mounted housing 1, an inlet pipe 2 and a flange 3, hermetically and permanently connected to the housing 1, a cover 4, hermetically and releasably connected to the flange 3 of the housing 1, glass 5, hermetically and permanently connected to the outlet pipe 6 and located inside the housing 1, a block of several vertically mounted filtering cylindrical elements 7 and 8, in an amount of at least two, one above the other, hermetically and detachably connected to Takanen 5, the cover 9 is hermetically and releasably connected to the upper end of the upper cylindrical filter element 8.

Coarse installation works as follows. Natural gas, untreated from solid particles (shown in the drawing on a dark background) through the inlet pipe 2 enters a vertically mounted housing 1, simultaneously passes through the side filter surfaces of several vertically mounted filter cylindrical elements 7 and 8, one on the other, in an amount of at least two and thus cleared of solid particles.

Purified natural gas (shown in the drawing as a light background) is collected in the internal volume of the hollow filtering cylindrical elements 7 and 8, from where it enters gas equipment through the glass 5 through the outlet pipe 6 of the housing 1. At the same time, the cover 9, hermetically and detachably connected to the upper end of the upper filtering cylindrical element 8, prevents the entry of untreated gas into the inner space of the filtering cylindrical elements 7 and 8, where the purified natural gas is collected.

When passing through the side filter surfaces of the filtering cylindrical elements 7 and 8, solid particles partially settle on these surfaces from a woven metal mesh, and partially fall down and settle on the bottom of the housing 1.

If the outer surface of the filtering cylindrical elements 7 and 8 becomes clogged with solid particles to the calculated level, the gas supply to the UGO is blocked, it is purged with inert gas, the covers 4 and 9 are removed, vertically mounted filter cylinders 7 and 8 are removed and they are cleaned of solid particles. The extraction of filtering cylindrical elements is carried out in the following sequence: first, the upper filtering cylindrical element 8 is removed, then the others in turn, with a total of at least two. The use of a block of several vertically mounted filtering cylindrical elements 7 and 8, in an amount of at least two, one on top of the other, with a height of each of them equal to the total height of the block divided by the number of filtering cylindrical elements, leads to a reduction in the height of the room for UGO, and material for the construction of external walls.

Using the proposed devices for rough cleaning of natural gas from solid particles as part of gas control points installed in the premises will reduce the material consumption of the external walls, as well as the heat consumption for heating the room.

Claims (1)

Installation for rough cleaning of solid particles of high-pressure natural gas, located in the room, and containing a vertically mounted housing, inlet and outlet nozzles and a flange, tightly and permanently connected to the housing, the lid is hermetically and detachably connected to the housing flange, the glass is hermetically and permanently connected with an outlet pipe and located inside the housing, a vertically mounted filter cylindrical element, hermetically and detachably connected to the glass and located inside the housing, the seal is tightly and releasably connected to the upper end of the filtering cylindrical element, characterized in that the vertically mounted filtering cylindrical element is made in the form of a block of several vertically mounted filtering cylindrical elements, one on top of the other, with a height of each equal to the total height of the block divided by the number of filtering cylindrical elements.

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