KR200462164Y1 - Recovery Apparatus for Waste high pressure gas - Google Patents

Abstract

The present invention relates to a waste high pressure gas recovery apparatus for recovering the used high pressure gas, and more particularly, to reduce the pressure of the waste high pressure gas to recover to the low pressure unit, and only the residual amount of gas below the gas pressure in the low pressure unit to the atmosphere. It relates to a waste high pressure gas recovery device to be dissipated.
The waste high pressure gas recovery device of the present invention having the above configuration can recover about 88% or more of the waste high pressure gas, thereby reducing the cost of gas loss.
In addition, it is easy to use due to the light weight of the equipment, there is an effect that prevents pollution to the air environment because the emission gas is reduced.

Description

Recovery Apparatus for Waste high pressure gas}

The present invention relates to a waste high pressure gas recovery apparatus for recovering the used high pressure gas, and more particularly, to reduce the pressure of the waste high pressure gas to recover to the low pressure unit, and only the residual amount of gas below the gas pressure in the low pressure unit to the atmosphere. It relates to a waste high pressure gas recovery device to be dissipated.

In the city gas production facility or city gas supply facility, waste high pressure gas generated from gas heaters, gas filters, constant pressure regulators, and pipe sections operating at 7 Mpa or more is not easy to recover, and to recover waste high pressure gas. It is difficult to recover waste high pressure gas because expensive equipment has to be operated and operating costs are also high.

In addition, when the waste high pressure gas is radiated to the atmosphere as it is, environmental pollution is concerned, and since the waste high pressure gas that is recyclable is discarded, there is a problem that the gas loss cost increases. Therefore, there is an urgent need to develop waste high pressure gas recovery technology that can efficiently and easily recover waste high pressure gas in a short time.

The present invention was devised to solve the above problems, and the object of the present invention is to reduce the pressure of the waste high pressure gas by using a gas pressure regulator to transfer to a low pressure unit operating low pressure gas of 0.85 Mpa or less, waste high pressure gas It is to provide a waste high pressure gas recovery apparatus to increase the recovery efficiency of.

Waste high pressure gas recovery device of the present invention is a high pressure inlet unit 30 for receiving waste high pressure gas; A high pressure line 91 having one end connected to the high pressure inlet 30 to supply waste high pressure gas to the other end; A pressure regulator 10 connected to the high pressure line 91 to convert waste high pressure gas into low pressure gas; A low pressure line 92 having one end connected to the pressure regulator 10 to supply low pressure gas to the other end; A low pressure discharge part 50 connected to the other end of the low pressure line 92 to discharge low pressure gas; A dissipation line 94 having one end connected in parallel on the low pressure line 92 to receive the low pressure gas and to supply it to the other end; And a dissipation discharge part 40 connected to the other end of the dissipation line 94 to discharge dissipation gas. And a control unit.

At this time, the recovery device, one end is connected in parallel to the high pressure line 91, the other end is connected in parallel to the low pressure line 92, the high pressure gas supplied through the high pressure line 91 to the low pressure line A bypass line 93 for supplying to 92; And a bypass valve 20 installed on the bypass line 93 to open or close the bypass line 93. And a control unit.

In addition, the high pressure line 91 is characterized in that the gas filter 80 for filtering the high pressure gas is provided.

In addition, the recovery device, the high pressure measuring line 95, one end is connected in parallel on the high pressure line (91); A high pressure manometer 60 connected to the other end of the high pressure measuring line 95; A low pressure measuring line 96 having one end connected in parallel on the dispersing gas line 94; And a low pressure gauge 70 connected to the other end of the low pressure measuring line 96. Characterized in that is provided.

The waste high pressure gas recovery device of the present invention having the above configuration can recover about 88% or more of the waste high pressure gas, thereby reducing the cost of gas loss.

In addition, it is easy to use due to the light weight of the equipment, there is an effect that prevents pollution to the air environment because the emission gas is reduced.

1 is a schematic diagram of a waste high pressure gas recovery device of the present invention

Hereinafter, an embodiment of the present invention as described above will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the waste high pressure gas recovery device of the present invention includes a pressure regulator 10, a bypass valve 20, a high pressure inlet part 30, a discharge discharge part 40, a low pressure discharge part 50, and a high pressure pressure gauge. (60), low pressure gauge (70), gas filter (80), high pressure line (91), low pressure line (92), bypass line (93), dissipation line (94), high pressure measurement line (95) and low pressure measurement Line 96.

The high pressure inlet 30 is formed to introduce waste high pressure gas into the apparatus. The high pressure inlet unit 30 may be connected to the high pressure unit of the gas supply equipment. The high pressure inlet 30 may be a conventional configuration for receiving a high pressure gas of 7Mpa or more.

One end of the high pressure line 91 is connected to the high pressure inlet 30, and the other end thereof is connected to the pressure regulator 10. The high pressure line 91 may be used a conventional gas hose pipe for flowing a high pressure gas. The high pressure line 91 receives the high pressure gas from the high pressure inlet 30 and supplies the pressure regulator 10 to the pressure regulator 10.

In this case, a gas filter 80 may be installed on the high pressure line 91. The gas filter 80 is configured to filter the high pressure gas flowing on the high pressure line 91.

In addition, one end of the high pressure measurement line 95 is connected in parallel on the high pressure line (91). The other end of the high pressure measuring line 95 is connected to a high pressure pressure gauge 60 to measure the pressure of the high pressure gas flowing through the high pressure line 91. The measurement range of the high pressure manometer 60 is appropriate about 0 ~ 100Mpa.

The pressure regulator 10 is connected to the other end of the high pressure line 10. The pressure regulator 10 serves to reduce the pressure by receiving the high pressure gas from the high pressure line (10). That is, a high pressure gas having a pressure of about 7 Mpa is converted into a low pressure gas having a pressure of about 0.85 Mpa which is the same as the gas pressure in the low pressure unit. The pressure regulator 10 can be applied to a conventional gas pressure reducing device, a detailed description thereof will be omitted.

One end of the low pressure line 92 is connected to the pressure regulator 10, and the other end thereof is connected to the low pressure discharge unit 50. The low pressure line 92 may be a conventional gas hose pipe for flowing a low pressure gas. The low pressure line 92 receives the low pressure gas from the pressure regulator 10 and serves to supply the low pressure discharge unit 50.

The low pressure discharge unit 50 is formed to discharge the low pressure gas to the outside of the device. The low pressure discharge unit 50 may be connected to the low pressure unit of the gas supply equipment. The low pressure discharge unit 50 may be a conventional configuration for discharging the low pressure gas of about 0.85Mpa.

One end of the dissipation line 94 is connected in parallel on the low pressure line 92, and the other end thereof is connected to the dissipation discharge portion 40. The dissipation line 94 may be used a conventional gas hose pipe for flowing a low pressure gas of 0.85Mpa or less. The dissipation line 94 serves to receive the low pressure gas from the low pressure line 92 and supply it to the dissipation discharge unit 40.

The dissipation discharge part 40 is formed to discharge the remaining gas to the atmosphere after discharging the low pressure gas through the low pressure discharge part 50 to the outside of the apparatus. The dissipation discharge unit 40 may be a conventional configuration for receiving a low pressure gas of 0.85Mpa or less.

One end of the low pressure measuring line 96 is connected in parallel on the dissipation line 94. The other end of the low pressure measuring line 95 is connected to a low pressure gauge 70 is to measure the pressure of the low pressure gas flowing through the low pressure line 92 and the dissipation line 94. The measurement range of the low pressure gauge 70 is appropriate about 0 ~ 5Mpa.

At this time, the waste high pressure gas recovery apparatus of the present invention has the following configuration in order to quickly depressurize the inside of the waste high pressure gas recovery apparatus in case of an emergency or failure of the pressure regulator 10.

One end of the bypass line 93 is connected in parallel on the high pressure line 91, and the other end thereof is connected in parallel on the low pressure line 92. The bypass line 93 receives the high pressure gas from the high pressure line 91 and supplies the high pressure gas onto the low pressure line 92 so that the high pressure gas is bypassed without passing through the pressure regulator 10. In addition, a bypass valve 20 may be installed on the bypass line 93. The bypass valve 20 allows the bypass line 93 to be sealed or opened as necessary so that the bypass line 93 can be opened only in case of emergency. In addition, after the recovery of the waste high pressure gas is completed, the bypass line 93 is opened to make the pressure in the high pressure line 91 and the low pressure line 92 equal to the pressure, and then the remaining gas remaining in the waste high pressure gas recovery device. It also serves to dissipate to the atmosphere through the dissipation discharge unit 40.

The technical spirit should not be interpreted as being limited to the above-described embodiment of the present invention. As well as the scope of application, various modifications are possible at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

10: pressure regulator 20: bypass valve
30: high pressure inlet 40: discharge dissipation
50: low pressure discharge unit 60: high pressure pressure gauge
70 low pressure gauge 80 gas filter
91: high pressure line 92: low pressure line
93: bypass line 94: defense line
95: high pressure measurement line 96: low pressure measurement line

Claims (4)

delete A high pressure inlet unit 30 for receiving waste high pressure gas;
A high pressure line 91 having one end connected to the high pressure inlet 30 to supply waste high pressure gas to the other end;
A pressure regulator 10 connected to the high pressure line 91 to convert waste high pressure gas into low pressure gas;
A low pressure line 92 having one end connected to the pressure regulator 10 to supply low pressure gas to the other end;
A low pressure discharge part 50 connected to the other end of the low pressure line 92 to discharge low pressure gas;
A dissipation line 94 having one end connected in parallel on the low pressure line 92 to receive the low pressure gas and to supply it to the other end;
A dissipation discharge part 40 connected to the other end of the dissipation line 94 to discharge dissipation gas;
One end is connected in parallel to the high pressure line 91, the other end is connected in parallel to the low pressure line 92 to supply the high pressure gas supplied through the high pressure line 91 to the low pressure line 92. Passline 93; And
A bypass valve 20 installed on the bypass line 93 to open or close the bypass line 93; Including;
The front end of the bypass line (93) on the high pressure line (91), the high pressure gas recovery apparatus, characterized in that the gas filter for filtering the high pressure gas (80) is provided.
delete The method of claim 2,
The recovery device,
A high pressure measurement line 95 having one end connected in parallel on the high pressure line 91;
A high pressure manometer 60 connected to the other end of the high pressure measuring line 95;
A low pressure measuring line 96 having one end connected in parallel on the dispersing gas line 94;
A low pressure gauge 70 connected to the other end of the low pressure measurement line 96;
Waste high pressure gas recovery apparatus characterized in that the provided.

Images