NL8202983A - Up-flow anaerobic sludge bed reactor to purify waste water - has vibrator or agitator to prevent sludge loss by coalescence trapping gas - Google Patents

Abstract

The arrangement is intended for an up-flow anaerobic sludge blanket reactor for waste water purification in which this water is introduced from below and passes upwards through the sludge bed to a separator section where water, sludge and gas are separated. Means are provided at a level below that section which prevent sludge from coalescing to pieces of a coherent layer trapping gas and being carried up thereby ensuring that the sludge remains or becomes hydrolysed, particularly during periods of little or no load. These means consist of a vibrator (7) assembly (6,11) inside the reactor vessel (1), or a vibrating reactor bottom, an agitator, or metal or plastic wire mesh with e.g. 1.5 cm. meshes arranged below the separator to break up coalescing sludge. Anaerobic purificn. of waste water, partic. from the food industry or domestic waste water, or generally where the sludge tends to cohere flake-fashion, at least initially, rather than being more granular (as in the sugar industry).

Description

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Method for operating a reactor for anaerobic waste water treatment.

The invention relates to a process for operating an upflow-type anaerobic wastewater treatment reactor, as well as to such a reactor.

Such a reactor is often referred to as a UASB reactor (Upflow Anaerobic Sludge Blanket reactor) and is known from, for example, Dutch patent 166000.

A reactor of the type described is particularly suitable for the purification of waste water released in the food industry, while it also seems possible to use it for purification of domestic waste water. The waste water is supplied via a distribution system through the bottom of a reactor tank, so that it is forced to pass upwards the sludge that has already been formed or applied.

At the top of the reactor tank is a separating device 15 for separating water, sludge and gas.

A problem that occurs with the known UASB reactors is sludge rinsing after shorter or longer standstill periods or during low load periods.

It is suspected that the cause of this problem is that the sludge bed settles during standstill periods or at a low supply of waste water, whereby the viscosity of the sludge bed increases sharply. Large gas bubbles can be created by refermentation in the sludge bed, which however cannot escape and therefore cause large chunks or layers of sludge to float up. The result of this is that sludge is rinsed out, which is undesirable.

In the case of granular sludge, the phenomenon described above does not occur because the sludge granules do not hang together and thus release the gas well, which is why this phenomenon occurs in the sugar industry, where this type of sludge is used. has not been noticed. In many other types of waste water, however, no formation of granular, but flaky, sludge occurs, or the granulation takes place at a much later stage.

The object of the invention is a method for being able to supply a UASB reactor with greater reliability for these wastewater species as well. 8202983 -2-

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*, * pass and / or to accelerate the deposit phase.

To this end, according to the invention, a method of the type described is characterized in that the rinsing out of floating chunks or layers of sludge is prevented by the use of means placed under the separating device.

The invention will be described in more detail below with reference to the accompanying drawing of an exemplary embodiment.

Figure 1 shows schematically and partly a vertical section of a reactor tank; Figure 2 schematically and partly shows a horizontal cross section of a reactor tank.

Figure 1 shows a part of the vertical side wall 1 of a reactor tank. At least at a suitable height at least one vibrating device 2 is placed, which in the embodiment shown is supported by a console 3 fixed to the tank wall. A damping member, for instance a rubber class U, is arranged between the vibrating device and the console.

The vibrating device is connected at 5 to a vibrating shaft 6, which extends through the tank wall transverse to the tank and which can be brought into a vibrating movement indicated by a double arrow 7 by the vibrating device.

The vibrating shaft is supported in the tank by supports 8, which are suitably attached, for example, to the bottom of the tank, and which do not hinder the vibration of the vibrating shaft.

For this purpose the supports 8 can be provided with slide bearings, while the passage of the vibrating shaft through the tank wall can also be realized with a slide bearing.

Preferably, however, no bearings are used and the vibrating shaft is suspended from the supports 8 by means of rubbers or other elastic members 9, while a membrane 10 of suitable material is used for the passage of the vibrating shaft through the tank wall.

The vibrating shaft is provided with a number of transverse partitions 11.

35 It has been found that, during standstill periods, before the reactor 8202983 -3 -3- start-up and during periods of low "load", the vibrating axis is periodically vibrated. * · Excessive settling of the sludge bed is prevented or eliminated, because the sludge remains hydraulic or is hydraulic again, the inclusion of large gas bubbles, which can result in the floating of sludge chunks, is then prevented.

The vibrating shaft can extend in the sludge bed as well as in the water above the sludge bed, as long as the sludge is vibrated sufficiently to prevent the formation of large gas bubbles.

10 The bulkheads may have openings.

In the embodiment shown in Figure 2, the vibration device comprises two vibration motors 12, 13 which. jointly provide the vibration axis with the desired vibration.

It is noted that the vibrating shaft can also be arranged vertically, the vibrating device then being under the reactor tank or on top of the reactor tank. The partitions 11 then have a horizontal position, while the supports 8 must be adapted to the vertical vibrating axis.

An additional advantage of the described method and device is that the channel formation in the sludge bed, which can cause short-circuit currents, is also prevented.

Other ways of achieving the object according to the invention are the use of a vibrating bottom or the use of a stirrer, which is periodically activated.

A combination of a stirring device with a vibrating bottom can also lead to the desired effect, as can the use of a stirring device, which can also be vibrated by means of a vibrating device.

Yet another possibility according to the invention is the use of a mesh of metal or plastic, which is placed under the separating device. For example, the mesh can have a mesh size of 1.5 cm. to have.

The effect of the gauze is based on the fact that floating chunks or layers of sludge are cut into pieces by the gauze, so that closed gas can escape and the sludge settles down.

However, this solution seems less suitable for reactors. · For the purification of household waste water, because the maize is then large when the mesh is blocked.

It is noted that various modifications of the described exemplary embodiments are obvious. Such modifications are considered to be within the scope of the invention.

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Claims (15)

1. A method for operating an upflow reactor for anaerobic wastewater treatment, which reactor comprises a sludge bed and is provided with an separating device placed at the top, while the wastewater to be purified from below reactor is fed, characterized in that the rinsing of floating chunks or layers of sludge is prevented by the use of means placed under the separating device. Method according to claim 1, characterized in that said means are suitable for causing the TO sludge to remain or to be hydraulic. A method according to claim 2, with. characterized in that for keeping the sludge in a hydraulic condition, or bringing it to sludge, it is periodically moved at least during standstill periods or periods of low load. 15 k. Method according to claim 3, characterized in that the sludge is set in motion with the aid of a vibrator partially extending into the reactor. Method according to claim 3, characterized in that the sludge is set in motion by a vibrating bottom. 6. Method according to claim 3 or 5, characterized in that the sludge is set in motion by a stirrer. J. A method according to claim 1, characterized in that said means cut buoyant chunks or layers of sludge into pieces. 8. Upflow reactor for anaerobic wastewater treatment, comprising a sludge bed, an separator located at the top and waste water to be purified at the bottom. characterized by a vibrating shaft provided with transverse baffles 30 in the reactor, which can be caused to vibrate longitudinally by a vibrating device placed outside the reactor. 8202983 * t -6- Reactor according to claim 9, characterized by supports for the vibrating shaft placed in the reactor. 10. Reactor according to claim 8 or 9, characterized in that the passage of the vibrating shaft through the reactor wall is effected by means of a membrane placed in the reactor wall. Reactor according to claim 9 or 10, characterized in that the vibrating shaft is attached to the supports by means of flexible suspension members. Reactor according to one of the claims. 8 to 11, characterized in that the vibrating axis extends substantially horizontally in the reactor. Reactor according to any one of claims 8 to 11, characterized in that the vibrating axis extends substantially vertically in the reactor. Reactor according to any one of claims 8 to 13, characterized in that the partitions of the vibrating shaft are provided with openings. 15. An up-flow reactor for anaerobic wastewater treatment, comprising a sludge bed, a separator located at the top and waste water to be purified at the bottom, provided with a vibrating bottom. 16. Upflow reactor for anaerobic wastewater treatment, comprising a sludge bed, a separator placed at the top, and wastewater to be purified at the bottom, characterized by an agitator placed in the reactor. Reactor according to claim 16, characterized by a vibrator placed outside the reactor and coupled to the stirrer for vibrating the stirrer. 18. 'Tupflow' type reactor for anaerobic wastewater purification, comprising a sludge bed, a separator located at the top, and wastewater to be purified at the bottom, characterized by a mesh placed in the reactor below the separator. 8202983