FR3041341A1 - PROCESS FOR TREATING A POLISHED AND CONDUCTED AQUEOUS EFFLUENT FOR ITS IMPLEMENTATION - Google Patents

Abstract

The invention relates to a method of aerobic treatment of a polluted aqueous effluent, which flows in a section (1) of substantially vertical conduit. The effluent sprinkles a wired support (2), which carries, in a gel, a charge of microorganisms and enzymes, in particular secreted by them. The invention also relates to the duct equipped for the implementation of the method.

Description

The present invention relates to the field of treatment of organic materials present in the pollutant effluent removal circuits. It relates to a method and a device for the elimination by biological degradation of organic materials and in particular fatty deposits in the evacuation and / or treatment of domestic effluents, in particular in the columns of wastewater collection and wastewater in multi-family buildings, and in grease traps for kitchens and agri-food workshops.

It is known that the collection and disposal of effluents are gradually fouled by the agglomeration of sludge, grease and limestone contained in the wastewater. This fouling increases with time, has the effect of reducing the passage section of the discharge pipes of domestic effluents or pipes downstream of the grease traps until clogging if we do not proceed to regular cleaning.

The cleaning of building ducts is generally carried out by specialized companies, by the method of hydro-cleaning, which involves associating a mechanical cleaning with the help of brushes called "ferrets" followed by a washing with water under pressure. These cleanings require a specific material and a long intervention, which, even led by a competent team, is not exempt from constraints. On the one hand, in a building, mechanical cleaning and water pressure can damage the pipes or render them unusable when the installations are old. On the other hand, the presence of all the tenants of the building concerned is required during the intervention, so as to take the necessary precautions to prevent wash water from rising in the various apartments of the building. building.

Disadvantages of the same order are encountered with the grease trays. These bins, placed at the outlet of the effluents coming from domestic kitchens, collective kitchens or even food manufacturing workshops, are generally very loaded with fats. The effluents cool by crossing the tanks and form a layer, which must be extracted regularly to prevent the tank from fulfilling its function. The trapped fat extraction is carried out by a team of specialized emptiers, who usually send them to already saturated purification plants.

In French Patent 2884246, it has already been proposed a treatment by biological degradation of organic materials present in an aqueous effluent discharge circuit, in which a non-immersed culture support is likely to be colonized by microorganisms capable of degrading. at least partially said organic materials. The support is placed in the evacuation circuit to be seeded using microorganisms capable of degrading, at least partially organic matter; a reservoir containing a nutrient medium feeds the culture support to ensure the multiplication of said microorganisms. The treatment device is left in place until the organic matter to be removed disappears. The system operates unattended except for the possible replacement of the nutrient load contained in the tank, this replacement being effected by introducing a new nutrient load into the evacuation circuit by an obstructing view in said circuit.

Such a biological treatment has the advantage of being softer, because it does not subject the conduits to the pressure of water and ferrets and to respect the environment provided that the microorganisms used are properly chosen. Such a non-immersed microbial culture and multiplication device operates completely autonomously because it is placed directly in the circuit to be treated; the culture medium of the microorganisms is associated with a reservoir of nutrient solution, both being placed in the evacuation circuit of the effluents to be treated. The entire device is retained inside the evacuation circuit by mechanical means.

It is expected that when effluents are discharged above the treatment device, a portion of these effluents enters the reservoir to dissolve a dissolving nutritive load, the nutrient medium thus obtained supplying the culture support to ensure microbial growth. The walls of the reservoir are of filter material and the culture support is a porous support preferably fixed to the walls of said reservoir, for example by hooks or seams. It is envisaged that the culture support may consist of any material capable of being colonized by microorganisms and in particular porous fibers assembled into a bundle.

According to the invention, it has been found that the treatment proposed in French Pat. No. 2,884,246 can be considerably simplified by eliminating the setting up of a nutrient dispenser reservoir and by ensuring that said nutritive product is simply brought onto the support by the spraying of the polluted effluent itself, the support then carrying on the one hand, a load of aerobic microorganisms able to colonize it and on the other hand, enzymes capable of degrading at least partially, so known, the organic matter of the effluent. In fact, it has already been proposed to use enzymes capable of degrading the fats responsible for the formation of deposits by agglomeration with sludge and limestone; the crusts formed on the walls are broken down by enzymatic action and gradually unhook to be carried away in the liquid effluents. In French Patent 2884246, it was proposed to use such enzymes but by placing them in the nutrient reservoir, which, therefore, prohibited the removal of said reservoir.

In the improvement according to the invention, it has been found that the spraying of the polluted effluent was sufficient to constitute a nutritive product when the carrier was carrying aerobic microorganisms of degradation of organic matter contained in the aqueous discharges and of enzymes secreted by these microorganisms during their action. A reservoir of nutrient is no longer necessary, which greatly simplifies the prior art and reduces its cost, the introduction of microorganisms and enzymes on the support can be done by simply coating in a single step.

The subject of the present invention is therefore a process for the biological treatment of a polluted aqueous effluent, transported in a conduit comprising at least one substantially vertical section, in which a wire support extending in the internal volume of the conduit is placed and maintained relative thereto not to be entrained in the direction of flow of the aqueous effluent, said support being arranged to be in contact with the flowing effluent and being made of a porous, fibrous or filamentous, able to be colonized by the microorganisms transported by the effluent, the volume of said support in each section of the section not being likely to obstruct, during use, the flow of the effluent, characterized in that at least partially coating the support, before it is put into place in the interior volume of the conduit, with a charge of aerobic microorganisms capable of degrading at least partially the organic substances, said microorganisms may include those transported by the effluent, said feed being associated with an accelerator degradation product of said organic material, said feed containing enzymes including those secreted naturally by at least one of the microorganisms carried by the wired support. The coating of the wired support contains an accelerator product containing enzymes including those secreted by at least one of the microorganisms carried by said support, the enzymes that are introduced into said coating product may constitute from 0.2% to 5%. % by weight relative to the weight of the coating product. This is any type of enzyme that can ensure the degradation of organic matter from domestic aqueous releases, namely in particular a lipase, a cellulase, a protease and an amylase.

It is possible to use as lipase, at a level ranging from 0.05% to 1.25% by weight relative to the total weight of the coating product, for example the product "Lipex 100T" supplied by the company "Univar".

It is possible to use as cellulase at a level ranging from 0.05% to 1.25% by weight relative to the total weight of the coating product, for example the product "Carezyme 900T" supplied by the company "Univar".

It is possible to use as protease, at a level ranging from 0.05% to 1.25% by weight relative to the total weight of the coating product, for example the product "Polarzyme 12T" supplied by the company "Univar".

As amylase, it is possible to use at a level ranging from 0.05% to 1.25% by weight relative to the total weight of the coating product, for example the product "BAN" supplied by the company "Univar".

It is clear that the coating product may contain a plurality of enzymes in mixture depending on the conditions of use and the pollution of the effluents to be treated.

The wired support coating product contains bacteria that are either directly dispersed in said coating material or incorporated into particulate carriers. Bacteria sponded on zeolite particles or the like can be used; Yeasts can also be used instead of bacteria. Such an implementation can use a bacterial inoculum comprising any type of class 1 bacteria (non-pathogenic) that can ensure the degradation of organic matter aerobically and, in particular, the product "Bichem TD 507M5X" sold by the company "Novozymes".

Any type of porous material, mineral or organic, with a high specific surface area for fixing and microbial growth can be used as particulate support. For example, it is possible to use clay such as "Sepiolite" supplied by the company "Sepiolsa" or pumice "Grade UMP16" supplied by the company "Minéralx".

The particulate bacterial carrier is advantageously used from 1% to 10% by weight relative to the weight of the coating product.

According to one embodiment, the wired support is coated with the charge of aerobic microorganisms and the accelerator product by means of at least one gel or a viscous fluid containing said product (s), said coating being able to in particular by simply dipping the wire support in the coating product. If the coating of the wire support is carried out by means of a gel, it is possible to use a gel having a viscosity of between 1000 and 10,000 centipoise. If the coating of the wire support is carried out by means of a gel, it is advantageous to use, in 70% to 95% by weight of water, a natural thickener such as a xanthan gum, agar-agar or cellulosic derivatives or synthetic thickeners imparting a gel-like texture, which promotes the attachment of the microorganisms on said support. It is especially possible to use a dispersible xanthan gum supplied by the company "Azelis".

According to one embodiment, the wire support is coated at least partially with a gel or viscous fluid containing at least one surfactant to help solubilize water-insoluble waste attached to the walls of the conduit that carries the aqueous effluent. When the coating of the wired support contains a surfactant, it is possible in particular to use, in a proportion of 0.5 to 2% by weight relative to the total weight of the coating product, the product called "BEROL EZ-1" provided by the company "IMCD France".

According to one embodiment, the polluted aqueous effluent contains fatty or lipidic substances that can be degraded by an aerobic microbial action.

According to one embodiment, a flexible elongated solid body retained in the conduit by one of its ends is chosen as wired support. When the elongated flexible flexible body, which constitutes the wire support, is a rope, twisted or not, said rope may be made of any natural or synthetic absorbent fiber that can fix the microorganisms and promote their development. There may be mentioned, for example, natural fibers (sisal, hemp, cotton) or synthetic fibers, for example nylon.

According to one embodiment, the end of the wired support, which does not ensure its retention, is left free to move in the interior volume of the conduit. The subject of the invention is also a duct for implementing the method defined above, said duct comprising at least one substantially vertical section intended for the flow of a polluted aqueous effluent, in which a wired support is arranged. extending into the interior volume of said duct and maintained with respect thereto not to be entrained in the direction of flow of the aqueous effluent, said support being arranged to be in contact with the flowing effluent and being consisting of a porous, fibrous or filamentous material allowing a hooking of microorganisms transported by the effluent, the volume of said support in each section of the section being small enough that it is not likely to obstruct, during use, the flow of the effluent, characterized in that said wired support is at least partially coated with a charge of aerobic microorganisms which may include those transported by the Effluent, said charge being associated with an accelerator product containing enzymes secreted by at least one of the microorganisms carried by said support.

According to one embodiment of the conduit according to the invention, the wire support is at least partially coated with a gel or a viscous fluid containing the charge of aerobic microorganisms and an accelerator product.

According to one embodiment of the conduit according to the invention, the coating product of the wired support contains at least one surfactant to help solubilize water-insoluble waste attached to the walls of the conduit that carries the aqueous effluent.

According to one embodiment of the conduit according to the invention, the wire support comprises a plurality of strands retained, to form an assembly, by a single means disposed in the area where the support is maintained with respect to the conduit.

According to one embodiment of the conduit according to the invention, the different strands of a wire support are made of the same material.

According to one embodiment of the conduit according to the invention, the wire support is a rope formed of braided or twisted fibers and retained, at its upper end, relative to the conduit. The retaining means of said support may be a hooking on a fixed point outside the conduit.

According to one embodiment of the duct according to the invention, a section of the duct, inside which is arranged the upper part of a wire support, may comprise at least one element, which allows the replacement of the initial wire support by a wired replacement support to maintain the potential of nutrients and / or accelerator and / or surfactant carried by said support.

To better understand the invention, will be described below, by way of purely illustrative and non-limiting example, an embodiment shown in the accompanying drawing.

In this drawing, the single figure shows schematically the upper section 1 of the chute of a single-storey dwelling house; in the section 1, it has, according to the invention, set up a wired support 2. The section 1 opens at the roof 3 of the building to form a roof vent.

The wire support 2 is a twisted rope made with sisal fibers; this rope has a diameter of about 1 cm; the inner diameter of the section 2 is in accordance with the standards in the field, for example about 10cm. The length of the rope 2 is chosen so that its lower end is at the level of the main pipe, which connects the chute to the collective network of wastewater, while its upper end is a little above the roof 3. The upper end of the rope 2 is hooked by a knot on a fixed point of the roof.

The rope 2 is put in place after having been coated by dipping in a gel having a viscosity of about 10,000 centipoise (BROOKFIELD Viscometer DV Π + Pro, RPM = 20, SPINDLE No. 03, Temperature 22.9 ° C.) obtained with xanthan gum dispersible in water; the upper part of the rope 2 is not coated over a length of about 1.5m. The coating gel of rope 2 has the following weight formulation:

The coating by a simple soaking generally allows to coat the rope 2 with a quantity of 75g of gel per meter of rope subjected to soaking.

The chute comprising the section 1 described above evacuates domestic water in general, which is statistically produced, for a dwelling house, at a rate of 150 to 200 liters per person, such effluent containing several tens of billions of dollars. germs per liter. A significant depollution action was found by implementing a conduit according to the invention using a rope 2 coated as described with a total length of approximately 10 m (significant increase in the number of bacteria on the culture support in favor of colonization of the canals by these microorganisms and biological degradation of organic deposits).

Claims (16)

A method for the biological treatment of a polluted aqueous effluent, transported in a conduit comprising at least one substantially vertical section (1), in which a wire support (2) extending in the interior volume of the conduit is placed and maintained relative thereto not to be entrained in the direction of flow of the aqueous effluent, said support being arranged to be in contact with the flowing effluent and being made of a porous, fibrous or filamentous, able to be colonized by the microorganisms transported by the effluent, the volume of said support in each section of the section (1) not being likely to obstruct, during use, the flow of the effluent, characterized in that at least partially the wire support (2) is coated, prior to being placed in the interior of the duct, with a charge of aerobic microorganisms capable of degrading at least partially the organic materials. s, said microorganisms may include those transported by the effluent, said feed being associated with a degradation accelerator product of said organic materials, said feed containing enzymes including those naturally secreted by at least one of the microorganisms carried by the wired support (2) . 2. Method according to claim 1, characterized in that the wired support (2) is coated by means of at least one gel or a viscous fluid containing the charge of microorganisms and the accelerator product, said coating being possible in particular by simply soaking the support in a coating product. 3. Method according to one of claims 1 or 2, characterized in that the coating product contains bacteria directly dispersed in said coating product or incorporated in particulate carriers to 1% to 10% by weight by relative to the weight of said coating product. 4. Method according to one of claims 1 to 3, characterized in that the wired support (2) is coated at least partially with a gel or viscous fluid containing at least one surfactant to help solubilize waste little water-soluble fixed on the walls of the conduit that carries the aqueous effluent. 5. Method according to one of claims 1 to 4, characterized in that the coating product of the wire support (2) contains a nutrient product promoting the development of at least some of the microorganisms carried by said support. 6. Method according to one of claims 1 to 5, characterized in that the polluted aqueous effluent contains fat or lipid material may be degraded by an aerobic microbial action. 7. Method according to one of claims 1 to 6, characterized in that one chooses as wired support (2) a flexible elongated solid body retained in the conduit, by one of its ends. 8. Method according to claim 7, characterized in that the wire support (2) is a rope. 9. Method according to one of claims 7 or 8, characterized in that it leaves the end of the wire support (2), which does not ensure its retention, free to move in the interior volume of the conduit. 10. Conduit for the implementation of the method according to one of claims 1 to 9, said duct comprising at least a substantially vertical section (1) for the flow of a polluted aqueous effluent, in which is arranged a support wired wire (2) extending into the interior volume of said duct and maintained relative thereto not to be entrained in the direction of flow of the aqueous effluent, said support being arranged to be in contact with the effluent in flow and consisting of a porous, fibrous or filamentous material allowing a hooking of microorganisms transported by the effluent, the volume of said support (2) in each section of the section (1) being small enough to be not susceptible to obstruct, in use, the flow of the effluent, characterized in that said wire support (2) is at least partially coated with a charge of aerobic microorganisms which may include those transported s by the effluent, said charge being associated with an accelerator product containing enzymes secreted by at least one of the microorganisms carried by said support (2). 11. Conduit according to claim 10, characterized in that the wire support (2) is at least partially coated with a gel or a viscous fluid containing the charge of aerobic microorganisms and the accelerator product. 12. Conduit according to one of claims 10 or 11, characterized in that the coating product of the wire support (2) contains at least one surfactant to help solubilize water-insoluble waste attached to the walls of the conduit, which transports the aqueous effluent. 13. Conduit according to one of claims 10 to 12, characterized in that the wire support (2) comprises a plurality of strands retained to form a set by a single means disposed in the area where the maintenance of said support (2) with respect to the conduit. 14. Conduit according to claim 13, characterized in that the different strands of a wire support (2) consist of the same material. 15. Conduit according to one of claims 10 to 14, characterized in that the wire carrier (2) is a rope formed of braided or twisted fibers and retained at its upper end relative to the conduit. 16. Conduit according to one of claims 10 to 15, characterized in that a section (1) of the conduit, inside which is disposed a wire support (2), comprises at least one element, which allows the replacement initial wired support by a replacement wired support in order to maintain the potential of nutrients and / or accelerator and / or surfactant carried by said support.