ES2288345B2 - FOAM CONTROL SYSTEM IN THE FANG HYGIENIZATION PROCESS. - Google Patents

Abstract

Foam control system in the sludge sanitization process, which consists of having a funnel-shaped element (1) in the sludge mass (2), to create through it an absorption of foam and air from the part superior towards the mass of the sludge (2), by means of a Venturi effect.

Description

Foam control system in the process of sludge sanitation.

Technical sector

The present invention is related to the stabilization / sanitation process of the resulting sludge of sewage treatment, proposing a system which allows to combine the aeration process with the control of foam using a single self-regulated system.

State of the art

Within the water purification process Waste is generated a series of waste. The characteristics of they depend on the point of the process where they are produced and the Final destination of them will depend on their characteristics.

Within this waste they have a high importance of sludge due to their high generation. He destination of the sludge is determined by its physicochemical and microbiological characteristics modifiable depending on the treatment system to which they are submitted. One of the most important bets made until the date is the application to the land of the same for which the increasingly stringent regulations limit the content in certain pollutants and establish a few degrees of stabilization and sanitation thereof so that it guarantee the non-contribution of unwanted substances and microorganisms, to the natural environment by leaching phenomena.

One of the processes recognized by the different  regulations as advanced treatment of purification sludge is the Aerobic Thermophilic Aerobic Digestion (ATAD), for being a process that allows the reduction of organic matter and of pathogenic microorganisms given the temperature range in which opera (> 55ºC).

Because it is an aerobic process, it is necessary to have a system that allows to introduce and put in contact with the mud A certain amount of air. Said aeration together with the high formation of organic colloidal substances observed in The process favors the generation of large quantities of foams.

These foams pose a serious problem of operation making it necessary to use some element that eliminates these foams maintaining system performance, both of oxygen transfer efficiency and therefore energy, as of instrumentation and attention by specialized personnel, such as guarantees that all sludge mass is subjected to the process of homogeneous form.

To avoid the presence of these foams, they use devices to remove them, which implies a complication of the sanitation facilities as a whole sludge and an added cost, both in machinery and energy of operation.

Object of the invention

According to the invention, a system that allows to aerate and control the generation of foam in the aforementioned process of sanitation-stabilization of sludge, eliminating the inconvenience that cause causes in the conventional treatments of said function.

This system object of the invention comprises the  incorporation of a funnel shaped element interposed in the air suction from outside the tank at mass level of optimal foams, so that only air intake is allowed outside when the foam level is below mentioned funnel and when the aeration ascends the level of foams, these partially seal the air inlet being aspirated and recirculated within the system reducing the fresh air inlet. To perform the depression necessary to that the aforementioned air / foam suction effect occurs a conventional Venturi effect system is used.

This element is arranged with its mouthpiece more wide at a specific distance above the mud level and with the narrow mouth connected in "T" to a conduit coming from a pump and flowing into the mud, while axially with respect to the wide part of the funnel a tube is included that reaches close to narrowing.

In this way, an arrangement is obtained with which a Venturi effect is produced by the pump's action, which brings air into the sludge, thus causing it to be oxygenated, thus causing a very active process of sanitizing the
mud.

With this provision, the Venturi effect that drag the air into the mud produces the foam absorption ensuring stabilization / sanitation of the sludge through the air contained in the foam itself and making the most of the air introduced, by recirculation of part of it through which it is contained in  the foam which, due to the aeration effect, accumulates in the mud surface, which is also used in the dough from the mud the oxygen in the air contained in the foam.

When the accumulation of foam is very abundant  its absorption partially seals the air inlet through the funnel, so that the contribution of air to the sine of the mud is reduces, thereby reducing the activity of the process and so both the production of foam is reduced, resulting in a dependence between process activity and air intake, through the foam generated by the process, with a consequent regulation of foam production itself, avoiding means of external control and foam breaking systems added to the own aeration.

The system of the invention is therefore of certainly advantageous characteristics, acquiring life own and preferential character of application in the stabilization / sanitation of sludge resulting from wastewater purification.

Description of the figures

Figure 1 represents a schematic of the application of the system of the invention.

Detailed description of the invention

The object of the invention relates to a system designed to automatically control production of foam in the sludge treatment process from the wastewater treatment, so that it is achieved establish a good balance between foam production and the activity of the process at the same time as through recirculation of the foam ensures a complete treatment of the entire mass of the sludge and greater energy use of the system.

The system consists of arranging an element (1) funnel-shaped in the mud (2) to be treated, with the wide part of said funnel-shaped element (1) flush to the level at which wants to maintain the surface of the foam (6).

The narrow part of the element (1) in the form of funnel is established where appropriate connected in "T" to a conduit (3) from a pump (4) and which flows into an outlet conical inside the sludge mass (2).

On the other hand, in axial insertion on the part width of the funnel-shaped element (1) a tube (5) is arranged that reaches up to the mouth of the narrow part, but without reaching said mouth.

With this, through the action of the pump (4) produces an impulsion through the conduit (3) towards the mass of the sludge (2), resulting in a Venturi effect that brings air through the connection of the funnel element (1), supplied said air within the mass of the sludge (2).

In this way the sludge (2) is oxygenated by the air supplied to the mass of the mass through the duct (3), resulting in a strong activation of the biological process of mud (2).

From the biological process that leads to sanitation, however, results in a foam production (6) that accumulates on the surface of the mud, creating an insulating layer which is favorable to avoid heat losses from the sludge mass (2), provided that said foam layer (6) is maintained controlled.

With the proposed system, the foam (6) that is accumulates on the surface of the sludge (2) is partially absorbed together with the air through the element (1) in the form of funnel, to be injected into the sludge mass (2), thus eliminating part of the foam (6) from the surface of the mud (2), while taking advantage of the air contained in the own foam (6), which achieves a very strong activity of the sludge sanitation process (2) and an optimization energetic

With the system of the invention, when the accumulation of foam (6) on the surface of the mud (2) reaches a certain height, the amount of it that is absorbed at through the funnel-shaped element (1), the passage is blocked of air from the tube (5) at the mouth of the narrow part of said funnel-shaped element (1), passing only foam to the conduit (3) and consequently to the sludge mass (2), so that the activity of the foam production process (6) is reduced until a balance is reached between the sucked air and the foam (6) that is produced.

With the system of the invention, when the accumulation of foam (6) on the surface of the mud (2) reaches a determined volume, the amount of it that is absorbed at through the funnel-shaped element (1), the passage is blocked of air from the tube (5) at the mouth of the narrow part of said funnel-shaped element (1), passing only foam to the conduit (3) and consequently to the sludge mass (2), so that the activity of the sanitation process is reduced and so both decreases foam production (6).

In this way a dependency is established reciprocal between foam production (6) and the activity of sludge sanitation process (2), achieving a automatic regulation that determines a balance that maintains a high level the activity of the aeration process.

Claims (4)

1. Foam control system in the sludge sanitization process, characterized in that it comprises the arrangement of a funnel-shaped element (1) in the sludge mass (2) that is subjected to the sanitizing process, said element being located ( 1) with the mouth of its widest part at a certain height above the surface of the sludge (2), while the narrow part is established connected in "T" with a conduit (3) coming from a pump (4) and that it flows into the sludge mass (2), so that the pump drive (4) determines by venturi effect an absorption of air and foam (6) that exceeds the element (1), injecting them into the sludge mass (2). 2. Foam control system in the sludge sanitization process, according to the first claim, characterized in that a tube (5) is provided axially through the wide part of the funnel-shaped element (1) in the form of a funnel. near the mouth of the narrow part, through which tube (5) the air inlet occurs at the same time that the foam (6) enters between said tube (5) and the wall of the element (1) in the form of funnel. 3. Foam control system in the sludge sanitization process, according to the first and second claims, characterized in that when the foam (6) that is absorbed from the surface enters a large amount by the shaped element (1) funnel, the foam itself seals the air inlet from the tube (5), cutting off the air supply into the sludge mass (2). 4. Foam control system in the sludge sanitization process, according to the first claim, characterized in that the duct (3) ends with a conical outlet in the sludge (2) facilitating the distribution of air and foam (6) which are introduced into said sludge mass (2).