SE501853C2 - Facility for utilizing existing groundwater and maintaining existing groundwater levels - Google Patents

Abstract

The present invention relates to an arrangement for collecting naturally occurring groundwater and/or maintaining naturally occurring groundwater levels, comprising a collection/infiltration point (104) for collection/infiltration channels (105, 205, 305) leading to said point or to groundwater. Said collection/infiltration point and said collection/infiltration channels are always disposed above sea level (SL). By virtue of the fact that both the collection/infiltration point and the collection/infiltration channels are always disposed above sea level, there is no risk that saltwater penetration will disturb the collection of naturally occurring groundwater.

Description

0 1 8 5 3 -2- upward. They can also be directed obliquely downwards or straight downwards provided that they do not extend below sea level. In another embodiment, these channels do not extend below a horizontal plane through the collection / induction site. Within the framework of the appended claims, these channels can be directed around the collection / integration point in different directions and can also each channel be curved or comprise sections directed in different directions. The plant 101 is thus intended for the collection and integration of groundwater from resp. to the area within the groundwater zone.

The groundwater level is indicated by a dashed line GN, which follows mainly the outer contour of the ground and through wetlands existing in the landscape, such as watercourse 106. The dashed line SN indicates the salt water intrusion limit and the dashed line HN shows the sea level. The collection / integration point is always located above sea level HN. To the right of the drawing, the salt water 107 in the sea is thus shown with a sea surface 108.

In the area below the salt water level, beteclmat with 107a, salt water has thus penetrated into the rock. During collection, the water is pumped from the collection / inhalation screen 104 up to a distribution point 110. In the case of infiltration, the water is supplied by creating an overlay pressure via the distribution site 110 to the injection site 104 so that the groundwater level is affected.

The distribution point is designed so that the required water quality is ensured for the integration.

One or kontroll your control holes lll enable control of the salt water level and therefore give an indication of the amount of groundwater available. Geohydrological surveys provide the optimal location of the facility according to the design and of possible groundwater abstraction. The plant should not be used for larger water abstractions than the new formation and / or integration adds. In the event of an uneven consumption of the water collected by the plant, this should be supplemented with storage options for any peak loads.

I fi g. 2 shows a plant 201 according to the invention which is arranged in a rock, but where a collection / inlet site 204 is arranged outside the groundwater zone. When this point is used as an inlet point, for example, an outer pipe connection on the outside and upwards of the land contour can be arranged as an inlet point. The facility 201 according to the invention is also arranged in such land that may occur at Christian or on an island, ie. rock 202 with occurring fracture and / or crushing zones 203. To the collection / collection site 204 ßr groundwater, collection / irrigation channels 205 open, which extend into the rock or in the form of boreholes, which extend into or through the rock the fracture and / or crush zones 203. The plant 201 _3_ 501 853 is also in this embodiment intended for collecting groundwater from the area within the groundwater zone. The groundwater level is indicated by a dashed line GN, which mainly follows the outer contour of the ground and through wetlands existing in the landscape.

The dashed line SN indicates the intrusion limit of the salt water and the dashed line HN shows the level of the sea surface. The collection / injection site 204 is always located above sea level HN. To the right of the drawing, the salt water 207 in the sea is thus shown with a sea surface 208. One or more of the control holes 211 are arranged for controlling the groundwater level. These control holes can also be used as inlet holes when the plant is used to maintain naturally occurring groundwater levels. Connection between these holes and the occupied boreholes 205 is via crushing and / or fracture zones in the rock. To prevent groundwater from being drained in the tonal range outside the groundwater bodies, ie. in the area where the collection holes extend between the groundwater level GN and the collection / inlet site 204, these holes may be fully lined or consist of a tight conduit, for example between the collection / inlet site 204 and a predetermined line 212, so that no water is lost at the collection or information.

Detkanhärpåpasasddåmaikenvid dei fi g. 1 and 2 shown and described embodiments consist of sand or soil or partly of sand or soil, the boreholes must be replaced by pipes, which can then either be perforated or otherwise fluid-absorbing one's fedreae nas the änaamzn, described even in connection men ng. 2.

I fi g. 3 shows a plant 301 according to the invention which is arranged in soil consisting mainly of sand. A collection / infiltration site 304 is located in the groundwater zone at a level determined by the geohydrological conditions at the site. The plant 301 according to the invention is arranged in soil consisting of sand or soil. The collection / infiltration site 304 for the groundwater opens to the collection / infiltration channels 305, which extend into the ground, preferably in the form of pipes, which are located in the ground. The plant 301 is also in this form of operation intended for collection and / or infiltration of groundwater from resp. to the area within the groundwater zone. The groundwater level is indicated by a dashed line GN, which mainly follows the outer contour of the ground and through considerable wetlands in the landscape. Since the collection / inlet site 304 in this embodiment is located below the ground surface MY, the collected groundwater and / or the inlet water must be pumped up to resp. is added to the distribution point 310, so that the distribution of and / or the integration into the groundwater can take place directly from the same. The distribution point is designed so that the required water quality 501 853 is ensured for the integration. By means of one or more of the control holes 311, which in this case start from a place 312, the dry groundwater level is checked.

The plant according to the invention is not limited to the forms of drying described above and shown in the drawings, but can of course be varied within the scope of the appended claims.

Claims (6)

501 8 5 5 -5- PATENT REQUIREMENTS Water extraction plant, characterized in that the plant is intended to utilize naturally occurring groundwater and maintain naturally occurring groundwater levels and includes a collection and integration site (104, 204, 304) for resp. to groundwater and to this estuary collection and inlet channel (105, 205, 305), that said collection and inlet site (104, 204, 304) and said collection and inlet channel (105, 205, 305) are above sea level (108 , 208), whereby during inlet the water is supplied by creating an overlay pressure via a distribution stall (110) to the inhalation stall (104) so that the groundwater level is affected. Plant according to claim 1, characterized in that said collection and integration channels (105, 205, 305) are so oriented that they are located above the horizontal plane through the collection and integration site (104, 204, 304). Plant according to claim 1, characterized in that said collection and integration channels (105, 205, 305) are arranged so that the water to be collected resp. is integrated, itself flows to resp. from said collection and isolation site (104, 204, 304). Plant according to Claim 1, characterized in that the collection and inlet channels (105, 205, 305) extend horizontally or obliquely upwards. Plant according to one of Claims 1 to 4, which is located in soil where rock is present, characterized in that said collection and integration channels (105, 205, 305) are connected to fracture and / or crushing zones present in the rock. (103,203). Plant according to any one of claims 1-4, which is located in soil consisting of looser materials such as crushed stone, sand, earth or the like, characterized in that the collection and integration channels (105, 205, 305) consist of pipes, which are preferably perforated.