DE2856843A1 - Water well operating system - supplies oxygen enriched water alternately to two wells to prepare ground water - Google Patents

Abstract

The water well operating system draws water out of a first well during a first phase, enriches it with oxygen, and delivers it to a second well, so as to precipitate materials in solution from the ground water round about. The supply or enriched water to the second well is then halted, and in a second phase enriched water is drawn off for domestic consumption. The functions of the two wells are periodically interchanged, part of the water drawn from the second well during the second phase being enriched with oxygen and delivered to the first one until the water round the latter has been prepared, water being then drawn from it for consumption.

Description

Method for operating a well system for water

and arrangement for carrying out this method The invention relates to a method according to the preamble of claim 1 and an arrangement to carry out this method according to the preamble of claim 5.

Well systems are in use, consisting of three individual wells exist. These three wells operate on a three-phase duty cycle. In a first working phase, domestic water is taken from a first well while water is taken from a second well, enriched with oxygen and into the third Well is discharged for treatment purposes. The one enriched with oxygen Water penetrates into the area surrounding the third well, so that there is in the groundwater The soluble substances contained in it oxidize, precipitate and settle in the soil. These substances are mainly iron and manganese, but also Ammonia and carbonic acid. These oxidized and precipitated substances remain in a greater distance from the well in the Soil so that the well itself is not impaired and retains its productivity. So it won't Only water that has been treated in the ground is obtained, but also what is known as coking Avoid drying up of wells.

In the second phase of work, the functions of the three wells changed so that service water is now taken from the third well, in its In the surrounding area, the groundwater has previously been treated in the first work phase is, during the first well taken water, enriched with oxygen and is fed to the second well, so that the groundwater in its surrounding area is processed.

In the third working phase, domestic water is then fed to the second well withdrawn, while the third well withdrawn water enriched with oxygen and fed to the first well in order to treat the groundwater will.

Such a well system is relatively complex and expensive because of the large number of wells and the respective inlets and outlets as well as the valves assigned to each well. There is also the disadvantage that because of the required distance between the well of e.g. 40 - 50 m a technical Application is only possible if a sufficiently large plot of land is available stands.

There is usually insufficient information on home plots Land area available for such a well system. This fails the effective use of Heat pumps for heating purposes in home construction and often also in general housing. There are already systems on smaller ones Plots with only two wells in operation, one of which is a well serves as a delivery well and the other as an intake well, but experience shows that it is it is only a question of a relatively short time that such will go to court. Because of this, often the drilling of new wells is necessary.

The invention is based on the object of a method of operation to create a well system for water, which is a treatment of the groundwater in the area of a well by introducing oxygen-containing water and thus in particular also enables the avoidance of coking, but nevertheless one requires less effort than before.

The solution according to the invention provides a method that thereby it is indicated that the function of the two wells is periodically reversed, by taking part of the water from the second well during the second work phase extracted water is enriched with oxygen and fed into the first well until the water in the area surrounding the first well is treated, at what the first work phase follows, with part of the from the Water taken from the first well is diverted as service water.

The invention is based on the relatively simple idea in the case of the well-known system, which works with three wells, one of the wells thereby to make superfluous that the domestic water in each case immediately from which water is branched off, which is a well in the well-known well system only for the purpose of oxygen enrichment and discharge into another well is removed for processing purposes. This makes a third well complete superfluous, since after interchanging the function of the two wells according to the invention in turn, a diversion of service water from the per se for treatment purposes pumped water takes place.

Thus, not only is the third well dispensable, but also the associated part of the piping, valve and control system. This results in a considerable cost saving.

In addition, there is the extraordinary advantage that a well system for carrying out the method according to the invention on much smaller properties can be installed so that it can also be used, for example, in connection with heat pumps can be widely used for heating purposes, e.g. for heating homes.

The method according to the invention makes a continuous decrease of service water possible, although only two wells are required. Come in addition the advantage that no environmentally harmful substances come to light such as Manganese or iron sludge. The level of iron and manganese has no effect disadvantageous on the withdrawal amount, since practically all undesirable substances precipitated and deposited in the soil away from the well.

The periodic reversal of the function of the wells can take place automatically, e.g. via electrical or pneumatic control flaps that in turn controlled by a timer. ' The inventive method can therefore be carried out completely automatically as well as maintenance-free and trouble-free.

Appropriately, the ratio is for processing purposes amount of water diverted to the total amount of water withdrawn from the well about 1: 6. It has been shown that this small proportion of the for processing purposes The water used is sufficient to bring a sufficient amount of oxygen into the treatment zone to transport around a well.

Another expedient development of the method according to the invention consists in keeping a well during a work phase for treatment purposes such an amount of oxygenated water is supplied that a Treatment of groundwater essentially only in the area of the lowering funnel of the well takes place. This teaching is based on the idea of the oxidation and processing zone extend only so far around the well that there is no danger of oxygen-containing water carried away from the well by the natural groundwater flow and is therefore lost for processing.

Further details and advantages of the invention emerge from the following description of an embodiment shown in the drawing.

The embodiment shown in the drawing shows according to the teaching of the invention only two wells 1 and 2, in which water 3 and 4 is, immerse in the underwater pumps 5 and 6. From the underwater pumps 5 and 6 lead pipelines 7 and 8 via remote-controlled valves 9 and 10, respectively and line parts 11 and 12 to a common line 13, from which a service water line 14 branches off.

The line 13 leads via a quantity control valve 15 to a device 16 to enrich the water with oxygen. This device 16 has a Only schematically shown nozzle 17, which is arranged axially in a tube 18 is, so that emerging from the nozzle 17 water through an air inlet 19 entering Takes air with it, mixes with it and is thus enriched with oxygen, after which it flows into a degassing tank 20. The degassing container 20 is with provided an overflow 21 and connected to a line 22, which is divided into line parts 23 and 24 branches out via respective remote-controlled valves 25 and 26 in the Lead wells 1 and 2.

When operating the system according to the method according to the invention If, for example, the underwater pump 5 is in operation in a first work phase, valve 9 being open while valve 10 is closed. The underwater pump 6 is out of order here. Thus, water is promoted from the well 1, and it comes once from the common line 13 to the service water line 14 and once via the volume control valve 15 to the device 16 for the enrichment of the in with oxygen.

the water entering the degassing tank 20 / the flow control valve is for example, adjusted so that the amount of water allowed through is in proportion to the total amount of water delivered by the underwater pump 5 is 1: 6.

This ratio has proven to be beneficial, but it can also chosen differently and adapted to other groundwater properties.

That passed by the flow control valve 15 by the device 16 water enriched with oxygen and degassed in the degassing tank 20 reaches the well via the line 22 and the line part 24 via the valve 26 2, where it passes through the filter slots, not shown in detail, into the well 2 surrounding soil, so that a precipitation of the undesired substances such as e.g. Iron, manganese, etc.

he follows. Here the valve 25 is closed.

In the following second work phase, the function of the wells reversed. Accordingly, the valves 10 and 25 are now open, while the Valves 9 and 26 are closed. The underwater pump 6 now pumps water, which is again largely available in the service water line 14 and to a lesser extent in that described in connection with the first phase of work Way enriched with oxygen and used to treat groundwater that surrounds the fountain 1.

The work phases alternate with each other, so that overall continuous operation takes place, with a sufficient amount of hot water at all times can be removed from the service water line 14.

In a practical example of operation, the hourly consumption is 100 m3 / h on the domestic water pipe 14. The delivery rate of the underwater pump 5 is 120 m # / h, and so that 20 m # / h flow through the flow control valve 15 / to Processing of the other well are available.

It has been shown that switching the mode of operation of the wells at weekly intervals is sufficient. During this time, the fountain is 20160 bicmeters Water has been taken. In the side stream there are 3360 cubic meters of water for treatment of the other well has been branched off. When the water is thick The leading soil layer of 10 m is one with a pore volume of 35% Amount sufficient to have an oxidation processing zone 10 - To be erected 15 m from the well.

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Claims (6)

Claims: 0 method for operating a well system for Water in which water from a first well during an initial work phase is removed, enriched with oxygen and fed into a second well, around the groundwater in the vicinity of the second well due to failure of to treat substances dissolved in the groundwater in the soil, after which the supply of with Oxygenated water to the second well interrupted and in one second work phase taken from this treated water as service water it is shown that the function of the two wells is periodically swapped by adding a part during the second work phase of the water taken from the second well is enriched with oxygen and is directed into the first well until the water is in the area surrounding the first Well, which is followed by the first work phase, part of the water taken from the first well is diverted as service water will. 2. The method according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the ratio of the amount of water diverted for treatment purposes to the total amount of water withdrawn from the well is approximately 1: 6. 3. The method according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that a well during a working phase for treatment purposes such an amount of oxygen-enriched water is supplied that a treatment of groundwater essentially only in the area of the subsidence funnel of the well he follows. 4. The method according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the oxygenated water before discharging into a well is degassed. 5. Arrangement for performing the method according to claim 1, consisting consisting of two pumps that can be lowered into wells, each with a valve and a pipe connected to a common device for enriching water with oxygen whose derivation is divided into two branches, each with a valve and each of which can be inserted into the well, that is to say c h n e t that in the conveying direction upstream of the device (16) for enriching water with oxygen a branch for connecting a consumption line (14) and a following flow control valve (15) are arranged. 6. Arrangement according to claim 5, d a d u r c h g e k e n n -z e i c h n e t that in the conveying direction behind the device (16) for enriching the water a degassing container (20) is arranged with oxygen.