SU1343195A1 - Air heating system of main gas line compressor station - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning and reduces the fire hazard of a station with rooms of various fire hazard categories. The active nozzle 35 of each of the ejectors 34 installed in the exhaust shafts is connected to the corresponding shaft, and the passive nozzle 36 is connected to a distribution duct (BB) 18 by means of control valves 37 18. At the connection points to the ventilation chambers, the BB 18 is located relative to them with air gap. In the area of the gap, the BB 18 is equipped with a protective screen and output control gates. The presence of a gap eliminates the possibility of overflow through explosives or the accumulation of toxic gases and flammable gas mixtures in them. The protective screen protects the warm air entering the ventilation chambers from wind pressure. 5 z.p.-- f-ly, 6 ill. ((L L M with 4U bo co

Description

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The invention relates to the technique of ventilation and air conditioning.

The purpose of the invention is to reduce the fire hazard of the compressor station of the main gas pipeline with rooms of various fire hazard categories.

Fig. 1 shows a basic diagram 1a of the air heating system of the compressor station of the main gas pipeline, having rooms of different fire risk categories; Fig. 2 shows the connection scheme of a distribution duct to a ventilation chamber with a protective screen, made in the form of canopies; FIG. 3 is a diagram of the connection of the distribution duct to the ejector installed at the exhaust shaft; Fig. A shows a connection diagram of a distribution duct, to a ventilation chamber with a protective screen, made in the form of coaxally arranged truncated cones; in Fig. 5, two oppositely located sections of the wall of the distribution duct, made in the form of rotary doors; figure 6 is the same, the valves are angled to each other.

The air heating system of the compressor station of the main gas pipeline, which has rooms 1–9 (FIG. 1) of a different fire hazard category, contains heat exchangers installed in exhaust shafts 10 and 11 of compressor drives (not shown), nozzles 12 and 13, inlet pipes 14 and 15 each of which is in communication with the atmosphere, and the outlet pipes 16 and 17 are connected with a distribution duct 18 connected to the ventilation chambers 19-23 and two-cavity flow heaters 24-27.

The inlet 28 of the ventilation chambers 19-23 is in communication with the atmosphere, the outlet 29 (Fig. 2) with supply air ducts (not shown) is connected with the corresponding and premises 1-9.

The first cavity 30 of each heater 24-27 is in communication with the atmosphere and the corresponding room 1-9, and the second cavity 31 is connected with the distribution duct 18 and the corresponding ventilation chambers 19-23.

Distribution duct 18 is connected by recirculation ducts 32 and 33 to the inlet ports.

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The cuttings 14 and 15 of heat exchangers 12 and 13.

An ejector 34 (FIG. 3) is installed on each of the exhaust shields 10 and 11, the active nozzle 35 of which is connected to the corresponding shaft 10 and 11, and the passive nozzle 36 by means of an adjusting flap 37 to the distribution duct 18.

The distribution duct 18 at the points of connection to the ventilation chambers 19-23 is positioned relative to them with the formation of an air gap 38 (FIGS. 2 and 4) and is provided in the area of the gap 38 with a protective screen made in the form of visors 39 located on both sides of the distribution duct 18 (Fig. 2), or in the form of coaxially arranged truncated cones 40 (Fig. 4), mounted coaxially with the distribution duct 18, with the smaller bases of the cones 40 facing the ventilation chambers 19-23, having shells 41 with regulating members 42 , and in the distribution duct there is an output control gate-; 43

The distribution duct 18 has a turning section 44 (FIG. 2), provided with switching elements 45 and 46 installed on both sides of it.

Inlet ports 14 and 15 and outlets 16 and 17 pipes can be interconnected by means of bypass ducts 47 and 48, distribution duct 18 can be connected to backup heat source 49, and rooms 1–9 can have a recirculation channel 50.

In addition, two oppositely located sections of the wall of the distribution duct 18 can be made in the form of rotary flaps 51 and 52 (FIGS. 5 and 6), and an adjustable element 53 can be installed in the distribution duct 18 (FIG. 2).

The air heating system of the compressor station of the main gas pipeline with premises of various fire hazard categories works as follows.

Outside air through the inlet pipes 14 and 15 enters the heat exchangers 12 and 13, is heated by the heat of the exhaust gases emitted into the atmosphere through the exhaust shafts 10 and 11, and then through the distribution box.

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The air duct 18 is supplied to the respective ventilation chambers 19-23 and two-cavity flow heaters 2i + -27 rooms 1-9.

If it is necessary to increase the temperature of the outside air entering through the air inlets 14 and 15, part of the air heated in the heat exchangers 12. and 13 can be returned through the recirculation air ducts 32 and 33 again to the input of the heat exchangers 12 and 13.

Depending on which category of fire hazard the rooms 1–9 belong to, the latter can be equipped with either ventilation chambers 19–23 or flow heaters 24–27.

In the first case, the warm air heated by the heat utilizers 12 and 13 flows through the distribution duct 18 to the ventilation chambers 19-23, mixed with the outside air, after which the air mixture flows through the supply duct to the corresponding rooms 2-6 and 9.

At the same time, recirculation channel 50 can be used.

In the second case, the warm air heated in the heat utilizers 12 and 13 enters the distribution duct 18 in the cavity 31 of the flow heaters 24-27 and heats the outside air entering the rooms 1, 3, 7 and 8 through the cavities 30 of the heaters 24-27.

The cooled air from the cavities 31 of the preheaters 24-27 can then be supplied to the ventilation chambers 19-23 for mixing with warm and outside air.

In order to eliminate the possibility of overflow through the air ducts or the accumulation of toxic and flammable gas mixtures in them, the distribution duct 18 at the points of connection to the ventilation chambers 19-23 is positioned relative to them with the formation of an air gap 38.

When the air heating system is operating in the ventilation chambers 19-23, a certain vacuum is maintained.

In order to protect the wind pressure on the air entering the ventilation chambers 19-23, the warm air in the air gap 38 has a protective screen, which can be

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made in the form of visors 39, located on both sides of the distribution duct, or in the form of coaxially located 1 | x truncated cones 40.

During the warm period of the year, the output control valves 43 are set to the closed position.

The possible accumulations of gas mixtures formed in the intake ducts through the ventilation chambers 19-23 are dispersed in the atmosphere that is not penetrated into the distribution duct 18.

In order to increase the sealing of the distribution duct 18, the rotary portions 44 can be made in the latter on the side of the ventilation chambers 19-23, which turn to a position perpendicular to the axes of the distribution duct 18, and the switching elements 45 and 46 are set to the closed position.

For the same purpose, two opposedly located sections of the wall of the distribution duct 18 can be made in the form of rotary flaps 51 and 52, simultaneously blocking the flow area of the duct 18.

When the peryjuipvn is open, - the flaps 37 and the switching - elements 53 are blown through the distribution duct 18 with the outside air using pp - cutting generated into the duct - 18 by the ejector 34.

Claims (6)

1. The air heating system of the compressor station of the main gas pipeline, which has rooms of various fire hazard categories, contains heat exchangers installed in the exhaust mines of the compressor drives, the inlet pipe of each of which is connected to the atmosphere, and the outlet air duct connected to the ventilation chambers and two-cavity flow heaters, the inlet of the ventilation chambers communicating with the atmosphere, the exit through the supply air ducts with the corresponding rooms E, the first cavity of each heater - to the atmosphere and placed second, with a distribution air duct, and the latter is connected by means of recirculation air ducts to the inlet pipes of heat exchangers, which, in order to reduce fire hazard, the system additionally contains ejectors installed in the exhaust shafts, each with an active nozzle connected to the mine, and passive with the help of regulating dampers to the distribution duct and the latter is located relatively to them in connection with the ventilation chambers with the formation of an air gap ra and is provided in the area of the gap with a protective screen and output control gates. 2. Pop. 1 system, distinguished by the fact that the second cavities of the heaters are additionally reported with ventilation chambers. 3. Pop. 1 system, characterized by the fact that the protective screen is designed as a coaxial arrangement of g 3195b truncated cones installed coaxially to the distribution duct, with the smaller bases of the cones facing the ventilation chambers and provided with shells with regulators located in them. 4. Pop-up system 1, characterized in that the distribution duct has a rotary portion provided with switching elements installed on either side thereof. 5. The system according to claim 1, characterized in that the two oppositely located sections of the wall of the distribution duct are made in the form of rotary flaps, simultaneously blocking the flow area of the duct. 6. The system according to claim 1, wherein the protective screen is made in the form of peaks located on both sides of the distribution duct. 2 J 9 Phage.1 Ejection of nonsense H ffu2. (Pu9.5 sixteen Editor N. Tupitsa Compiled by M.Rashepkin Tehred L. Serdyukova Order A810 / 38 Circulation 659 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, ul, Proektna, 4 Fi.6 Proofreader A.T. sko