CS262084B1 - Submersible biomass carrier - Google Patents

Abstract

The solution concerns a submersible biomass carrier in biological wastewater treatment, consisting of a supporting structure formed by horizontal and vertical beams, the essence of which is that vertical parts of a circular circumference are attached to two pairs of oppositely placed horizontal beams, which are surrounded by a textile belt, the walls of which are arranged in parallel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an immersion biomass carrier in biological wastewater treatment by an activation process.

Biomass carriers hitherto known can be divided into floating carriers, such as grains of various sands or plastic particles, as well as fixed, stationary, known as fillings, which consist of a supporting structure consisting of vertical and longitudinal beams and are constructed as self-supporting blocks of molded plastic sheeting or as loose plastic fittings in a carrying basket.

The disadvantage of the buoyant carriers is the higher energy intensity required to keep the grain and particles in the buoyancy, moreover, those carriers whose particulate material has such a specific gravity that, upon capture of the biomass, the aggregate carrier / biomass particle has a specific gravity very close to water. the disadvantage is the frequent flotation of these particles, thereby deteriorating the function of the carrier. A further disadvantage of these carriers is the low durability due to the use of porous and foamed materials based on rubber or plastics, such as polyurethane, with low mechanical strength and resistance to biodegradation.

A disadvantage of stationary carriers is the low adhesion of the sessile biomass to the carrier, which allows the formation of only a thin, volatile layer of growth which, when the cultivation conditions change, mass separates, temporarily disabling the carrier and decreasing the biodegradation intensity of wastewater pollution. Another disadvantage is that with higher mixing intensity the biomass is not retained on the support and therefore the sessile layer is not formed.

The above-mentioned disadvantages are eliminated by the submerged biomass carrier according to the invention, consisting of a supporting structure consisting of horizontal and vertical beams, which consists in that two pairs of opposed horizontal beams are fastened with vertical parts of a circular circumference arranged in parallel.

The advantage of the immersion biomass carrier according to the invention is the perfect capture of the sessile biomass on the fibers of the textile belt, since the biomass grows through the entire thickness of the fabric wall and thus creates a massive increase in biomass. A further advantage is that under the oxic conditions of the activation tank anoxic conditions are created at the depth of the growth, which contribute to widening the range of concurrent biodegradation processes of contamination, such as on the growth surface and nitrification in suspended biomass and denitrification in the growth depth. The concurrence of these processes and the simultaneous action of microorganisms in both buoyancy and sedimentation on the carrier increases the quality of the purified water or increases the performance of the unit volume of the activation tank, while the surface of parallel growth layers is sufficiently washed and supplied with nutrients and oxygen. This carrier allows capture and retention of sessile biomass even at high intensity mixing and aeration of the activation tank and acts as an intensifying and stabilizing factor of the plant operation.

BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawing, a submerged biomass carrier according to the invention is shown in axonometric view, wherein FIG. 2 is an alternative embodiment thereof.

The submerged biomass carrier according to the exemplary embodiment consists of a supporting structure 1 in a square-shaped plan, formed by vertical beams 2, to which horizontal beams 3 are attached in their upper and lower part. Between two pairs of opposed horizontal beams 3 vertical elements 4, 5 are fixed. of a circular cross-section, wherein the sum of the vertical parts 4 of one side of the support is one vertical part larger than the sum of the vertical parts 5 of the opposite side, the vertical parts 4, 5 wrapping a textile strip 6 whose walls 7 are arranged parallel for belt press filter cloths and its two ends are fixed to the outer vertical sections 4.

In the biological treatment of waste water, the immersion biomass carrier according to the invention is immersed in the activation tank and, by means of the supporting structure 1, is positioned above the aeration elements which introduce air into the tank in the form of bubbles. The air bubbles flow together with the waste water and the biomass suspended therein between the parallel walls 7 formed by the textile belt 6. The sessile biomass grows through the textile belt 6 and creates a massive growth on both sides of each wall 7, thus creating favorable living conditions for the suspended 1 sessile biomass.

Alternatively, the submersible biomass support may be made by matching the number of vertical portions on both opposite sides of the support shown in Fig. 2 and attaching an endless textile web to each pair of opposite vertical portions, which may be made not only of a filter cloth sheets of belt presses, but also of cloth for air filters, eventually of other woven or nonwoven fabric.

The submersible biomass carrier according to the invention can be used in municipal, food and industrial water treatment plants and can also serve to intensify existing treatment plants, the supporting structure of which enables to assemble this block on top of one another and side by side into units of the required size.

Claims (1)

Subject Submerged biomass carrier, consisting of a supporting structure consisting of horizontal and vertical beams, characterized in that two pairs of horizontal BACKGROUND OF THE INVENTION beams (3J) are fastened with vertical portions (4, 5) of a circular circumference that wrap around a textile strip (6) whose walls (7j) are arranged in parallel.