DE19952518A1 - Compact system, for introduction and extraction of liquids and gases in natural and artificial systems, combines manifolds, porous tubes and porous bands - Google Patents

Abstract

Flexible tubular lines are prepared using diverse processes e.g. weaving, sewing, adhering or welding, preferably incorporating them into bands of such materials. An initial section is included during production. The far ends are closed. The tubes have pores, or are membrane-like, permitting liquids and/or gases to be introduced into or removed from the natural or artificial system. Initial sections are connected to manifolds, enabling handling of gases or liquids.

Description

The invention relates to a device made by weaving, needling, gluing or Ver melt networked hoses or pipes as well as other lines for liquids or gases that are formed as a woven, non-woven or composite material. This creates a Tubular or tubular fabric or tubular or tubular fleece usually in Tracks. The invention further relates to the merging of the individual with textile Techniques cross-link hoses or pipes in a manifold or connection with which Aim to lead gases or liquids through the hose or tubular textile. The invention is still immanent that the outer walls of the individual textile processed Schläu che or pipes by Porung or by training as a membrane for gases and liquids are permeable. So gases and liquids can be a natural or technical System in which the tubular or tubular textile is suspended or immovable or are permanently installed and in which liquids or gases are usually due to the space Lichen design of the systems with strong concentration gradients not or only time distribution could be delayed, liquids or gases over a small area and thus on the one hand in low concentrations and on the other hand evenly over the entire ge desired reaction zone are metered in, or withdrawn from it.

It is known that geotextiles are water-permeable, rot-proof fabrics, fleece Fabrics and composites made from natural fibers and plastics or others with textiles Techniques to be processed, such as carbon fibers, can be produced. In basic construction they serve as drain, filter, protection or separating elements as well as for reinforcement, Pack and protect. They are between two layers of soil or on the border used between soil or mountains and building.

It is also known that woven fabrics are made of crossing threads, non-woven fabrics are made of unordered net superimposed and with each other by needling, gluing or fusing connected threads or fibers as well as composites from several woven and non-woven fabrics gene can be produced.

It is also known that addition and distribution or removal of liquids or gases in or from natural or technical systems Men, such as soils or reactors filled with granules, wells lances can be used.  

In addition, it is known that the horizontal and vertical distribution of liquids and Gases over wells or lances in porous, still systems, such as Soils, compost rents, reactors filled with granular reaction media, soil sub strate in wastewater treatment plants as well as incomplete mixing liquid systems, such as wastewater in clarifiers, is not possible or is only possible incompletely. This is based on the one hand that the convection by the geometry of the reaction spaces and the associated flow resistance is severely limited. On the other hand the distances between addition devices, such as lances or wells, so large that Diffu sion processes that are uniform over the long term due to the concentration gradients Distribution of added liquids or gases cause for the desired process run slowly. For devices such as lances or wells added liquids or gases therefore much higher than for the desired one Process stoichiometrically necessary to be metered. When covered by microorganisms supported degradation or conversion processes, such as nitrate reduction, this leads also to undesirable excessive biomass formation, with the disadvantage of a Verbloc kung of pores or an undesirable discharge of microorganisms, for example in the groundwater outflow or in technical systems in the subsequent reaction reactor. Conversely, it is often not possible for the reasons mentioned, for such na desired or undesired reaction products to natural or technical systems remove.

The invention is based on the object of specifying a device which allows through a three-dimensional network of pores associated with textile techniques hoses or fine pipes or other lines, liquids or gases in a natural or technical system over short transport distances and in short times add or remove. The textile-processed hoses or pipes thus form one usually fabric that can be produced in webs and through which liquids or gases can flow be or fleece.

The invention is furthermore based on the object of adding substances dissolved in liquids or contained in gas mixtures only in a concentration such as is required stoichiometrically for the desired reaction, such as, for example, pollutant degradation or substance synthesis, and thus

• a) to reduce the metering quantities to a minimum or to reduce the out increase loot during a synthesis process,
• b) to reduce the reaction space,  
• c) shorten the response times,
• d) in microbially supported reactions the microorganism growth and thus the Limit the amount of biomass to what is necessary for the desired reaction.

With the device it is possible to use a natural or difficult to mix technical system, horizontal and / or vertical, with a coherent and of to pull through the externally influenceable capillary system from tubes or pipes, with the desired reactions, such as the oxidation of a pollutant with oxygen or the reduction of a pollutant with organic carbon dissolved in water and Microorganisms, over the entire height, width and depth of the system to be treated mouse section can be generated. The aim of the invention is to overcome the obstacles that granu lat-like or porous media, or difficult to mix liquid or gaseous Media of a convective or diffusive distribution of a substance to be added from outside or oppose its distance, by overcoming that Transport routes for the liquids or gases to be added or removed, such as it can also be found, for example, in plant roots, to a minimum. Plants that grow in the still, porous soil also shorten the trans port routes in the pore space of the soil through a dense network of fine roots, and overcome the flow resistances that the porous medium con opposed vective and diffusive mass transport.

The invention is also based on the object, in granular or porous form difficult to mix liquid or gaseous media systems defined Ober to create areas on which microorganisms settle and, similar to a my corrhizza, form a biofilm in which the desired reactions can take place. about the hoses or pipes networked with textile techniques can correspond to these biofilms depending on the environmental conditions present in the technical or natural systems and provides the desired chemical or biochemical reactions with nutrients become.

In addition, the invention has for its object that of the hoses or Fabrics or nonwovens manufactured from pipes or liquids or gases from technical or pipe natural systems by applying a vacuum to this networked capillary stems can be removed.

The device is realized according to the invention by combining the following features:

• a) With the help of textile techniques such as weaving or needling, fusing or Glue, flä from flexible hoses or pipes or other lines Fabric or fleece, usually in webs, made with the starting pieces the hoses or pipes are held together in a bundle.
• b) Fabrics and nonwovens produced in this way can also be combined to form a composite, For example, fleece made of hoses or pipes on the inside and conventional on the outside Fabric as a support or protective element, processed.
• c) The ends of the hoses or pipes are usually formed by a blind piece.
• d) The hose or pipe start pieces are made according to the processing requirements tion technology before, during or after completion of the manufacturing process of the Tube or tube fabric or tube or tube fleece brought together and attached a collective bar or connector connected. There is also a connection via others Attachments or adapters attached to the manifold or nozzle possible.
• e) The hoses or tubes have pores to allow liquids or fluids through them Add or remove gases in a natural or technical system can.
• f) The hoses or pipes can also be made of materials with membrane or filter properties shafts exist so that the liquids or gases to be dispensed respectively substances dissolved or mixed in it through hose or pipe walls in the natural or technical system that surrounds them emerges or exits these systems can enter the inside of the hoses. This can be done with About pressure or negative pressure or solely based on diffusion processes happen.
• g) The roughness of the inner and outer walls of the hoses or pipes is thus designed that microorganisms can settle on them if necessary.
• h) The manifold or connector is what the diameter and geometry of the hoses or pipes, with suitable connections for the pipe or hose lines Mistake. The number of connections depends on the number of connections in the fabric or fleece processed hoses or pipes.
• i) With the help of a pump, liquids or Gases through the hoses or pipes from or into a storage container transported.

Both for tubular or tubular fabric as well as for tubular or tubular fleece or in The hoses or pipes can be made of a composite with conventional web or verna can be combined to form the density of the tubes per surface or  Volume unit of the fabric or fleece or the density of the on and off points of entry, measured as the number of pores per hose or tube surface, per area chen or volume unit of the fabric or fleece as required.

The thickness of the flexible hoses or pipes or other lines and their inside diameters depend on the type and amount of the liquids to be conducted and Gases and their pumpability as well as the possibilities of ver using textile techniques to be able to work.

The hose fabric or fleece can be made entirely of hoses or tubes be put. If necessary, they can also be made by weaving or needling conventional threads are extended so that the end of a web of non-liquid or gas-conducting fabric or fleece.

The tubular or tubular fabric or fleece does not necessarily have to be in a blind piece end up. The end pieces of the textile processed hoses or pipes can also be bundled be gripped so that the tubular fleece on both sides on a collecting bar or - connector can be connected.

The hoses or tubes can be made of various flexible materials, such as polyethylene, polypropylene, polyvinyl chloride or silicone.

The width, length and thickness of the woven or nonwoven webs or composite lanes is based on the techniques of needling, fusing or gluing as well as the purpose.

The hose lines or pipes can also be made of biodegradable plastics be manufactured so that in the case of long periods of use in a technical system, such as in a compost rental or in a natural system, such as one aquifer contaminated with pollutants, the removal of the hose or Tube fabric or fleece after completion of the desired reaction due to natural biodegradation to carbon dioxide and water is no longer necessary.

When manufacturing composites, only the inner part made of textile can be processed There are hoses or pipes. The outer part then consists of conventional Ge weave. But it is also conceivable, in addition, the outer tissue made of liquid and manufacture gas-conducting hoses or pipes. There is also the reverse possibility  to manufacture the interior of the composite from conventional fabric or fleece and to apply a tubular fabric or fleece to it.

The tubular or tubular fabric or fleece is usually used as a flat web manufactured. But it is also conceivable to change the hoses or pipes to other geometrical shapes Molds, such as filled or hollow cylinders, to process them in front of adapt to the given forms of natural and technical systems.

Furthermore, the invention will be explained using an exemplary embodiment:

It shows

Fig. 1: Top view of a section of a nonwoven fabric made of tubes by needling and gluing, coated with a water and gas permeable fabric as a support element.

Fig. 2: Top view of three 1.0 m wide and 5.0 m long hose fleeces with collecting beams.

Fig. 3: Detail of a longitudinal section through a Herge made by needling and gluing tubular fleece with fabric coating.

Fig. 4: Cross-section through a 100.0 cm wide and 4.0 cm thick tubular fleece, installed in a aquifer and flows through contaminated groundwater.

It is now assumed that approximately 5 mm thick hoses made of polyethylene are processed into a 4.0 cm thick fleece by needling (cf. FIG. 1). The hoses have pores. In the first step, the contact points in the fleece are connected to each other by heating. The fleece is produced in a length of 5.0 m ( Fig. 2). The tube ends are held together while needling.

The outer liquid- and gas-permeable fabric, with a mesh size of 2.0 mm, is in the second step at its contact points with the hoses by heating connected to them, so that a tensile composite of tubular fleece and outer fabric arises (cf. Fig. 3).

In the third step, the hoses are connected to a collecting bar, usually by means of plug connections (see Fig. 2). Via the collecting bars of a pump liquids or gases may now by means of in a natural or technical system are finely dispersed (see. Fig. 1 and Fig. 4).

The liquids emerge through the pores into the surrounding system, here for example groundwater. The close networking of the hoses creates very small spaces in which the added liquids can be distributed in the groundwater (see Fig. 4). As a result, the transport routes for the added liquids are limited to a few millimeters and the amount of liquid to be added to the stoichiometrically necessary amount.

The open in the above description, in the drawings and in the claims Beard features of the invention can be used both individually and in any combination the realization of the invention may be essential.

Claims (7)

1. Device for small-scale addition and removal of gases and liquids in technical and natural systems, characterized in that

• a) flexible hoses or tubes or other lines are processed by weaving, needling, gluing or fusing to form a tube or tube fabric or tube or tube fleece, preferably in webs,
• b) the starting pieces of the hoses, pipes or other lines are held together during processing into fabrics or nonwovens,
• c) the ends of the hoses or tubes processed into fabrics or nonwovens run out in a blind piece,
• d) the hoses or pipes generally have pores or membrane-like properties, so that liquids or gases which are passed through them can be added to or removed from the surrounding natural or technical system,
• e) the hose or pipe start pieces of the hose fabric or nonwoven, or as tube fabric or nonwoven are connected to a ver with the corresponding connectors provided collective bar or connecting piece, so that a loading of the hose or tube fabric or hose or tube nonwoven with liquids or gases.

2. Device according to 1., wherein

• a) the tubular fabric or nonwoven fabric or tubular fabric or nonwoven fabric are processed in various sequences from one or more fabrics or one or more nonwovens into composites.

3. Device according to 1., wherein

• a) in the case of multilayer composites, liquid- or gas-conducting tubular or tubular fabrics or tubular or tubular nonwovens can alternate with conventional, non-liquid- or gas-conducting fabrics or nonwovens.

4. Device according to 1., wherein

• a) the hoses or tubes processed into fabrics or nonwovens can be combined with conventional threads or fibers.

5. Device according to 1., wherein

• a) the webs made of hoses or tubes can be extended with conventional threads or fibers.

6. Device according to 1., wherein

• a) the fabrics, nonwovens or composites made from hoses or pipes or other lines can be processed into geometric shapes other than flat webs.

7. Device according to 1., wherein

• a) the hoses or pipes processed into fabrics or nonwovens not in a blind piece, but end openly so that they can be connected to the collecting beam or connecting piece on both sides.