CN207934144U - A kind of gas production operation area drainage system - Google Patents

Abstract

The utility model embodiment discloses a kind of gas production operation area drainage system, including the first upstream inpoundment pond, the second upstream inpoundment pond, the second lower reservoir and the first lower reservoir, the first linker is equipped between first upstream inpoundment pond and the second upstream inpoundment pond, it is equipped with booster pump in first lower reservoir, third connecting device is equipped between second upstream inpoundment pond and first lower reservoir；The 4th linker is equipped between first lower reservoir and second lower reservoir, 4th linker is three-port structure, the third opening of 4th linker is located in first lower reservoir, check valve is equipped in second opening, first opening is higher than second opening and third opening.It can effectively improve the capacity of spare cistern using the technical solution that the utility model embodiment is provided, and prevent overflow.

Description

A kind of gas production operation area drainage system

Technical field

The utility model is related to gas production technical field of operation, more particularly to a kind of gas production operation area drainage system.

Background technology

Natural gas refers to the mixture for naturally containing hydro carbons and non-hydrocarbon gases in stratum, is primarily present in oil field Gas, reservoir gas, coal bed gas, gas of mud volcano and biology generate in gas.It is begun to rehearse by gas well in gas production operation area and adopts the same of natural gas When will produce a certain amount of moisture.By taking suitable 4-13 raised platforms around a well as an example, totally 4 mouthfuls of wells, daily gas total amount are 6247m to the raised platform around a well³, produce water daily Total amount is 2.5 sides.The mining environmental pollution by water of gas well in order to prevent, it usually needs uniformly handled after collecting mining water.

Fig. 1 is a kind of gas production operation area drainage system structural schematic diagram in the prior art, and two upstreams are shown in FIG. 1 Cistern, the first upstream inpoundment pond 101 and the second upstream inpoundment pond 102；And two lower reservoirs, the first lower reservoir 103 and second lower reservoir 104.Wherein, the first upstream inpoundment pond 101 is connected to the second upstream inpoundment pond 102 by first Device 105 is connected to, and opening of first linker 105 in the first upstream inpoundment pond 101 and the second upstream inpoundment pond 102 is in In same level, and close to the bottom in the first upstream inpoundment pond 101 and the second upstream inpoundment pond 102；First lower reservoir 103 are connected to the second lower reservoir 104 by the second linker 106, and second linker 106 is in the second lower reservoir Opening in 104 is higher than the opening in the first lower reservoir 103.

The first upstream inpoundment pond 101 is initially injected when upland water, since the first upstream inpoundment pond 101 and the second upstream store Pond 102 is connected to by the first linker 105, therefore the first upstream inpoundment pond 101 and the second upstream inpoundment pond 102 keep same Water level.Mining water in upstream inpoundment pond is transported to the second lower reservoir 104 by modes such as vehicle ropings, by the second downstream Booster pump 107 in cistern 104 is delivered to sewage treatment plant, realizes the centralized processing of mining water.Wherein, when the second downstream Water level in cistern 104 is more than the row in the second lower reservoir 104 after aperture position of second linker 106 in it Water acquisition can inject the first lower reservoir 103 via the second linker 106.That is, the second lower reservoir 104 is as master Cistern, the first lower reservoir 103 inject spare water storage as spare cistern when the water level in main cistern is excessively high It is kept in pond.

But when upland water amount is excessive or the second lower reservoir 104 in 107 failure of booster pump when, due to The capacity of one lower reservoir is smaller, and mining water is easy to excessive, leads to serious water pollution.

Utility model content

A kind of gas production operation area drainage system is provided in the utility model embodiment, to solve mining water in the prior art It is easy excessive, the problem of leading to water pollution.

In a first aspect, the utility model embodiment provides a kind of gas production operation area drainage system, including the first upstream stores Pond, the second upstream inpoundment pond, the second lower reservoir and the first lower reservoir, on first upstream inpoundment pond and second It is equipped with the first linker between trip cistern, booster pump is equipped in first lower reservoir,

Third connecting device, the third connecting are equipped between second upstream inpoundment pond and first lower reservoir Opening of the device in second upstream inpoundment pond and first lower reservoir is in same level；

The 4th linker, the 4th connection are equipped between first lower reservoir and second lower reservoir Device is three-port structure, wherein the first opening and the second opening of the 4th linker are located in second lower reservoir, The third opening of 4th linker is located in first lower reservoir, and check valve, institute are equipped in second opening The first opening is stated higher than second opening and third opening；

Wherein, when the first side hydraulic pressure of the check valve is more than the second side hydraulic pressure, the check valve conducting；When the list When being less than or equal to the second side hydraulic pressure to the first side hydraulic pressure of valve, the check valve is closed；First side is close to described first Lower reservoir, the second side is close to second lower reservoir.

Optionally, the second opening and third opening of the 4th linker are located in the same horizontal plane.

Optionally, the third opening of the 4th linker is higher than the third connecting device in first lower reservoir Interior opening.

Optionally, the 4th linker second opening and the third opening be located at first lower reservoir and The middle part of second lower reservoir.

Optionally, opening of the third connecting device in second upstream inpoundment pond and first lower reservoir Bottom positioned at second upstream inpoundment pond and first lower reservoir.

The technical solution that the utility model embodiment is provided has the following advantages：

1, the second upstream inpoundment pond is connected to by third connecting device with the first lower reservoir, is equivalent to while by first Upstream inpoundment pond, the second upstream inpoundment pond and the first lower reservoir spare cistern as the second lower reservoir simultaneously, Improve the reservoir storage of spare cistern.

2, the first lower reservoir and the second lower reservoir are connected to by the 4th linker, when the second lower reservoir When interior water level is more than the first opening, the water in the second lower reservoir is automatically injected the first lower reservoir, and then can note Enter the first upstream inpoundment pond and the second upstream inpoundment pond, prevents overflow；When the water level in the second lower reservoir is opened less than second When mouth, check valve is opened, and the water in the first lower reservoir is automatically injected the second lower reservoir.

3, the mining water in the first upstream inpoundment pond and the second upstream inpoundment pond can be automatically injected the second lower reservoir, Save manpower.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, for ordinary skill people For member, without creative efforts, other drawings may also be obtained based on these drawings.

Fig. 1 is a kind of gas production operation area drainage system structural schematic diagram in the prior art；

Fig. 2 is a kind of gas production operation area drainage system structural schematic diagram that the utility model embodiment provides；

Fig. 3 is a kind of structural schematic diagram for 4th linker that the utility model embodiment provides；

Symbolic indication in figure is：The first upstream inpoundments of 101- pond, the second upstream inpoundments of 102- pond, the first downstreams 103- store Pond, the second lower reservoirs of 104-, the first linkers of 105-, the second linkers of 106-, 107- booster pumps, 108- third connectings Device, the 4th linkers of 109-, 201- first are open, and 202- second is open, 203- thirds opening, 204- check valves.

Specific implementation mode

In order to make those skilled in the art more fully understand the technical solution in the utility model, below in conjunction with this reality With the attached drawing in new embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that The described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.Based on the utility model In embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example should all belong to the range of the utility model protection.

Fig. 2 is a kind of gas production operation area drainage system structural schematic diagram that the utility model embodiment provides, such as Fig. 2 institutes Show, a kind of gas production operation area drainage system that the utility model embodiment provides includes the first upstream inpoundment pond 101, the second upstream Cistern 102, the second lower reservoir 104 and the first lower reservoir 103, on first upstream inpoundment pond 101 and second It swims and is equipped with the first linker 105 between cistern 102, be equipped with booster pump 107 in first lower reservoir 103, described the Third connecting device 108, the third connecting device 108 are equipped between two upstream inpoundment ponds 102 and first lower reservoir 103 Opening in second upstream inpoundment pond 102 and first lower reservoir 103 is in same level.

The 4th linker 109 is equipped between first lower reservoir 103 and second lower reservoir 104.Fig. 3 For a kind of structural schematic diagram for 4th linker that the utility model embodiment provides, as shown in figure 3, the 4th linker 109 be three-port structure, wherein the first opening 201 and the second opening 202 of the 4th linker are located at second downstream and store In pond 104, the third opening 203 of the 4th linker is located in first lower reservoir 103, second opening Check valve 204 is equipped in 202, first opening 201 is higher than second opening 202 and third opening 203.Wherein, When the first side hydraulic pressure of the check valve 204 is more than the second side hydraulic pressure, the check valve 204 is connected；When the check valve When 204 the first side hydraulic pressure is less than or equal to the second side hydraulic pressure, the check valve 204 is closed；First side is close to described One lower reservoir 103, the second side is close to second lower reservoir 104.

Optionally, the second opening 202 and third opening 203 of the 4th linker 109 are located at same level It is interior.

Optionally, the third opening 203 of the 4th linker 109 is higher than the third connecting device 108 described first Opening in lower reservoir 103.

Optionally, the second opening 202 and third opening 203 of the 4th linker 109 are located under described first Swim the middle part of cistern 103 and second lower reservoir 104.Wherein, the middle part refers to being stored apart from first downstream The position of the bottom 0.25H-0.75H of pond 103 and/or second lower reservoir 104, H are first downstream water storage The height of pond 103 and/or second lower reservoir 104.

Optionally, the third connecting device 108 is in second upstream inpoundment pond 102 and first lower reservoir Opening in 103 is located at the bottom in second upstream inpoundment pond 102 and first lower reservoir 103.The bottom is Span is from the position within the bottom 0.25L of second upstream inpoundment pond 102 and/or first lower reservoir 103, L For second upstream inpoundment pond 102 and/or the height of first lower reservoir 103.

The technical solution that the utility model embodiment is provided has the following advantages：

1, the second upstream inpoundment pond is connected to by third connecting device with the first lower reservoir, is equivalent to while by first Upstream inpoundment pond, the second upstream inpoundment pond and the first lower reservoir spare cistern as the second lower reservoir simultaneously, Improve the reservoir storage of spare cistern.

2, the first lower reservoir and the second lower reservoir are connected to by the 4th linker, when the second lower reservoir When interior water level is more than the first opening, the water in the second lower reservoir is automatically injected the first lower reservoir, and then can note Enter the first upstream inpoundment pond and the second upstream inpoundment pond, prevents overflow；When the water level in the second lower reservoir is opened less than second When mouth, check valve is opened, and the water in the first lower reservoir is automatically injected the second lower reservoir.

3, the mining water in the first upstream inpoundment pond and the second upstream inpoundment pond can be automatically injected the second lower reservoir, Save manpower.

It should be noted that herein, the relational terms of such as " first " and " second " or the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to Cover non-exclusive inclusion, so that the process, method, article or equipment including a series of elements includes not only those Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or setting Standby intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in the process, method, article or apparatus that includes the element.

The above is only specific embodiment of the present utility model, is made skilled artisans appreciate that or realizing this Utility model.Various modifications to these embodiments will be apparent to one skilled in the art, institute herein The General Principle of definition can be realized in other embodiments without departing from the spirit or scope of the present utility model. Therefore, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and original disclosed herein The reason widest range consistent with features of novelty.

Claims (5)

1. a kind of gas production operation area drainage system, including the first upstream inpoundment pond (101), the second upstream inpoundment pond (102), second Lower reservoir (104) and the first lower reservoir (103), first upstream inpoundment pond (101) and the second upstream inpoundment pond (102) it is equipped with the first linker (105) between, booster pump (107), feature are equipped in first lower reservoir (103) It is,

Third connecting device (108) is equipped between second upstream inpoundment pond (102) and first lower reservoir (103), Opening of the third connecting device (108) in second upstream inpoundment pond (102) and first lower reservoir (103) In same level；

The 4th linker (109) is equipped between first lower reservoir (103) and second lower reservoir (104), 4th linker (109) is three-port structure, wherein the first opening (201) and the second opening of the 4th linker (202) it is located in second lower reservoir (104), the third opening (203) of the 4th linker is located at described first In lower reservoir (103), check valve (204) is equipped in second opening (202), first opening (201) is higher than institute State the second opening (202) and third opening (203)；

Wherein, when the first side hydraulic pressure of the check valve (204) is more than the second side hydraulic pressure, check valve (204) conducting；When When first side hydraulic pressure of the check valve (204) is less than or equal to the second side hydraulic pressure, the check valve (204) is closed；Described Side is close to first lower reservoir (103), and the second side is close to second lower reservoir (104).

2. gas production operation area according to claim 1 drainage system, which is characterized in that the 4th linker (109) Second opening (202) and third opening (203) are located in the same horizontal plane.

3. gas production operation area according to claim 2 drainage system, which is characterized in that the 4th linker (109) Third is open (203) higher than opening of the third connecting device (108) in first lower reservoir (103).

4. gas production operation area according to claim 2 drainage system, which is characterized in that the 4th linker (109) Second opening (202) and third opening (203) are located at first lower reservoir (103) and second downstream water storage The middle part in pond (104).

5. gas production operation area according to claim 1 drainage system, which is characterized in that the third connecting device (108) exists Opening in second upstream inpoundment pond (102) and first lower reservoir (103) is located at second upstream inpoundment The bottom in pond (102) and first lower reservoir (103).