RU1836418C - Packing for biological reactor to treat waste waters - Google Patents

Abstract

Usage: wastewater treatment processes by using microorganisms and hydrobionts of activated sludge immobilized on carriers which are nozzles of a bioreactor. The inventive bioreactor nozzle is made of a plastic polymer material with adsorption-chemisorption properties. The nozzle is a ruff, the fibers of which consist of several or at least two elementary profiled yarns twisted into one multifilament yarn having in cross section an arbitrary geometric profile, for example, in the form of a polygon, round shape or in the form of a ring. 3 s P. f-ly, 4 ill.

Description

The invention relates to the biological treatment of wastewater and can be used in the manufacture of nozzles for bioreactors

The aim of the invention is to increase the efficiency of wastewater treatment by increasing the surface and sorption capacity of the nozzle.

This goal is achieved by the fact that in the known nozzle of a bioreactor for wastewater treatment, made of plastic material and having an adsorption capacity for microorganisms of activated sludge and hydrobionts, made in the form of a ruff, which is fixedly mounted in the bioreactor

the base with protruding fibers located on it, the fibers of the nozzle consist of many (two or more) 0s profiled filaments twisted into a multifilament yarn (fiber) having a different geometric QQ profile in cross section and made of polymeric materials , the surface of which is capable of adsorption-chemisorption interaction with micro-CO organisms and hydrobionts of activated sludge.

An increase in the specific surface of the nozzle is achieved by obtaining a more developed active surface compared to the known one due to the fact that the fiber of the nozzle consists of a large number of filaments having a cross section in the shape of a polygon, ring, circle, asterisk, triple, etc. .

The execution of filaments of polymeric materials, namely, thermoplastics, pulling them through dies of a certain profile in the molten state gives them the ability to adsorb chemisorptively interact with microorganisms and hydrobionts of activated sludge. This is due to the fact that a layer oxidized by atmospheric oxygen is formed on the surface of the thermoplastic filament during its drawing from the melt, or, from a chemical point of view, hydroxyl, carbonyl, carboxyl groups are formed capable of forming complexes with charge transfer. The fiberglass nozzle does not have a similar effect, since even in the molten state glass does not interact with atmospheric oxygen.

In FIG. 1 shows a conventionally bioreactor with the proposed brush nozzle. The extension consists of a base 3 fixed on both sides of the warp (Fig. 2), on which the multifilament yarn 2 is fixed. The multifilament yarn (fiber 5) of FIG. 3, consists of filaments 4 cross section AA). These threads may have a different cross section, in particular a hexagon, a ring, a circle of FIG. 4.

The nozzle works as follows.

A nozzle fixed on both sides is placed in a bioreactor where wastewater is supplied (above or below). In doing so, strands of fibers consisting of a plurality of filaments float freely in the waste fluid. Microorganisms and hydrobionts of wastewater are deposited on the surface of the nozzle, forming a layer of immobilized activated sludge. Transient wastewater is treated on an immobilized activated sludge and the removal of TF from the bioreactor (bottom or top). Process; can take place under both aerobic and vrei anaerobic conditions,

During laboratory treatment of municipal wastewater under aerobic conditions, nozzles of bioreactors were tested in accordance with the claimed technical solution. The complex fiber for ruffs was made of kapron (the cross section of the filaments is a hexagon) and lavsan (the cross section is a circle). For comparison, a nozzle of known fiberglass was tested.

The test results are shown in the table.

From the above it can be seen that the proposed nozzle has significant advantages compared to the nozzle of glass fiber: it better sorb microorganisms (including chemisorbing) v, and ultimately, it makes it possible to form on the nozzle, all other things being equal, a larger number of immobi from - activated sludge and more efficient, t, e. in less time or with the use of more compact treatment devices, treat wastewater.

Claims (3)

1. The nozzle of the bioreactor for wastewater treatment, made of plastic material, which serves as a carrier of immobilized microorganisms and hydrobiomes of activated sludge, which is a ruff with fibers protruding to the sides located on them, characterized in that, in order to increase cleaning efficiency by increasing the specific surface and sorption capacity, the fibers of the nozzle consist of several or at least two elementary profiled yarns twisted into one complex yarn having transversely m Delaney arbitrary geometrical profile and fulfillment & x of polymeric mat | Zhapal J -edsodbts oschyu hemosorbtsion--d & oysdvzmi of | Lm ieniyu to microorganisms and hydro $ io activated sludge there. 2. The nozzle of the björöör o p. 1. on the side, that the cross-section of the evil tJ $ fcM is a polygon. WITH 3. The nozzle of the bioreactor according to claim 1, wherein the cross section of the thread has a circular shape. . A. The bioreactor nozzle according to claim 1, wherein the cross-sectional thread is ring-shaped. Note. The geometric dimensions of the nozzles in all cases were equal. rig. at (raeZ