CN210814158U - Geothermal recharge filtration equipment - Google Patents

Abstract

The utility model relates to the technical field of terrestrial heat, in particular to geothermal recharge filtering equipment; the utility model comprises an input power container for introducing geothermal tail water, a primary filtering container for primary filtering of geothermal tail water and a high-efficiency filtering container for secondary filtering of geothermal tail water which are sequentially communicated; in the utility model, the containers are adopted, and only the external pipelines among the containers need to be connected, thereby greatly reducing the construction time and labor cost on site; therefore, the problem that the geothermal recharging equipment is not provided with a special area to be placed and the problem that the building is needed when the geothermal recharging equipment is placed are solved.

Description

Geothermal recharge filtration equipment

Technical Field

The utility model relates to a geothermol power technical field particularly, relates to a geothermal recharge filtration equipment.

Background

In recent years, with the coming of the ' thirteen-five ' plan for developing and utilizing geothermal energy ' in China, the geothermal energy is rapidly developed, and the geothermal heating technology is mature day by day.

The geothermal tail water recharging is an indispensable process for ensuring the sustainable utilization of geothermal resources, a geothermal tail water recharging and filtering system is a core system for ensuring the normal operation of recharging, the geothermal recharging is a technical measure for recharging water underground, the geothermal recharging is a powerful measure for realizing the sustainable development of geothermal resources, the geothermal recharging is widely applied in various countries in the world and has important significance on the aspects of protecting geothermal resources, reducing resource waste, prolonging the service life of a production well, reducing environmental pollution and the like, the adopted geothermal recharging measures comprise three types, namely ① well-layered recharging with the same well, namely recharging under the condition that two hot water layers exist in the geothermal well with the same eye, determining one hot water layer as a production layer and the other hot water layer as a recharging layer, ② well recharging, namely drilling two geothermal wells, determining one eye as the production well and the other eye as the recharging well, wherein the production layer and the same layer can be used, or different production wells and the recharging wells with the same layer can be used for maintaining reasonable distance, and ③ well recharging is needed for the geothermal resource.

At present, part of heating districts do not have enough fields or cannot cover houses in time to place geothermal recharging equipment, and normal operation of heating and recharging can be guaranteed.

Disclosure of Invention

In order to solve the problem, the utility model aims to provide a geothermal recharging filtration equipment adopts the container formula, only need connect each outside pipeline between the container can, reduced on-the-spot engineering time and cost of labor greatly.

The utility model aims at realizing through the following technical scheme:

the utility model provides a pair of geothermal recharge filtration equipment, wherein, including the input power container that is used for letting in geothermol power tail water that communicates in proper order, be used for carrying out primary filter's primary filter to geothermol power tail water and filtering the container with being used for carrying out secondary filter's high efficiency to geothermol power tail water and filtering the container.

As an improvement of the utility model, be provided with first connecting tube and set up in the input power container and be in be used for on the first connecting tube providing power for the input of geothermol power tail water the circulating pump and be used for providing power for the booster pump of recharging of geothermol power tail water, install first water inlet and first delivery port on the input power container, first connecting tube respectively with first water inlet and first delivery port are linked together.

As a further improvement of the utility model, a first valve is installed on the first connecting pipeline.

As a further improvement, the input power container is provided with an air compressor and an air storage tank which are used for supplying power for backwashing of the primary filtering container and the high-efficiency filtering container, and the air compressor is communicated with the first connecting pipeline.

As a further improvement, be provided with second connecting tube, switch board and setting in the just effect filters the container and is in a plurality of on the second connecting tube is arranged in filtering the just effect filter of geothermol power tail water foreign particle, just install second water inlet and second delivery port on the effect filters the container, the second connecting tube respectively with second water inlet and second delivery port are linked together, the switch board with just effect filter electric connection.

As a further improvement, the second valve is installed on the second connecting pipeline, the second valve with switch board electric connection.

As a further improvement of the present invention, the second connecting pipe is provided with a first electromagnetic flowmeter.

As a further improvement, be provided with the third connecting tube and set up in the high efficiency filtration container a plurality of on the third connecting tube is arranged in filtering the high efficiency filter of geothermol power tail water silt, install third inlet and third delivery port on the high efficiency filtration container, the third connecting tube respectively with third inlet and third delivery port are linked together.

As a further improvement of the present invention, a third valve is installed on the third connecting pipe.

As a further improvement of the present invention, the third connecting pipe is provided with a second electromagnetic flowmeter.

In the utility model, the containers are adopted, and only the external pipelines among the containers need to be connected, thereby greatly reducing the construction time and labor cost on site; therefore, the problem that the geothermal recharging equipment is not provided with a special area to be placed and the problem that the building is needed when the geothermal recharging equipment is placed are solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic view of the internal structure of the input power container of the present invention;

fig. 2 is a schematic view of the appearance structure of the input power container of the present invention;

fig. 3 is a schematic view of the internal structure of the primary filtering container of the present invention;

FIG. 4 is a schematic view of the shape and structure of the primary filtering container of the present invention;

FIG. 5 is a schematic view of the internal structure of the high efficiency filtering container of the present invention;

FIG. 6 is a schematic view of the shape and structure of the high-efficiency filtering container of the present invention;

wherein the reference numerals are: 1-input power container, 11-first connecting pipeline, 12-circulating pump, 13-booster pump, 14-first water inlet, 15-first water outlet, 16-air compressor, 17-air storage tank, 18-first valve, 19-lighting port, 110-external flange, 2-primary filter container, 21-second connecting pipeline, 22-control cabinet, 23-primary filter, 24-second water inlet, 25-second water outlet, 26-second valve, 27-first electromagnetic flowmeter, 28-first inlet and outlet door, 3-high efficiency filter container, 31-third connecting pipeline, 32-high efficiency filter, 33-third water inlet, 34-third water outlet, 35-third valve, 36-third electromagnetic flowmeter, 37-second access door.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

As shown in fig. 1 to 6, the utility model discloses a geothermal recharge filtration equipment, including the input power container 1 that is used for letting in the geothermal tail water that communicates in proper order, be used for carrying out the primary filter container 2 of first effect and be used for carrying out secondary filter's high efficiency filter container 3 to the geothermal tail water.

In the utility model, the containers are adopted, and only the external pipelines among the containers need to be connected, thereby greatly reducing the construction time and labor cost on site; therefore, the problem that the geothermal recharging equipment is not provided with a special area to be placed and the problem that the building is needed when the geothermal recharging equipment is placed are solved.

As shown in fig. 1 and 2, a first connecting pipeline 11, a circulating pump 12 arranged on the first connecting pipeline 11 and used for providing power for inputting geothermal tail water, and a booster pump 13 arranged on the first connecting pipeline 11 and used for providing power for recharging geothermal tail water are arranged in the input power container, a first water inlet 14 and a first water outlet 15 are arranged on the input power container 11, and the first connecting pipeline 11 is respectively communicated with the first water inlet 14 and the first water outlet 15; specifically, the first water inlet 14 is connected with a geothermal tail water pipe, geothermal tail water is introduced into the input power container 1 through the first water inlet 14 and is powered by the circulating pump 12, and the booster pump 13 provides power for recharging the geothermal tail water, so that the geothermal tail water is introduced into the first water inlet 14 at an accelerated speed and is output into the primary filtering container 2 through the first water outlet 15.

The utility model discloses in, for the break-make of controlling first connecting pipe 11 better, install first valve on first connecting pipe 11.

The utility model discloses in, still be provided with in the input power container 1 and be used for providing the air compressor machine 16 and the gas holder 17 that are linked together of power for the backwash of just imitating filtering container 2 and high-efficient filtering container 3, air compressor machine 16 and first connecting pipeline 11 intercommunication can conveniently just imitate the backwash of filtering container 2 through air compressor machine 16 and gas holder 17, wash its residue that filters the stay.

In the input power container 1, a circulating pump 12, a booster pump 13, an air compressor 16 and an air storage tank are fixed with a base of the input power container 1 by bolts, so that the vibration quantity is reduced, and the displacement caused by vibration is avoided; the wall of the input power container 1 is provided with a daylight opening 19 which can be observed outside conveniently; the first water inlet 14 and the first water outlet 15 are both provided with external flanges 110, which facilitate external pipelines.

As shown in fig. 3 and 4, a second connecting pipe 21, a control cabinet 22 and a plurality of primary filters 23 arranged on the second connecting pipe 21 and used for filtering impurity particles in geothermal tail water are arranged in the primary filtering container 2, a second water inlet 24 and a second water outlet 25 are arranged on the primary filtering container 23, the second connecting pipe 21 is respectively communicated with the second water inlet 24 and the second water outlet 25, and the control cabinet 22 is electrically connected with the primary filters 23; specifically, geothermal tail water is conveyed from the input power container 1 to the second water inlet 24, and is introduced into the second connecting pipeline 21 in the primary filter container 2, and then impurity particles in the geothermal tail water are filtered by the primary filter 23, as shown in fig. 3, preferably, 3 primary filters 23 are selected and connected in series on the second connecting pipeline 21 to filter the impurity particles in the geothermal tail water, so that the impurity particles in water are ensured not to block the groundwater layer when recharging, the geothermal reservoir is protected, and the purpose of sustainable energy utilization is achieved.

In the primary filtering container 2, in order to better control the on-off of the second connecting pipeline 21, a second valve 26 is installed on the second connecting pipeline 21, the second valve 26 is electrically connected with the control cabinet 22, and a first electromagnetic flowmeter 27 is installed on the second connecting pipeline 21, so that the water flow can be regulated and controlled; the primary filter 23, the control cabinet 22 and the base of the primary filter container 2 are fixed by bolts, so that the vibration amount is reduced, and the vibration is prevented from generating displacement. The primary filtering container 2 is provided with two first access doors 28 for people and equipment to enter and exit, and is convenient to install and maintain. The second water inlet 24 and the second water outlet 25 of the primary filtering container 2 are also provided with external flanges 110, which facilitate the communication of external pipelines.

As shown in fig. 5 and 6, a third connecting pipe 31 and a plurality of high efficiency filters 32 arranged on the third connecting pipe 31 for filtering the silt in the geothermal tail water are arranged in the high efficiency filtering container 3, a third water inlet 33 and a third water outlet 34 are arranged on the high efficiency filtering container 32, and the third connecting pipe 31 is respectively communicated with the third water inlet 33 and the third water outlet 34; specifically, the primary filtering container 2 transmits the geothermal tail water to the third water inlet 33 and leads the geothermal tail water into the third connecting pipeline 31, the high-efficiency filter 32 is used for filtering silt in the geothermal tail water, and preferably, the high-efficiency filter 32 adopts a 0.5 micron precision filter; and then is reinjected into the underground water well through the third water outlet 34, so that impurities in water are ensured not to block an underground water layer during reinjection, a geothermal reservoir is protected, and the purpose of sustainable energy utilization is achieved.

In the high-efficiency filtering container 32, in order to better control the on-off of the third connecting pipeline 3, a third valve 35 is arranged on the third connecting pipeline 3; the third connecting pipe 3 is provided with a second electromagnetic flowmeter 36 which can adjust the water flow. A second access door 37 is arranged on the wall of the high-efficiency filtering container 3, so that the high-efficiency filtering container is convenient to enter and exit for installation and maintenance; the third water inlet 33 and the third water outlet 34 are also provided with external flanges 110, which facilitate the connection of external pipelines. The high-efficiency filter 32 and the high-efficiency filtering container 32 are fixed by bolts, so that the vibration quantity is reduced, and the displacement caused by vibration is avoided.

The utility model discloses in, input power container 1, just imitate and filter container 2 and high-efficient 3 open air places of filtering the container, adapts to the weather all over the country, can resist 8 grades of earthquakes to solve geothermal recharging equipment and do not have the problem that special area placed the problem and place geothermal recharging equipment and need build the room.

The utility model discloses in, input power container 1, just imitate and filter container 2 and high-efficient 3 simple structure that filter the container, every container all can skid-mount and hoist and mount, the transportation of being convenient for, installation convenient to use.

The utility model discloses in, the additional strengthening is adopted to input power container 1, the bottom of just imitating filtering container 2 and high-efficient filtering container 3 for every square bearing capacity of every container bottom surface is not less than 1 ton's ability, and reserves the mounting screw hole of equipment in the bottom of container, but the snap-on has stronger shock resistance on the bottom surface during equipment fixing, thereby satisfies the transportation requirement, can use by a plurality of websites.

In the utility model, the wall boards of the input power container 1, the primary filtering container 2 and the high-efficiency filtering container 3 are all provided with reinforcing frameworks on the original basis, so that the wall boards have stronger supporting capability; the sound absorption cotton is added, so that the strong sound insulation capability is ensured, the noise is controlled within 50 decibels, and the normal life and rest of residents are not influenced; the problem of noise of equipment operation is solved.

In the utility model, the input power container 1, the primary filtering container 2, the high-efficiency filtering container 3 and the electrical elements are all arranged in the container, thereby effectively protecting the safe use of each part, and reserving the mounting holes to be mounted or the access holes of the flange and the cable outside; the pipelines between the parts in each container are connected, so that the re-construction on site is not needed, and the pipelines and the main pipelines between the containers are only needed to be connected on site, thereby greatly shortening the construction period of the recharging project and greatly reducing the labor cost.

In the utility model, the functions of the input power container 1, the primary filtering container 2 and the high-efficiency filtering container 3 are different, and the input power container 1, the primary filtering container 2 and the high-efficiency filtering container 3 can be used together according to the equipment and space requirements of each station, or a certain container can be used independently according to the existing equipment; the container can be placed in the open air, basically adapts to various climates in the country, can be used only by being connected through an external flange when in use, and is convenient and fast to install.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The geothermal recharge filtering equipment is characterized by comprising an input power container, a primary filtering container and a high-efficiency filtering container, wherein the input power container is used for introducing geothermal tail water, the primary filtering container is used for carrying out primary filtering on the geothermal tail water, and the high-efficiency filtering container is used for carrying out secondary filtering on the geothermal tail water; the input power container is internally provided with a first connecting pipeline, a circulating pump which is arranged on the first connecting pipeline and used for providing power for inputting geothermal tail water and a booster pump which is arranged on the first connecting pipeline and used for providing power for recharging geothermal tail water, a first water inlet and a first water outlet are arranged on the input power container, and the first connecting pipeline is respectively communicated with the first water inlet and the first water outlet; a first valve is arranged on the first connecting pipeline; and an air compressor and an air storage tank which are communicated and used for providing power for backwashing of the primary filtering container and the high-efficiency filtering container are also arranged in the input power container, and the air compressor is communicated with the first connecting pipeline.

2. The geothermal recharging filtration device of claim 1, wherein a second connection pipe, a control cabinet and a plurality of primary filters disposed on the second connection pipe are disposed in the primary filtration container, the primary filters are used for filtering impurity particles in geothermal tail water, the primary filtration container is provided with a second water inlet and a second water outlet, the second connection pipe is respectively communicated with the second water inlet and the second water outlet, and the control cabinet is electrically connected with the primary filters.

3. The geothermal recharge filter apparatus of claim 2, wherein the second connection pipe is provided with a second valve, and the second valve is electrically connected to the control cabinet.

4. A geothermal recharge filter apparatus according to claim 3, wherein the second connecting pipe is fitted with a first electromagnetic flow meter.

5. The geothermal recharging filtration device of claim 4, wherein a third connection pipe and a plurality of high efficiency filters arranged on the third connection pipe are arranged in the high efficiency filtration container, and the high efficiency filtration container is provided with a third water inlet and a third water outlet, and the third connection pipe is respectively communicated with the third water inlet and the third water outlet.

6. A geothermal recharge filter apparatus according to claim 5, wherein a third valve is mounted to the third connecting conduit.

7. A geothermal recharge filter apparatus according to claim 6, wherein a second electromagnetic flow meter is mounted on the third connecting pipe.

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