DE2750789A1 - MOBILE DRINKING WATER TREATMENT PLANT - Google Patents

Description

Robert Reichlinp & Comp. GmbH, Orevenbroich

Mobile drinking water treatment plant

909820/0289

Mobile drinking water treatment systems

In many areas of our world, water for daily living is the problem of Mr. 1. Many parts the population cannot be supplied with safe drinking water. In In many cases, there are only heavily soiled and, on top of that, contaminated with high salt contents Brackish water is available that in no way meets the requirements of the World Health Authority of drinking water.

Attempts have been made many times to create treatment plants that can produce such water to make clean drinking water.

So far it has not been possible to create small systems economically in order to be able to produce perfectly drinking water everywhere.

The invention is based on the task of producing a water treatment system that can be used for a short period of time at any point

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Guaranteed water supply that is a drinking water approved by the World Health Authority he brings.

This task is solved by a mobile drinking water treatment plant, which is in it consists that the system parts required for processing in a standard commercial container with appropriate ISO dimensions are housed. The individual parts of the system initially include an oral cleaning, then a fine cleaning and, as a third stage, a desalting stage. With dirty, but not salty food can be on the the third stage, the desalting stage, is dispensed with will.

The one accommodated in a housing corresponding to international container dimensions The system can supply the people living in the countryside with clean drinking water and can also be loaded and rented

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thus to bring to any desired location. This mobile system can be used immediately and anywhere, does not require any additional construction work and can deliver perfect drinking water in no more than half an hour after it has been set up. Cie eich is therefore not only suitable for supplying smaller village communities, but can also be used in disaster cases and in impassable terrain, where normally not usable for human foot, especially salty brackish water or the like, safe drinking water can be treated. The standard type of the system according to the invention is able to treat 5 m of salty, polluted surface water (brackish water) with a salt content of up to 5,000 ppm and to dispense approx. 3.7 nr per hour of safe drinking water. The system according to the invention can be enlarged according to the modular system.

The particular advantage of the mobile system is that the individual containers can be transported on trucks or in impassable terrain on amphibious vehicles.

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ΝΑΓ? ·: · - £ ... CALIBRATED

witness or even take helicopters to anyone Can be brought to the site and prepare safe drinking water there quickly and safely can. Fin embodiment of the invention is shown in the drawing and is described in more detail below. Show fr:

Fig. 1 - a schematic representation of the fitting parts housed in the container and
! • ig. 2 - a parallel connection

multiple containers.

In a commercially available container 1, all the necessary system parts for producing usable drinking water are housed. The container 1 can be provided with on-board winches 37 in order to use its own resources on a LkI. ¹ to be lifted, there may also be on-board supports to jack up the pesamten container.

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After the container has reached its plague site, the Pohwasser is removed by means of a self-priming centrifugal pump 7, a waste water tank 8 or a remote body of water. For this purpose, the raw water line M or a / ^ nsaugschlauch is provided with a floatable r, c hutz basket 9, which is immersed in the dirt what he container 3 or in the body of water, not shown. The dirt basket 9 causes coarse dirt to be retained. The raw water is then first passed inside the container 1 via a can 3 separator 2, in which the remaining contaminants, which have a specific weight of greater than 1, are separated . Following the Orobreinigung the Rohwaaser chemical additives for disinfection and coagulation can be nierunsanlage l'l metered in continuously by means of a conditionality. The system I ¹ J consists of the storage containers and 16 with the dosing pumps 17 and Iß. The resulting flooken are in two parallel

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operated pressure filters 12 and 13 of a fine cleaning system Io filtered off. Thereafter the '.'a3sers is transferred through the activated charcoal filter 11, in which still existing Oeschmacksstoffe and germ-containing Substances are retained.

The so prepared l.'asser can again with a small amount of chlorine to Sicherheitschlorung mid3 a conditioning system 19 vaccinated to be referred to as drinking water. The conditioning system 19 consists of the storage containers 2o and 21 and the metering points 22 and 23. In this conditioning system, acids or polymeric phosphates can also be metered.

However, if the salt content in the raw water is higher than 500 ppm, the prepared water is passed through a reverse osmosis system 24, in which desalination is carried out. Daiu this system is preceded by a booster pump 25, which the water through

909820/0289

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promotes the pressure pipes of the osmosis anlace. Hein Various chemicals can be inoculated into water for optimal functioning of the modules in the pressure pipes of the reverse 03inose-24 and to protect them.

The quality control for the osmosis treatment; takes place via a continuous pll flow by means of the device 27 as well as in the draining water by means of a continuous conductivity measurement by means of the Herütes 28.

via a built-in Pypassleitunc 29 with Pressure pump 3o can do the reverse osmosis system 24 can be bypassed. This makes it possible by blending the Vaseerβ the salinity to regulate to a certain amount. The finished drinking water then flows into a reservoir container 26. over one on the container 26 not connected level control shown are the respective work cycles of the entire Plant controlled. Using a pure water pump 31 can the drinking water via a drinking water

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discharge 5 is pumped to the consumers will. In addition, one (or more) manual removal 32 is possible. This means that drinking water can be drawn directly from the container by means of tapping points be taken.

The entire system is simply constructed, with the maintenance effort being kept to a minimum is reduced. The overall concept has been worked out so that the system can be operated by semi-skilled workers after a short training period. The examinations of the water, which are necessary for a water treatment, can be carried out in a built-in small laboratory 33 with the available resources of semi-skilled workers can be carried out at any time. In order to be able to carry out occasional repairs or Having the necessary chemicals on board for a longer period of time are storage rooms 3 ^ and 35 provided. The energy requirement can be ensured by a connection to the local electrical power network. Should no electricity, especially in rough oil terrain

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Supply is a mistaken one Power supply 36 is provided, the Generator set is operated by a diesel engine. The system according to the invention can thus can also be operated with self-sufficiency in the long term.

So that the system can also be adapted to climatic conditions, an air conditioning system, a tropicalized insulation and protection against termite infestation should be provided.

Fig. 2 shows several parallelpeschalten containers la to Id, which are arranged both next to one another and one above the other can. The system according to the invention is therefore also particularly favorable in terms of space requirements accommodate. The raw water supply Ί, the pure water discharge 5 and the waste water discharge 6 are divided accordingly and, as can be seen from FIG. 2 cu, switched accordingly. That from the fine filter

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anlape next backwash water is the reverse of the 03mose- / NLAP; supplied in common to e 2 ¹ J coming concentrate of ochmutswasserabführunftsleitunß 6 and further cetrennt ^ eleitet.

909820/0289

Claims (1)

27507Π9 Claims 1.) Mobile drinking water treatment plant characterized by an Orob (2) and a Fe ^ cleaning system (3), the is housed in a commercially available series container (1), the container system connected to a raw water pipe ('0 is, as well as a drinking water discharge (5) and a sludge water discharge line (C). 2.) System according to claim 1, characterized in that the raw water by means of a self-priming centrifugal pump (7) the raw wase reserve (8) can be removed and the container system (1 to 3) can be fed. 3.) System according to Claims 1 and 2, characterized in that the end of the raw water line (Ί) reaching into the raw water supply (H) with a protective material that can be eohwinmbaren coarse 909820/0289 ORIGINAL INSPECTED basket (9) is provided. Ί.) Plant according to claim 1, characterized in that the firobreinigunßöanlace (?) Is designed as a can separator. 5.) Plant according to claim (1), characterized in that that the Feinreinigunnsanlace (3) from a pre (Io) and post-cleaning system (11) exists. 6.) Plant according to claim (5), characterized in that that the pre-cleaning system (lo) au »two or more mechanically operating pressure filters operated in parallel (12, 13) exists. 7.) System according to claim 5> characterized in that the Mach cleaning system (11) consists of a fluffy and germ-containing substances lurdokhaltenden adsorptive activated carbon filter . - 3 -909820/0289 27B0789 B.) Plant according to claims 1 to 7, characterized by one or more conditions! systems for feeding chemical Additives. 9.) System according to claim 8, characterized in that between the coarse cleaning system (2) and the fine cleaning system (3) a conditioning system serving to disinfect and coagulate the raw water (l'O is provided. Io) system according to claim 9 »characterized in that the system (1Ί) consists of one or several chemical storage containers (15, 16) with metering pumps (17 * 18). 11.) System according to claims 9 and lo, characterized in that the system (1Ί) is continuously operable. 12.) System according to claim 8, characterized 909820/0289 indicates that the cleaning system (3) nine conditioning system (19) serving to disinfect the drinking water is. 13.) Plant according to claim 12, characterized in that the Anlape (19) consists of one or more storage containers (2o, 21) filled with acid and polymeric phosphates with metering pumps (22, 23). 14.) Plant according to claims 1 to 13, characterized characterized in that the Orob and fine cleaning system (2, 3) within the Containers (1) is followed by a desalination plant. 15.) System according to claim 11, characterized in that the desalination system consists of a reverse osmosis system (2 ¹ O and a high pressure pump (25). 16.) Plant according to claim 15, characterized - -5 909820/0289 shows that the underground osmosis system (2 ¹ O has a continuously operating pH meter (27). 17.) Plant according to claims 1 to 16, characterized in that the drinking water discharge (5) is a continuous working conductivity measuring device (28) having. IB.) Plant according to claims 1 to 17, characterized in that the U-O system (24) can be bypassed by a bypass line (29) with pump (3o), the line (29), seen in the flow direction of the water, connected upstream of the high pressure pump (25) is and fed into one of the U-O system (24) nachgesohalteten storage container (26) is. 19) System according to claims 1 to 18, characterized in that the on the storage container and / or on the bypass line (29) 909820/0289 connected ^rp water drainage (5) with a pure water pump (3D and / or manual tapping points (32). 2o.) Plant according to claim 19, characterized in that the removal points (32) are attached outside the container (1). 21.) System according to claims 1 to 19, characterized in that the container (1) has a laboratory (33) required for the analysis of the raw and used water. 22.) System naoh claims 1 to 9, characterized in that the container (1) has storage spaces (3 ¹ I, 35) for receiving wear parts, raw chemicals and the like. 23.) Plant according to claims 1 to 19 »da marked duroh that the container (1) except for a net sole with its own - 7 909820/0289 Power supply system (36) is equipped. 21.) System according to claim 23, characterized in that the power supply system (33) can be operated by a diesel engine . 25) Plant according to claims 1 to 21, characterized in that the container (1) is provided with an air conditioner, a tropicalized insulation and protection against termite infestation. 26.) System according to claims 1 to 25 * as characterized in that several parallel- connected containers (la to 1 d) are connected to a Ro hwasserleitung (1) and a drinking water discharge (5) with the corresponding feeds. 27.) System according to claims 1 to 26, characterized in that the parallel connected container (1 a to 1 d) structurally are arranged next to and / or one above the other. 909820/0289