RU99482U1 - INSTALLATION FOR SEALING SEDIMENTS FORMED BY WASTE WATER TREATMENT - Google Patents

Abstract

 1. Installation for compaction of sludge generated during wastewater treatment, consisting of a rectangular open container body with a pressure pipe for introducing sludge and a pipe for removing filtered water, characterized in that the body is equipped with two multi-layer flat filter membranes, each of which made of the outer, three intermediate and supporting layers, while the outer and supporting layers with a thickness of 10-20 mm are made of porous wear-resistant material with a pore size of 50-100 microns, and p intermediate layers - made of fibrous polypropylene with a pore size of 40-10 μm with a halving of the pore diameter of each subsequent layer along the filtration stream, multilayer flat filtration membranes mounted on supporting frames are placed along the longitudinal walls of the housing with a gap with respect to its internal walls with the formation of chambers of filtered water, the central pressure pipe for introducing precipitation is lowered to the upper level of the latter, and paired nozzles for removing filtered water are mounted on on the sides of the lower edge of one of the end walls of the casing, the opposite end wall of the casing is detachable in the form of opening flaps for unloading the compacted sediment, and the nozzles for removing filtered water are equipped with locking devices. ! 2. Installation for sealing sediments formed during wastewater treatment according to claim 1, characterized in that the outer and supporting layers of multilayer flat filtration membranes can be made of porous polyethylene, porous polymer concrete or porous core

Description

The utility model relates to the field of compaction of sludge generated during wastewater treatment, and more particularly, to plants for compaction of sludge generated during treatment of surface and oily wastewater, including industrial.

Known construction for compaction of sediment generated during wastewater treatment, consisting of a regulating tank with a pump for mixing the precipitate for 5 minutes, a platform for compaction of precipitation by gravity static deposition for 1.2 hours with a ratio of the height of the sediment layer to the height of the separated water layer in the tank - 0.06: 0.4 and clarification columns for oily water; the moisture content of the compacted oil-free sludge is 30-30.2% (see patent RU No. 2074129, IPC C02F 11/12 of July 26, 1995, publ. February 27, 1997, BI No. 6).

A disadvantage of the known structure is the complexity of the design, due to the presence of a mixing unit, a platform for compacting sediment and a clarification column for water, the cost of electricity for the pump, as well as the difficulty of operation due to the need for control to maintain the required ratio of sediment and water layer height in the control tank.

A known installation for compaction of sludge generated during the treatment of wastewater of various compositions, consisting of a round casing in plan, equipped with central pipes for supplying a sealable suspension in the upper part of the casing and discharge of sludge sealed by gravity sedimentation in the lower part of the latter; the casing is equipped with an overflow peripheral partition, which forms a clarified water chamber between the last and inner wall of the casing, and a rotary mechanical scraper bridge for shifting the compacted sediment to its branch pipe, while the bottom scraper is lamellar in the form of a “louver”, and the casing has its upper the edge is equipped with a clarified water discharge pipe (see "DEGREMONT", "Technical Handbook for Water Treatment", "New Journal", St. Petersburg, 2007, pp. 1173-1174).

A disadvantage of the known installation is the complexity of its design, associated with the presence of a mechanical bridge-scraper, high humidity of compacted sediments - 90-96%, high specific energy costs - 5-10 kWh / ton of dry matter.

A known installation for compaction of precipitation, the closest in purpose and technical nature to the claimed one, consisting of a rectangular open plan container body equipped with a similar configuration with a removable liner made of durable material - tarpaulin or polyester with transverse partitions along its entire length, dividing the entire volume of the liner on a series of consecutive chambers providing alternating upward and pivoting motion of compacted sediments, as well as high-strength loops for removing the liner and container; the upper edges of the liner are located below the upper edges of the container, the latter has a pressure pipe for introducing a sealed sediment and a nozzle for the discharge of clarified water (see US patent No. 7438803, IPC B01D 21/02 with priority 08.05.07, publ. 21.10.08 g ., ISM, issue 011, No. 21).

The disadvantages of the known installation are:

- high humidity of the compacted sediment, due to the superposition of the upward movement of the initial wet sediment through the layer of compacted sediment on the process of gravitational static compaction, which is 93-96% according to the reproduced data;

- a low degree of clarification of water (suspended solids content of more than 50 kg / m ³ ) as a result of its upward movement in the first and last chambers of the liner with reduced areas in terms of plan compared to the entire area of the liner; in this case, the settling time decreases and the deposition rate increases, leading to the removal of particles with small hydraulic fineness. In view of the foregoing, the load on treatment facilities will increase;

- the complexity of the design due to the need to equip the installation of a lifting mechanism for removing the liner and its overload in the vehicle;

- the need to constantly replace the liner with a new one.

The technical result of the claimed utility model is to reduce the moisture content of compacted sludge from surface and oily wastewater while increasing the degree of clarification of the separated water, simplifying the design and simplifying the operation of the installation.

The technical result is achieved by the fact that in the installation for compaction of sludge generated during wastewater treatment, consisting of a rectangular open plan container body with a pressure pipe for introducing sludge and a nozzle for removing filtered water, the casing is equipped with two multi-layer flat filtration membranes, each of which is made of the outer, three intermediate and supporting layers, while the outer and supporting layers with a thickness of 10-20 mm are made of porous wear-resistant material with p the pore size is 50-100 microns, and the intermediate layers are made of fibrous polypropylene with a pore size of 40-10 microns with a half reduction of the pore diameter of each subsequent layer along the filtration flow, multilayer flat filtration membranes mounted on supporting frames are placed along the longitudinal walls housing with a gap with respect to its inner walls with the formation of chambers of filtered water, the central pressure pipe for introducing sludge is lowered to the upper level of the latter, and paired nozzles for removing the filtered The ducts are mounted on both sides of the lower edge of one of the end walls of the casing, the opposite end wall of the casing is detachable, in the form of opening flaps for unloading the compacted sediment, and the nozzles for removing filtered water are equipped with locking devices.

In the proposed installation for compaction of sludge generated during wastewater treatment, the outer and supporting layers of multilayer flat filter membranes can be made of porous polyethylene, porous polymer concrete or porous ceramics.

Figure 1 presents the installation for compaction of sediment generated during wastewater treatment.

Figure 2 - structure of multilayer flat filtration membranes.

Installation for compaction of sludge generated during wastewater treatment, consists of:

rectangular in plan open container housing 1, a Central pressure pipe for introducing sludge 2, lowered to the upper level of the latter, paired pipes for removing filtered water 3, placed on both sides of the lower edge of one of the end walls 4 of the container 1, two removable multilayer flat filter membranes 5, mounted on supporting frames made of corners 6, and consisting of an outer 7, three intermediate 8 and supporting 9 layers, while the outer 7 and supporting 9 layers with a thickness of 10-20 mm s from wear-resistant materials, for example, from porous polyethylene with a pore size of 50-100 μm, and the intermediate layers 8 are made of fibrous polypropylene with a pore size of 40-10 μm with a halving of the pore diameter of each subsequent layer along the filtration stream. Each of the multilayer flat filtration membranes 5 is placed along the longitudinal walls 10 of the container 1 with a gap with respect to the corresponding longitudinal wall 10 of the housing 1, forming a collection chamber for filtered water 11. One of the end walls 12, opposite the end wall 4 with nozzles for removing filtered water 3 , made detachable with drop-down wings for unloading compacted sediment, and the nozzles for removing filtered water 3 are equipped with locking devices 13.

Installation for compaction of sludge generated during wastewater treatment works as follows:

wet sludge formed during the treatment of surface and industrial oil-containing wastewater with a moisture content of 95-98%, a total dry matter and oil product content of 4-35% and a bulk weight of 1015-1200 kg / m ³ from the local treatment facilities is pumped into an open container body 1 through the Central pressure pipe introduction of sediment 2, lowered to the upper level of the latter. After the housing is filled with sediment, two processes simultaneously occur in it: static gravitational compaction of the sediment and filtering of the released water through multilayer flat filtration membranes 5.

The driving force of the sludge separation process is the pressure of the wet sludge column in front of the multilayer flat filtration membranes 5 made of the outer 7 and supporting 9 layers with a pore size of 50-100 microns, a thickness of 10-20 mm from wear-resistant (resistant to abrasion resistant solid particles) materials , and three intermediate layers 8 of a filter cloth made of fibrous polypropylene with a pore size of 40-10 μm with a halving of the pore diameter of each subsequent layer along the filtration stream. The outer and supporting layers are made of wear-resistant porous materials such as polyethylene, polymer concrete and ceramics. The support layer of multilayer flat filter membranes serves as an internal support for the intermediate layers of the fabric and a buffer wall, which reduces the penetration of solid sediment particles into the filtered water.

The choice of materials of the outer and supporting layers is due to considerations of wear resistance and operability of the structure with the proposed pore diameters. The pore diameter of the outer layer is justified by the need to retain sediment particles with sizes of at least 50-100 microns, the proportion of which in the sediment of surface and industrial oil-containing wastewater reaches 80% or more.

The intervals of the ratio of pore sizes of the intermediate layers of flat filtration membranes are selected to ensure a gradual decrease in the load of dry matter and oil products on subsequent layers and increase the number of cycles of wet sediment loading into the installation before washing the membranes.

With a decrease in the pore diameter of each subsequent layer in the course of the filtration stream by more than 2 times, the thickness of the sediment layer, which is retained on each subsequent layer, increases and the resistance increases when the filtered water stream passes. A decrease in pore diameter of less than 2 times will lead to an increase in the number of layers or to an increase in the content of suspended solids in filtered water.

Data indicating the dependence of the moisture content of the compacted sediment and the degree of clarification of water on the structure of multilayer flat filtration membranes are given in table No. 1.

The process of filtering "released" water through the membrane 5 stops after establishing a practically constant height of the layer of compacted sludge in the container body 1. Filtered water is collected in the collection chamber of filtered water 11 and is discharged through paired nozzles to remove the filtered water 3, placed on both sides of the lower edge one of the end walls 4 of the housing 1 and equipped with locking devices 13, for example, ball valves, to the head of the treatment plant in gravity. After the valves are closed, the compacted sediment is transported to the waste disposal facility, entered in the State Register, and unloaded by opening the opening flaps of the end wall 12, opposite the end wall 4 with nozzles for removing filtered water 3 of the container body 1.

Table 1 Membrane structure, their material and parameters The moisture content of the compacted sediment,% The content of suspended solids in filtered water, kg / m ³ The fraction of the volume of compacted sediment from the volume of wet sediment Duration of sediment compaction, h One layer of porous polyethylene with a thickness of 10 mm with a pore size of 100 μm (without filtration membranes) thirty 45 0,03 0.33 The outer and supporting layers are made of porous polyethylene 10 mm thick with pore sizes of 100 μm, one intermediate layer of polypropylene fabric with pore sizes of 40 μm. 76.5 22 0.13 0.33 The same and one intermediate layer of polypropylene fabric with a pore size of 20 microns 80 12 0.18 1,2 The same and three intermediate layers of polypropylene fabric with pore sizes along the filtration stream, respectively 40, 20 and 10 microns 86 0.86 0.21 23

From table 1 it follows that a decrease in the moisture content of the compacted sediment while reducing the suspended solids in the filtered water is achieved using multilayer flat filtration membranes with three intermediate layers of fibrous propylene with pore sizes of 40-10 μm with a half reduction in pore diameter of each subsequent layer along the filtration stream; the humidity of the compacted sludge is reduced to 86%, the degree of compaction of the sludge reaches 0.21, and the content of suspended solids in the filtered water is 0.86 kg / m ³ .

With an increase in the number of intermediate layers of multilayer flat filtration membranes with a decreasing pore size along the filtration flow, the largest solid sediment particles are retained on the surface of the layer with large pores; the surface of the layer with a pore size of 10 μm is least contaminated, therefore, the proposed membrane structure with three intermediate layers will work without restoring the filtering ability for a longer time.

From the point of view of the lowest humidity of the compacted sediment, the minimum content of suspended solids in the filtered water and the maximum duration of the membrane without washing, three intermediate layers are optimal with a decrease in pore size from layer to layer 40, 20, 10 μm, respectively.

Reducing the pore size of the last intermediate layer of a multilayer flat filter membrane of less than 10 μm dramatically increases the resistance of the last intermediate layer and the duration of sediment compaction; under these conditions, the application of a pressureless mode of compaction and filtering becomes non-technological.

Increasing the pore size of the first intermediate layer of the membrane more than 40 microns will lead to the breakthrough of sediment particles through it, which will increase the load on the subsequent layer and will not allow to achieve a technical result.

The proposed installation for compaction of sediments formed during the treatment of surface and oily wastewater in comparison with the known provides:

- increasing the degree of compaction of sediments of surface and oily wastewater by reducing their moisture content from 93-96% of the prototype to 86%, provided by the simultaneous occurrence of processes of compaction of sediments and clarification of filtered water;

- increasing the degree of clarification of water due to a more complete separation on multilayer flat filtration membranes with the claimed parameters (suspended solids content decreases from 50 kg / m ³ to 0.86 kg / m ³ ), as a result, the load on treatment facilities decreases;

- simplification of the design due to the lack of a lifting mechanism;

- simplification of operation due to the lack of need for overload of compacted sediment, requiring special vehicles, because the container can be transported without overload and use standard containers;

An additional advantage of the proposed installation is an increase in productivity up to 4 or more times by increasing the degree of compaction of sediment.

Claims (2)

1. Installation for compaction of sludge generated during wastewater treatment, consisting of a rectangular open container body with a pressure pipe for introducing sludge and a pipe for removing filtered water, characterized in that the body is equipped with two multi-layer flat filter membranes, each of which made of the outer, three intermediate and supporting layers, while the outer and supporting layers with a thickness of 10-20 mm are made of porous wear-resistant material with a pore size of 50-100 microns, and p intermediate layers - made of fibrous polypropylene with a pore size of 40-10 μm with a halving of the pore diameter of each subsequent layer along the filtration stream, multilayer flat filtration membranes mounted on supporting frames are placed along the longitudinal walls of the housing with a gap with respect to its internal walls with the formation of chambers of filtered water, the central pressure pipe for introducing precipitation is lowered to the upper level of the latter, and paired nozzles for removing filtered water are mounted on on the sides of the lower edge of one of the end walls of the casing, the opposite end wall of the casing is detachable in the form of opening flaps for unloading the compacted sediment, and the nozzles for removing filtered water are equipped with locking devices. 2. Installation for compaction of sediments generated during wastewater treatment according to claim 1, characterized in that the outer and supporting layers of multilayer flat filter membranes can be made of porous polyethylene, porous polymer concrete or porous ceramics.