RU97126U1 - SEWAGE TREATMENT AND DISINFECTION DEVICE - Google Patents

Abstract

 1. A device for treating and disinfecting wastewater containing a wastewater storage device, a pumping station, a sump, a filter with a granular charge, ultraviolet lamps, characterized in that it includes a series-connected wastewater storage device with a submersible pump, an aeration system, a plasma-chemical filter with a granular charge, a sump, a filter with a granular charge, ultraviolet lamps, a clean water tank, and the plasma-chemical filter has electrodes connected to a high-voltage pulse generator, and is simple the space between the electrodes is half filled with metal granules, the outlet of the sump is connected to sludge pits equipped with a drainage system and connected to compost pads, and the filter with a granular charge is equipped with a backwash system. ! 2. The device according to claim 1, characterized in that the plasma-chemical filter is loaded with aluminum granules of a fraction of 2-5 mm. ! 3. The device according to claim 1, characterized in that voltage pulses of 50-100 kV with a slope of 10–7 s are applied to the electrodes of the plasma-chemical filter. ! 4. The device according to claim 1, characterized in that pulses with a frequency of 0.5-2.0 Hz and an energy of 0.3-0.7 kJ / m3 are supplied to the electrodes of the plasma-chemical filter.

Description

The utility model relates to the field of purification and disinfection of domestic wastewater by physicochemical methods and can be used to treat wastewater from small settlements, cottage villages, shift camps, educational and medical institutions, including infectious and tuberculosis hospitals, as well as settlements located in the permafrost zone.

A device for cleaning and disinfecting wastewater, including a pumping station, a heat exchanger, an autoclave in which wastewater is heated to 110-120 ° C at elevated pressure, an electrolyzer, a mixer, a settler with thin-layer modules, a thickener sludge (RF Patent No. 2264989 IPC C02F 1/02, publ. 11/27/2005).

The disadvantage of this device is the high energy consumption for heating wastewater.

The closest technical solution is a device for treating and disinfecting wastewater, including a pumping station, a wastewater storage tank, a sump, a filter with a granular charge, which is used as an active filter material - siliconized calcite, a membrane electrolyzer, divided into a cathode and anode chamber, a filter with catalytic aluminum-manganese loading, ultraviolet lamps, autoclave for heat treatment of sewage sludge (RF Patent No. 2293708, IPC C02F 9/12; C02F 1/02; C02F 1/469, publ. 02.20.2007).

The disadvantage of this device is the high energy consumption for electrolysis of water and heating of the irrigated sewage sludge to a temperature of 110-120 ° C.

The objective of the utility model is to reduce energy costs for the treatment and disinfection of wastewater without loss of quality of treated water.

The problem is solved in that a wastewater treatment and disinfection device containing a wastewater storage device, a pump station, a settling tank, a granular loading filter, ultraviolet lamps according to a utility model includes a wastewater storage device with a submersible pump in series, an aeration system, a plasma-chemical filter with granular loading, sump, filter with granular loading, ultraviolet lamps, a tank of clean water, and the plasma-chemical filter has electrodes connected to a generator ores of high voltage pulses, and the space between the electrodes is half filled with metal granules, the outlet of the sump is connected to sludge pits equipped with a drainage system and connected to compost pads, and the filter with a granular charge is equipped with a backwash system.

The plasma-chemical filter is loaded with aluminum granules of a fraction of 2-5 mm. Voltage electrodes of 50-100 kV with a steepness of the front of 10 ^-7 s, a frequency of 0.5-2.0 Hz, an energy of 0.3-0.7 kJ / m ³ are applied to the electrodes of the plasma-chemical filter.

The figure 1 shows the technological scheme of the device for cleaning and disinfection of domestic wastewater, figure 2 - a plasma-chemical filter.

The device comprises a wastewater storage device 1 connected in series with a submersible pump 2, a wastewater aeration system, for example, a compressor 3, a plasma-chemical filter 4, the power supply of which is a high-voltage pulse generator 5, a settler with thin-layer modules 6, a filter with a granular charge 7, ultraviolet lamps 8 and a clean water tank 9.

The clean water tank 9 is a source of water for backwashing the filter 7 with a washing pump 10. Using the drain pump 11, the drainage water separated at the sludge pads is removed 12. The sludge pads exit is connected to the inlet of the compost pads 13. The basket 14 has a basket 14 for collecting garbage. The supply of reagent (coagulant) is carried out using a reagent farm 15.

The plasma-chemical filter 4 is a cylindrical container with elliptical caps having water inlet 16 and water outlet 17 pipes. Perforated plates 18 and 19 are connected to the filter housing, connected to the positive and negative poles of the high-voltage pulse generator, respectively. On the plate 18, elliptical anodes are fixed 20. The space between the electrodes 18 and 19 is half filled with granules or shavings of aluminum 21.

The device operates as follows. The settlement is equipped with sewerage networks, if possible, in gravity flow mode with wastewater supplied to collector 1. A basket 14 is designed to remove large debris. From the collector, the wastewater is pumped into the plasma-chemical filter 2 by means of a submersible pump 4. Before the filter, air is dosed into the water using a compressor 3 to increase the concentration of oxygen dissolved in water.

The design of the plasma-chemical filter 4 is presented in figure 2. The filter is located vertically, has nozzles inlet 16 and outlet 17 of water. Inside the filter housing there are two perforated metal plates 18 and 19, connected respectively to the positive and negative poles of the high-voltage pulse generator 5. Connected to the upper plate 18 are elliptical electrodes 20, uniformly located over the cross section of the apparatus. The space between the cathode and the anode is half filled with aluminum granules or shavings. Wastewater saturated with oxygen in the air is passed through the apparatus from top to bottom. A voltage pulse of 50 ... 100 kV with a front slope of 10 ^-7 s, generated by a high-voltage pulse generator 5, is applied to the perforated plates 18 and 19. When the voltage at the discharge gap reaches the breakdown value, the generator capacitors are discharged to it, a plasma cord is formed. Under the action of a high temperature of the plasma cord and a high electric field, oxygen molecules are ionized, resulting in the formation of strong oxidizing agents such as ozone O ₃ , OH radical, hydrogen peroxide H ₂ O ₂ , hydrogen peroxide H ₂ O ₃ , atomic oxygen O. In the process of arc burning, a strong ultraviolet glow is observed. When the discharge current decreases to zero, the arc goes out, a hydraulic shock occurs. Under the influence of water hammer aluminum granules are evenly distributed throughout the volume. The discharges follow with a frequency of 0.5 ... 2.0 Hz, therefore, at the time of the next pulse, the aluminum granules are in suspension. A discharge arises between the anodes and many cathodes, the role of which is played by aluminum granules, branching many times, distributed over the volume, evenly treating the water. The specific energy of pulsed discharges is 0.3 ... 0.7 KJ / dm ³ , with this value it is possible to pass water at a speed of 5 ... 10 m / h. The number of elliptical anodes n is determined by the formula

where D is the diameter of the filter housing

d is the diameter of the anode.

In the process of arc burning, a slight dissolution of aluminum granules occurs. When aluminum ions get into water, they hydrolyze with the formation of insoluble Al (OH) ₃ molecules, which are a coagulant.

Thus, in the plasma-chemical filter, wastewater is disinfected by a complex of methods, including water hammer, ultraviolet glow, thermal exposure to plasma, oxidation with substances having the most known oxidative power. In addition, oxidizing agents act on organic substances in wastewater, decomposing them to carbon dioxide and water, while reducing the value of biological and chemical oxygen consumption (BOD and COD). Ammonia located in wastewater is oxidized to molecular nitrogen in a one-step process, unlike biological treatment plants, in which ammonium ion is oxidized to nitrites and nitrates, and then nitrogen gas is formed at the denitrification stage.

Water disinfected in a plasma-chemical filter is then supplied to clarification by sedimentation in a settling tank 6. A coagulant is additionally dosed in front of the settling tank to coagulate small suspended particles and increase the deposition rate. Water purification is carried out by a filter with a granular charge 7, which is a pressure head quick filter. As the filtering material, a mineral granular material is used - silicified calcite, which refers to active filtering materials. Its catalytic activity is explained by the presence in the structure of low concentrations of iron, manganese, and silicon. The activity of the filter material is manifested in the extraction of heavy metals from wastewater in any household water at a concentration exceeding the MPC, as well as in accelerating the flocculation process necessary for the coagulation of pollutants. A significant advantage of silicified calcite is the possibility of using a large fraction of the filter material in the range of 2-5 mm. At the same time, the pressure loss in the filters decreases, the dirt capacity and the filter cycle increase.

The water purified in the filter 7 is supplied for ultraviolet disinfection into ultraviolet lamps 8, after which it is accumulated in a clean water tank (RCHV) 9 and is discharged into a water body.

The filter 7 is washed with a reverse current of water taken by the pump 10 from the RF. Flushing water enters the entrance of the sump 6.

Sludge from the sump 6 is discharged to the sludge pads 12, equipped with drainage. Drainage water is pumped out by the drainage pump 11 to the inlet of the sump 6, and the dried sludge enters the compost site 13 for biodegradation together with organic waste.

The results of cleaning household water are shown in table 1.

Table 1 - The effect of wastewater treatment at various pulse energies supplied with a frequency of 1 Hz Specific energy, kJ / m ³ BOD ₂₀ , mg / l The concentration of iron, mg / l before cleaning after cleaning before cleaning after cleaning 0.1 240 four 1.8 0.2 0.3 240 3 1.8 0.1 0.5 240 3 1.8 0.1 0.7 240 2.5 1.8 0.05 0.9 240 2.5 1.8 0.05

From the above results it follows that the quality of the water allows it to be discharged into water bodies of fisheries for a pulse energy of 0.3-0.7 kJ / m ³ .

The results of wastewater treatment and disinfection at a pulse energy of 0.3 kJ / m ³ with a frequency of 1 Hz are shown in table 2.

Table 2 & The effect of purification of household water Pollutants Concentration, mg / L Effect, % MPC of fishery reservoirs before cleaning after cleaning Fats fifteen 0.05 99.6 0.05 Iron is common 3 0.1 96.6 0.1 Manganese 0.7 0.05 92.8 0.1 COD 120 7 94.2 - Suspended matter 243 6 97.5 - Coli index 12 0.06 99.5 0.10 BOD 95 3 96.8 3 Ammonia nitrogen 22 0.4 98.2 0.5 Phosphates 13 0.2 98.5 0.2

From the above data it follows that the quality of the treated wastewater complies with the standards for the discharge of treated water into a fishery pond.

It should be noted that the proposed cleaning technology is energy-saving, since energy costs for water treatment are minimized. Energy is expended only in a plasma-chemical filter, however, due to the use of high voltage and short duration of the discharge pulse, high powers in the pulse are achieved at an average power of the generator of high-voltage pulses of not more than 100 watts.

The proposed technological scheme can be used for the construction of mobile wastewater treatment facilities for shift camps, as well as stationary facilities for small settlements, cottage villages, sanatorium and hospital complexes, including in permafrost zones.

Claims (4)

1. A device for treating and disinfecting wastewater containing a wastewater storage device, a pumping station, a sump, a filter with a granular charge, ultraviolet lamps, characterized in that it includes a series-connected wastewater storage device with a submersible pump, an aeration system, a plasma-chemical filter with a granular charge, a sump, a filter with a granular charge, ultraviolet lamps, a clean water tank, and the plasma-chemical filter has electrodes connected to a high-voltage pulse generator, and is simple the space between the electrodes is half filled with metal granules, the outlet of the sump is connected to sludge pits equipped with a drainage system and connected to compost pads, and the filter with a granular charge is equipped with a backwash system. 2. The device according to claim 1, characterized in that the plasma-chemical filter is loaded with aluminum granules of a fraction of 2-5 mm. 3. The device according to claim 1, characterized in that voltage pulses of 50-100 kV with a slope of 10 to ⁷ s are applied to the electrodes of the plasma chemical filter. 4. The device according to claim 1, characterized in that the pulses with a frequency of 0.5-2.0 Hz and an energy of 0.3-0.7 kJ / m ³ are supplied to the electrodes of the plasma-chemical filter.