FR2585696A1 - Apparatus for the anaerobic treatment of waste water - Google Patents

Abstract

Apparatus for the treatment of waste water using anaerobic microorganisms immobilised on supports, consisting of a closed vertical vessel comprising a rotating central shaft, equipped at its base with means for the entry of the waste water to be treated and in its upper part with means for the exit of the treated water and the discharge of the fermentation gases produced, characterised in that the vessel comprises a superposition of supports for the anaerobic microorganisms, some 2 being driven in a rotational motion, the others 3 being stationary. The superposition of the supports is advantageously alternating, a support driven in a rotational motion being superposed on a stationary support. The supports have a surface with concavity preferably pointing towards the lower part of the apparatus.

Description

 The present invention relates to an apparatus for the treatment of wastewater, in particular septic, by anaerobic microorganisms attached to supports.

 The invention applies to the anaerobic treatment of effluents with low flow rates, for example effluents of agro-food industries with low seasonal flow rates and more particularly to domestic or community effluents.

 It has long been known in autonomous sanitation to treat effluents in septic tanks or pits "all waters" with evacuation in the soil where the purification continues, septic tanks not being sufficiently powerful to allow a direct rejection of liquor treated in natural outlets, rivers, ditches, etc ... and in particular does not properly reduce the soluble fraction of pollution.

 To improve the efficiency of septic tanks or all-water pits, it has already been proposed to add a complementary treatment apparatus, aerobic pit, bacterial bed, aerobic biological disks or anaerobic immersed filter.

 However, these various devices have the main disadvantage, particularly constraining in autonomous sanitation, to require frequent human interventions: purging excess sludge produced in the case of processes comprising an aerobic zone; mechanical or hydraulic cleaning of the bacterial filter whose clogging is unavoidable in the case of mixed or anaerobic processes comprising such a filter.

 The apparatus of the invention, connected to one or more septic tanks, or all waters, overcomes this disadvantage by eliminating any risk of clogging and minimizing the production of sludge while achieving significant purification yields. It is particularly suited to semi-collective sanitation where it can be connected to a set of individual septic tanks.

 The apparatus according to the invention, for the treatment of waste water by anaerobic microorganisms fixed on supports, which consists of a closed vertical enclosure comprising a rotating central axis, provided at its base with means for the entry of the waste water to be treated, at its upper part means for the outlet of the treated water and the evacuation of the produced fermentation gas is characterized in that the enclosure comprises a superposition of supports of the anaerobic microorganisms, the some animated with a movement of rotation, the others fixed.

 Advantageously, these supports are alternately arranged, a support animated with a rotational movement being superimposed on a fixed support.

 According to the invention, the supports, fixed or animated with a rotational movement, have a concavity surface directed, preferably towards the lower part of the apparatus.

 According to one embodiment of the invention, the fixed or rotated supports are in the form of truncated cones or pyramids, open, preferably to the lower part of the apparatus.

 The optimum values of the angle at the base of the truncated cones or pyramids are advantageously between 100 and 450.

 According to the invention, the supports animated with a rotational movement are integral with the rotating central axis, rotated with the aid of a motor disposed above the apparatus.

 Also according to the invention and in accordance with one of its characteristics, the diameters of the supports are chosen so as to create baffles for the circulation of the wastewater to be treated.

 The various features and advantages of the invention will emerge from the description which follows of one of its possible embodiments. It is clear that this is only an example and that all other provisions could be adopted without departing from the scope of the invention.

In this description reference is made to the accompanying drawings in which FIG. 1 is a vertical sectional view of the apparatus according to the
vention, Figs. 2 and 2a are respectively a top view and a sectional view
a support animated with a rotational movement, FIGS. 3 and 3a are views respectively from above and in section of a
fixed support.

 As seen in FIG. 1 the apparatus according to the invention is constituted by a closed vertical enclosure of cylindrical shape.

 The waste water to be treated is fed to the base of the apparatus through line 1 and flows upwardly over superimposed supports for anaerobic microorganisms.

 According to the invention, these supports are of two kinds - supports 2, driven by a rotational movement, - supports 3, fixed.

 The water, once treated, exits via line 4, the fermentation gases produced are discharged through the outlet orifice 5.

 According to the invention the different supports have a concavity-directed surface, in the exemplary embodiment, towards the bottom of the apparatus.

 In this example, the various supports affect the shape of frustums of cone, opening directed towards the bottom of the apparatus.

 Also according to the invention, the superposition of the supports is alternated, a support animated by a rotational movement 2 alternating with a fixed support 3.

 The supports 2 are integral with the central axis 6 rotated by a motor (not shown) disposed above the apparatus and rotating in bearings 7 with seals.

 The fixed supports 3 are held, by their edge, by means of vertical rods 8 whose lower ends are received in the base 9 of the apparatus and the upper ends inserted into flanges 10 integral with the cover 11 of the apparatus.

 As can be seen in Figs. 2, 2a, the supports 2, driven by a rotational movement comprise a central orifice 12 allowing the passage of the central drive shaft 6 which they are secured. An orifice 13 ensures the evacuation of the fermentation gases to the general outlet 5 of the gas outlet of the apparatus, the concave shape of these supports favoring the rise of the gases.

 The angle at the base of the truncated cone constituting the supports is, in the treated example of 200.

 The diameter of the supports 2 is smaller than the inside diameter of the enclosure, so as to create against the wall baffles forcing the water to be treated to pass through all the lining, the fixed supports being fixed to the wall.

 As shown in Figs. 3, 3a, the fixed supports 3 have holes 14 for their attachment to the vertical rods 8 and a central orifice 15 large enough to allow the passage of the central axis 6, the water to be treated and the fermentation gases . They further comprise, at their periphery, notches 16 intended to ensure the passage of excess sludge unhooking different supports and decanting in the apparatus. The number and the diameter of these notches 16 are a function of the section of the enclosure constituting the device. The risks of passage of the water to be treated through these indentations are avoided thanks to the operating conditions of the apparatus, in particular by the rotational speed applied to the supports 2.

 The angle at the base of the truncated cone, in which form the fixed supports are, in the example chosen, 200.

 The internal configuration of the apparatus and in particular the baffles makes it possible to carry out the flow of the waste water to be treated with a good distribution: a piston-type flow is thus obtained.

 The superposition of the supports makes it possible to carry out a settling of the lamellar type of sludge in excess, decantation further favored by the concave shape given to the supports. In addition, the thickness of the formed biofilm is limited by mechanical shearing effect.

 The rotational speed of the central axis is chosen according to the characteristics of the waste water to be treated: temperature, hydraulic or organic overloads, etc ... and the diameter of the supports animated with a rotational movement; it is fixed so as to obtain an optimal tangential speed of the water to be treated.

 The distance between the two types of support is determined as a function of the mechanical strength of the supports and the thickness of the anaerobic biofilm formed, which allows to obtain a maximum exchange surface while maintaining a significant vacuum coefficient.

The advantages of the invention will emerge from the example which will now be described
An apparatus according to the invention was used to treat the effluents of a single-family house already equipped with a conventional all-water tank whose effluents contained 450 mg of COD / liter, ie 45 gDg / inhabitant.

day. This fose playing the role of a decanter-liquefier of organic materials, the apparatus according to the invention was added to it and was able to provide an additional depollution of 75%.

 The apparatus, 1 meter 40 in height, 0.520 m in diameter, contained 72 frustoconical fixed supports 0.515 m in diameter and 72 supports animated with a rotational movement, also in the form of a truncated cone, of 0.475 m in diameter. diameter, representing a total area of 61 m2 for a load to apply of 3.7 g COD / m2.J.

 The surface area was 205 m2 / m3, the void coefficient 0.79; the hydraulic residence time of 11.5 h.

The following table compares the quality of the effluent obtained at the outlet of an all-water tank and at the outlet of the apparatus according to the invention disposed following such a pit.

<Tb>

<SEP> QUALITY <SEP> FROM <SEP> EFFLUENT <SEP> IN <SEP> OUTPUT
<tb><SEP> Pit <SEP> all <SEP> waters <SEP> Pit <SEP> all <SEP> waters <SEP> + <SEP> Device
<tb><SEP> next <SEP> the invention
<tb> Temperature <SEP> 18 <SEP> to <SEP> 400 <SEP> C <SEP> 160C <SEP><SEP> 29 C <SEP>
<tb> Time <SEP> of <SEP> stay <SEP> 0 <SEP><SEP> 4 <SEP> days <SEP> 12 <SEP> h <SEP> 24 <SEP> h <SEP> 12 <SEP> h <SEP> 24 <SEP> h
<tb> COD <SEP> total <SEP> mg / l <SEP><SEP><SEP> 430 <SEP> 200 <SEQ> 165 <SEW> 166 <SEQ> 110
<tb><SEP> I
<tb> COD <SEP> soluble <SEP> mg / l <SEP> 285 <SEP> 160 <SE> 132 <SE> 133 <SE> 81
<tb> total BOD5 <SEP><SEP> igil <SEP><SEP> 180 <SEP> 60 <SEP> 43 <SEP><SEP> - <SEP> - <SEP>
<tb> DBO5 <SEP> soluble <SEP> mg / l <SEP> - <SEP> 46 <SEP> 38 <SEP><SEP> - <SEP> - <SEP>
<tb> TOC <SEP> total <SEP> mg / l <SEP><SEP> 50 <SEP> 37 <SEP> 32 <SEP> 24
<tb> COT <SEP> soluble <SEP> mg / l <SEP> 70 <SEP> 41 <SEP> 32 <SEP> 27 <SEP> 19
<tb> MES <SEP> mg / l <SEP> 80 <SEP> 21 <SEP> 14 <SEP> 11 <SEP> 10
<Tb>

Claims (9)

 1. Apparatus for the treatment of wastewater by anaerobic microorganisms fixed on supports, consisting of a closed vertical enclosure having a rotating central axis, provided at its base with means for the entry of the wastewater to be treated at its upper end means for the outlet of the treated water and the evacuation of the produced fermentation gases, characterized in that the enclosure comprises a superposition of supports of the anaerobic microorganisms, some (2) animated by one rotation movement, the other (3) fixed.  2. Apparatus according to claim 1, characterized by an alternate superposition of the supports, a support animated with a rotational movement being superimposed on a fixed support.  3. Apparatus according to any one of the preceding claims, characterized in that the supports, fixed or rotated, have a concavity surface directed, preferably towards the lower part of the apparatus.  4. Apparatus according to any one of the preceding claims, characterized in that the fixed supports (3) are in the form of truncated cone or pyramid, preferably open towards the lower part of the apparatus.  5. Apparatus according to any one of claims 1 to 3, characterized in that the supports (2) animated by a rotational movement are in the form of truncated cone or pyramid, open preferably towards the lower part of the device.  6. Apparatus according to any one of claims 4 and 5, characterized in that the optimum values of the angle at the base of the truncated cone or pyramid constituting the supports are between 10 and 450 and are established advantageously to around 200  7. Apparatus according to any one of the preceding claims, characterized in that the supports (2) driven by a rotational movement are secured to the central rotational axis (6) of the apparatus and comprise at least one orifice (13) for evacuation of the fermentation gases to the outlet manifold (5) of these gases.  8. Apparatus according to any one of the preceding claims, characterized in that the fixed supports (3) have at their periphery notches (16) ensuring the passage of excess sludge unhooking supports and decanting in the apparatus.  9. Apparatus according to any one of the preceding claims, characterized in that the different supports are of such size that they allow the circulation of the water to be treated by baffles alternately lateral and central.