CN202466683U - Recharging system of water taking and energy storage of underground water bearing layer - Google Patents
Recharging system of water taking and energy storage of underground water bearing layer Download PDFInfo
- Publication number
- CN202466683U CN202466683U CN2012200784532U CN201220078453U CN202466683U CN 202466683 U CN202466683 U CN 202466683U CN 2012200784532 U CN2012200784532 U CN 2012200784532U CN 201220078453 U CN201220078453 U CN 201220078453U CN 202466683 U CN202466683 U CN 202466683U
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- wells
- recharge
- well
- recharging
- energy storage
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/40—Protecting water resources
- Y02A20/406—Aquifer recharge
Abstract
The utility model discloses a recharging system of water taking and energy storage of an underground water bearing layer and belongs to an underground water taking recharging heat exchange system. The recharging system comprises pumping wells and recharging wells, wherein the pumping wells are connected with the recharging wells through a pipeline, one pumping well corresponds to a plurality of recharging wells in disperse arrangement, the recharging wells and the pumping wells are in a three-dimensional convection structure, a distance being 50 to 100m is kept between the pumping wells and the recharging wells, the pumping wells and the recharging wells have the same depth, the well diameter of the recharging wells is equal to or smaller than that of the pumping wells, and the number ratio of the pumping well and the recharging wells is 1:(3-10). The recharging system has the beneficial effects that one pumping with multiple recharging is realized, the point-to-point convection is not adopted between the pumping wells and the recharging wells, the three-dimensional convection is adopted between a plurality of small-flow-rate recharging wells and the pumping wells, a certain cube of soil is used as an energy storage and absorbing warehouse, and the goal of season energy storage of use in water after filling in summer and use in summer after filling in winter is really reached.
Description
Technical field
The utility model relates to the heat-exchange system that a kind of underground water water intaking is recharged, and specifically is the recharge system that a kind of water intaking combines with the underground reservoir energy storage, mainly is applicable to water source heat pump air conditioning system.
Background technology
Traditional water resource heat pump water source draws water and recharges is to take out a filling or to take out two fillings; Necessary wide apart between pumped well and the recharge well; Otherwise can be prone in underground formation piping because of the point-to-point convection current of well water, the energy that the well water band goes down is not fully absorbed by soil and has just been drawn up, and the well water temperature can be increasingly high when freezed summer; The well water temperature can be more and more lower during heat supply in winter, even can't recharge.
Summary of the invention
The recharge system that the utility model provides a kind of water intaking to combine with the underground reservoir energy storage; Water resource heat pump pumped well and recharge well take one to take out irritate more; Dispersion is recharged, and recharge well quantity and position are not only satisfied all recharges needs, and wants to satisfy and store and endergonic needs; Guarantee that a refrigeration or later stage in heating year can both get suitable water temperature, guarantee that the cold heating of earth source heat pump mechanism can both the efficient stable operation.
For realizing above-mentioned purpose, the technical scheme of the utility model is: the recharge system that a kind of water intaking combines with the underground reservoir energy storage comprises pumped well and recharge well; Pumped well is connected through pipeline with recharge well; The recharge well that the corresponding a plurality of dispersions of pumped well are provided with is three-dimensional convective structure between a plurality of recharge wells and the pumped well, need to keep 50-100 rice distance between pumped well and the recharge well; Pumped well is identical with the recharge well degree of depth, and the hole diameter of recharge well is equal to or less than pumped well; The quantitative proportion of described pumped well and recharge well is 1 ︰ 3-10.
Water resource heat pump pumped well and recharge well; Take one to take out irritate more; Dispersion is recharged, and perhaps absorbs how many energy to underground release altogether according to aquifer ground specific heat and a refrigeration and heating year, and water temperature allows temperature difference reasonable Arrangement well location; Rationally confirm distance between water intake well and the recharge well, rationally confirm recharge well bore and quantity according to geological condition.No longer be point-to-point convection current like this between pumped well and the recharge well; But by three-dimensional convection current between several low discharge recharge wells and the pumped well; As storing and the use of endergonic warehouse, really reach the filling winter in summer to certain cubical soil with winter irrigation summer grade energy storage in season purpose.
The beneficial effect of the utility model is: one takes out many fillings disperses to recharge, and stresses that well water all recharges, and uses certain cubical soil as storage and endergonic warehouse, really reaches the filling winter in summer with winter irrigation summer grade energy storage in season purpose.According to landform water intake well and recharge well well location are installed rationally, can not be caused this building and surrounding building surface settlement.
Description of drawings
Fig. 1 is the utility model overall structure sketch map;
Fig. 2 is cylindrical energy storage body structure sketch map;
Fig. 3 is a triangle energy storage body structure sketch map;
Fig. 4 is square energy storage body structure sketch map.
Among the figure: 1, pumped well, 2, recharge well, 3, hydrocyclone, 4, vacuum degassing machine, 5, energy extraction device, 6, the water intaking pipeline, 7, recharge pipeline.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is elaborated.
As shown in Figure 1, the utility model has pumped well 1, and water intaking pipeline 6 is equipped with hydrocyclone 3, vacuum degassing machine 4 on water intaking pipeline 6, energy extraction device 5, and energy extraction device 5 is connected with each recharge well 2 through recharging pipeline 7.The underground water that extracts is sent into hydrocyclone 3 through water intaking pipeline 6; After removing the fine sand and impurity in anhydrating, get into vacuum degassing machine 4, get into energy extraction device 5 through the well water behind the outlet valve discharge gas of vacuum degassing machine 4; The well water that was extracted energy is disperseed to deliver in the recharge well 2 through recharging pipeline 7; Behind abundant and soil heat exchange, extracted out again by pumped well 1, so repeatedly circulation.The recharge well 2 that the 1 corresponding a plurality of dispersions of pumped well of such scheme are provided with; Be three-dimensional convective structure between a plurality of recharge wells 2 and the pumped well 1; Generally need to keep 50-100 rice distance between pumped well 1 and the recharge well 2; Pumped well 1 is identical with recharge well 2 degree of depth, and the hole diameter of recharge well 2 is equal to or less than pumped well 1; Described pumped well 1 is 1 ︰ 3-10 with the quantitative proportion of recharge well 2.
As shown in Figure 2, three-dimensional convective structure is between a plurality of recharge wells 2 and the pumped well 1: a plurality of recharge wells 2 are that circumference or semi-circumference distribute, pumped well 1 is positioned at that home position constitutes that the center of circle draws water that circumference or semi-circumference recharge one takes out the cylindrical energy storage body that recharges structure more.Present embodiment pumped well 1 is 1 ︰ 5 with the quantitative proportion of recharge well 2.Distance is 80 meters between pumped well 1 and the recharge well 2.
As shown in Figure 3, three-dimensional convective structure is between a plurality of recharge wells 2 and the pumped well 1: a bite pumped well 1 is corresponding a plurality ofly to be recharge well 2, the pumped wells 1 that a row distributes and to take out the triangle energy storage body that recharge structure with recharge wells 2 formations one that a row distributes more.Present embodiment pumped well 1 is 1 ︰ 3 with the quantitative proportion of recharge well 2.
As shown in Figure 4, three-dimensional convective structure is between a plurality of recharge wells 2 and the pumped well 1: the center that the many mouthfuls of recharge wells 2 of a bite pumped well 1 corresponding square arrangement, pumped well 1 are positioned at a square limit constitutes one and takes out the square energy storage body that recharges structure more.Present embodiment pumped well 1 is 1 ︰ 5 with the quantitative proportion of recharge well 2.
Claims (4)
1. recharge system that water intaking combines with the underground reservoir energy storage; Comprise pumped well (1) and recharge well (2); Pumped well (1) is connected through pipeline with recharge well (2); It is characterized in that: the recharge well (2) that the corresponding a plurality of dispersions of a pumped well (1) are provided with, be three-dimensional convective structure between a plurality of recharge wells (2) and the pumped well (1), distance is a 50-100 rice between pumped well (1) and the recharge well (2); Pumped well (1) is identical with recharge well (2) degree of depth, and the hole diameter of recharge well (2) is equal to or less than pumped well (1); Described pumped well (1) is 1 ︰ 3-10 with the quantitative proportion of recharge well (2).
2. the recharge system that a kind of water intaking according to claim 1 combines with the underground reservoir energy storage, it is characterized in that: three-dimensional convective structure is between described a plurality of recharge wells (2) and the pumped well (1): what a plurality of recharge wells (2) were that circumference or semi-circumference distribution, pumped well (1) be positioned at that the home position formation center of circle draws water that circumference or semi-circumference recharge one takes out the cylindrical energy storage body that recharges structure more.
3. the recharge system that a kind of water intaking according to claim 1 combines with the underground reservoir energy storage is characterized in that: three-dimensional convective structure is between described a plurality of recharge wells (2) and the pumped well (1): a bite pumped well (1) is corresponding a plurality ofly to be the recharge well (2) that a row distributes, recharge wells (2) formation one that pumped wells (1) and are arranged distribution is taken out the triangle energy storage body that recharges structure more.
4. the recharge system that a kind of water intaking according to claim 1 combines with the underground reservoir energy storage; It is characterized in that: three-dimensional convective structure is between described a plurality of low discharge recharge wells (2) and the pumped well (1): the center that the many mouthfuls of recharge wells (2) of the corresponding square arrangement of a bite pumped well (1), pumped well (1) are positioned at a square limit constitutes one and takes out the square energy storage body that recharges structure more.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012200784532U CN202466683U (en) | 2012-03-05 | 2012-03-05 | Recharging system of water taking and energy storage of underground water bearing layer |
Applications Claiming Priority (1)
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CN2012200784532U CN202466683U (en) | 2012-03-05 | 2012-03-05 | Recharging system of water taking and energy storage of underground water bearing layer |
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CN202466683U true CN202466683U (en) | 2012-10-03 |
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CN2012200784532U Expired - Fee Related CN202466683U (en) | 2012-03-05 | 2012-03-05 | Recharging system of water taking and energy storage of underground water bearing layer |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103147487A (en) * | 2013-03-28 | 2013-06-12 | 四川大学 | Ground water filling device |
CN109764566A (en) * | 2019-01-17 | 2019-05-17 | 北京泰利新能源科技发展有限公司 | Strengthen balance method in ground heat exchanger temperature field |
-
2012
- 2012-03-05 CN CN2012200784532U patent/CN202466683U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103147487A (en) * | 2013-03-28 | 2013-06-12 | 四川大学 | Ground water filling device |
CN109764566A (en) * | 2019-01-17 | 2019-05-17 | 北京泰利新能源科技发展有限公司 | Strengthen balance method in ground heat exchanger temperature field |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121003 Termination date: 20150305 |
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EXPY | Termination of patent right or utility model |