DD292196A5 - FOIL MATERIAL FOR THE STORAGE OF WAESSER SOLUTIONS FROM AGROCHEMICALS, ESPECIALLY FLUID PRODUCTS - Google Patents

Abstract

The invention relates to a process for the storage of aqueous solutions of agrochemicals, especially of liquid fertilizers, such as ammonium nitrate-urea solution (AHL), in immersion tanks made of PE film tube, under water. The object of the invention is to propose a technical solution, which is characterized by simple design of the immersion tank, convenient adaptation to concrete local conditions, high economic efficiency, protection of the environment and long life. According to the invention, this object is achieved by closing the 0.200 mm thick tubular film at the ends with weld seams acting as a structural element, which are rotated 90 against each other so that a highest area of the immersion tank results, depending on the construction of the sump, the air equalization pipe and the filling and drainage pipe are installed and a gas volume is maintained with a gas pressure of at least 150 mm of water. {Diving tank; Film material; polyethylene; Fluessigduengemittel; Ammonium nitrate-urea solution; Film tube; Schweisznaht; catch basin; Venting line; Filling and emptying line}

Description

For this 2 pages drawings

Field of application of the invention

The invention relates to a tank closed on all sides of sheet material, in particular for the storage of liquid fertilizers, such as ammonium nitrate-urea solution (AHL) in agriculture and in manufacturing plants, which submerged in a water-filled basin or silo.

Characterization of the known technical solution

The prior art is characterized by underwater tanks according to DE 2006659 for the storage of liquids,

in particular of wastewater, for the construction of which, however, a complex construction under water is required. From the patent DE 2243369 a container for storing petroleum under water is known in which the tank material consists of at least two layers of polyamide or polyester and neoprene. This is from the outset an expensive production of the tank connected. Patent DE 2447246 describes a device for storing media under pressure with a skin of high-strength, flexible material, which involves the disadvantage of high economic expenditures for the tank skin. A similarly costly solution is described in DE 1756713, where as a sheet material Nylontextilgut, which is coated with synthetic rubber, is used. According to DE 2413383 there is known a device made of polyethylene for the storage of liquids under water, which, however, has the disadvantage that for the bubble for receiving the liquid to be dried, plastic in the form of firm, rigid sheets with a thickness of at least 2 mm, which require considerable expenditure for assembly and are more expensive.

Object of the invention

The invention has the aim of finding a technical solution for the storage of aqueous solutions of agrochemicals, especially liquid fertilizers with a density> 1 g / cm ³ , which is characterized by high storage capacity, low implementation costs, ease of use and long life.

Explanation of the essence of the invention

The invention has for its object to provide a dip tank for storage of liquid fertilizers such as AHL with a density> 1 g / cm ³ , which is distinguished from the known technical solutions by high efficiency, ease of construction and safe operation.

This object is achieved in that is used as a material for the immersion tank underwater PE film tube with a thickness s 0.2 mm, the ends with welds as a construction element - with a horizontal immersion tank 90 ° rotated against each other and standing in the immersion tank with the upper Weld seam at least 10 "inclined relative to the horizontal tilted, resulting in a highest area of the dip tank, in which the air equalization line is tightly installed with the film tube.

In the case of a lying immersion tank (height <length or width), the highest area is formed at the vertically drawn weld seam.

Another feature of the invention is that, depending on the density of the liquid fertilizer in the dip tank

Gas volume is included, to compensate for the effects of density differences between immersion tank contents and

contributes surrounding liquid, so that the dip tank in the filled state exerts a low contact pressure on the bottom of the receptacle and thus the sometimes harsh conditions of practice, since destruction of the thin tank skin is avoided by bumps. In addition, the gas pressure has a safety function, as it acts as an indicator of the tightness of the dip tank, taking into account temperature fluctuations.

According to the invention, a gas pressure in the immersion tank of a 150 mm WC must be set during storage. It is understood that when emptying this gas pressure can be exceeded without an impairment of the found technical solution results.

Depending on the nature of the catch basin, the filling or emptying line is designed as an inner tube of the air equalization line, which extends to the bottom of the immersion tank, or tightly sealed to the sole material of the immersion tank.

From a technical-economic point of view, the invention has the effect that also the reuse is heavily contaminated (for example with heating oil)

Steel tanks with low cost is possible by a standing dive tank (height> width or length) is installed in the form that the upper weld of the film tube at least 10 "to the horizontal obliquely executed and in the highest area the air equalization line is integrated At the bottom of the dipping tank, the filling and discharge line, which is led outside, for example, in the vicinity of a manhole normally present in steel tanks, becomes tightly sealed with the foil material at the bottom of the dipping tank The filling level in the dip tank is measured using a suitable measuring device, eg in the filling and emptying line For the measurement of the air pressure in the interior of the immersion tank, a U-tube manometer is preferably installed in the air equalization line For the immersion tank, it is recommended that a brine be used during the winter months as a liquid surrounding the immersion tank.

With the technical solution found is also associated the advantage that in water protection areas by two or more nested tubular films at low cost additional security in the operation of liquid fertilizer tanks is guaranteed. In the interest of a long life of the immersion tank made of polyethylene, the well-known fact of UV light absorption by water is used in the context of the invention that an at least 150 mm thick water layer is set above the top of the dip tank.

embodiments

Embodiments of the invention will be explained in more detail with reference to drawings. Show

1 shows a longitudinal section of a dipping tank in a concrete tank,

2 shows a plan view of three immersion tanks which are connected to one another,

Fig. 3; Longitudinal section of the immersion tank in a vertical steel container.

FIG. 1 shows the invention to a considerable extent.

An earthen pit as a collecting container 1, the z. B. made of concrete L-parts and, if necessary, was designed watertight with a film, takes the dip tank 2, transported as a hose reel and welded on site so at the ends that the two welds are rotated by 90 ° from each other. Near the vertical weld 3, the filling or emptying line 5 and air equalization line 6 is installed.

Before filling the dipping tank with liquid fertilizers 7, the collecting tank is filled with carrier liquid (water) 8 to the required extent.

It is advisable to carry out a leak test with air before first infilling the dipping tank with liquid fertilizers. Depending on the density of the immersion tank contents, the desired gas volume 9 is set, it being assumed that temperature fluctuations of the carrier liquid are low in time. The specified gas pressure in the gas bubble of the immersion tank is still a suitable means of checking the tightness of the tank, taking into account the variations in temperature.

When emptying the dipping tank, a reduction of the gas pressure is understandably occurring. In this step, the air equalization line is opened to ale compensate for the pumped liquid air to flow.

FIG. 2 shows the connection of several immersion tanks with pipe couplings. The couplings are mounted close to the ground for the replacement of the liquid stored in the tank. The air compensation takes place via the air compensation line, which is integrated in the highest area near the vertical weld.

In Figure 3, a dip tank is shown, which was installed in its vertical steel tank. Essential is the near the tank roof upper weld, which is inclined at an angle of at least 10 ° relative to the horizontal, so that a highest area of the dip tank is created, in which the air equalization line 6 is integrated. At the bottom of the dip tank, the filling and emptying line 5 is installed.

Claims (9)

Claims: < 1. Dipping tank made of film material for the storage of aqueous solutions of agrochemicals, especially liquid fertilizers with a density> 1 g / cm ³ , under water in a pit, a basin, steel tank, concrete silo or transport container, wherein the surface of the dip tank covered by the surrounding liquid is, characterized in that is used as a plastic material PE film tube with a thickness of <0.2 mm, the welds (3.4) are mounted as a structural element spatially different results in a highest area of the dip tank, in which the air equalization line (6) is integrated , in the dip tank (2) a gas volume (9) with a gas pressure of at least 150 mm WS is set, a connection of individual dipping tanks to larger units and the filling and emptying line (5) is preferably designed as an inner tube of the air equalization line (6). 2. dip tank according to claim 1, characterized in that in horizontal immersion tank made of tubular film, the welds are rotated at 90 ° to each other at the ends of the tubular immersion tank, thereby forming the highest area of the immersion tank on the vertical weld (3). 3. dip tank according to claim 1, characterized in that when the immersion tank, the upper weld is at least 10 ° relative to the horizontal obliquely executed and in the highest area of the immersion tank formed in this way, the air equalization line (6) is installed. 4. dip tank according to claim 1, characterized in that with the gas pressure is given the opportunity to check the tightness of the dip tank, with temperature fluctuations are taken into account. 5. dip tank according to claim 1, characterized in that a plurality of foil tubes are connected to each other by means of pipe or hose couplings to larger units. 6. dip tank according to claim 1, characterized in that when the immersion tank filling or emptying pipe (5) and air equalization line (6) are installed independently. 7. immersion tank according to claim 1, characterized in that from one side separated film tube obtained film webs are welded together. 8. dip tank according to claim 1, characterized in that a spiral or zigzag arrangement of the film tubes is realized. 9. immersion tank according to claim 1, characterized in that two or more tubular films be pulled together and double welds are applied, which divide the film material of the immersion tank in demarcated areas.