FI117093B - Process and apparatus for wastewater treatment - Google Patents

Description

PROCESS AND DEVICE FOR WASTE WATER CLEANING

This invention relates to a process for purifying the wastewater, comprising collecting wastewater in a storage tank, pumping the collected wastewater into a certain working process tank containing active sludge, the wastewater supplied to the process tank, the process tank, followed by an anaerobic / anoxic phase and the wastewater batch, whereby sludge and precipitated material were allowed to sink to the bottom of the process tank, after which the proportion of purified wastewater was dropped or pumped from the process tank.

15 From Finnish patent application no. 20021557 you know one's process. In this prior art process, the entire wastewater is pumped for one batch at a time to process tanks. The above-mentioned process causes problems regarding the production of wastewater varying from one period to the next. This is e.g. the case in area where house with both permanent residence and holiday home 4 *** '. are linked to a treatment plant that functions according to • *. ·· *. 25 principle. It can, for example, during winter • •. **! long periods before sufficient amount of wastewater p 4 4 # **,], * has been established for the pumping of a new batch of wastewater 4 4

··· * Process thinking can be initiated. There is a risk that I

The flora in the active sludge does not receive sufficient nutrients, whereby the various bacterial strains are noticeably red. im. hftlt ". dies out.

2, the collection tank until the process tank is supplied with a flow of waste water required for a new purification cycle, and that the completion of a purification cycle and during the entire filling phase, a preliminary aeration of the mixture is effected sludge and wastewater in the process tank. In this way ε, a continuous supply of bacteria to the bacterium is placed in the active sludge, which results in more efficient production of BOD and increased nitrification of ammonium nitrogen in the running water.

10

During an actual purification cycle in the process tank, there is no pumping of wastewater into the process tank, especially during the clearing stage or during the pumping out of purified wastewater from the process tank, because then the purification process would be severely disturbed, resulting in or less uncontaminated waste water leaving the process tank.

With the process of the invention, it is ensured that the volume of wastewater included in each purification cycle is the constant, which also means that the aeration, which is effected by breathing bias air with even flow through the mixture of active ** and wastewater in the process tank, can be carried out during a process. · • ** time period that is equal in length to each purification cycle.

··· • a • · · * · ··· · ... · 25 At the end of the aeration, the mixture wastewater and active sludge in the process tank can be added a little if necessary: ***; exact amount of wastewater to streamline denitrification and thus the nitrogen purification rate. Likewise, it can. precipitating chemical to be added to the process mixture to precipitate phosphorus in the wastewater, at v '··· * __________ 1__1 ____ J ___ Λ __- Ί Ί „* ___ 1 ___> 1 __- I ·» ___ 3

According to a preferred embodiment, the self-healing process is initiated with a first anaerobic / anoxic phase, where the second anaerobic / anoxic phase follows the application of a chemical.

5

Pumping of new wastewater into the process tank at first, as the purified wastewater from the previous cycle has been pumped out of the process tank.

At long intervals between the pumps, ie. since flowing wastewater is so small that intervening between two pumps exceeds a predetermined t for a day, the preliminary aeration is performed in a pulse rate. In this case, the sludge and wastewater mixture can, for example, be aerated for 10-20 minutes, followed by a rest period of 1-4 hours. When a pumping exits the preliminary aeration in a constant phase, carry on until a new purification process starts to cease until it has passed the aforementioned pre-settlement; 20 on e.g. a day without any additional pumping room.

· * «» «* •« • · To streamline the anoxic purification process can. * ··. Mixing of the process is carried out by briefly in] ···. ···, aeration, resulting in the active sludge * *. In the bottom of the process tank, mix with the process's he · · · iy "> ·» * ► · ···

The invention also relates to a device for purifying α1 * *; 30 water comprising a collection tank for receiving a1 ***! ? 1 fan fvan öf + oi 1 ωτ- f 1 VmeKal 1 λγ · We on o ώ + - οττ · 4 aeration of the mixture of wastewater and active s suitable place in the device is arranged a chemical tank equipped with a dose pump designed to mix wastewater and active sludge in the process tank adds 5 precipitating chemicals, for precipitation of phosphorus in wastewater. A pump for pumping out purified sewage at the end of a purification cycle is immersed in the process tank a depth corresponding to 10 - 70% of the total amount of liquid. In addition, the device includes a control unit for performing all the functions of the device.

Characteristic of the device according to the invention is the collection tank slightly above the tearing pump i; exhibits a first float, arranged to dispense at least to the control unit to start the tearing pump va: thread of wastewater level in the collection tank reached a limit value, provided that a purification cycle does not interfere; cesstanken. Each time the wastewater level in the catchment drops to a lower limit value, the first controller is arranged to deliver to the controller a signal to: the tearing pump. The control unit is arranged to, after: * ·: completed purification cycle, start the compressor for prelimini aeration of the active sludge and the wastewater:. added to the process tank. At the top of the process tank, an <··· *. ···, a second float is arranged to sense the tili processl • · • ** I have pumped a volume of wastewater required for a * · * purification cycle and thereby send to the control unit a sigi • «* · * · 'disconnect the tearing pxamp in the collection tank and the actual purification cycle comprising anoxic phases, * *; 30, chemical dosing, clearing and closing out ***! For example, the surface trace 5 may be integrated into the vessel above the process and the filling tank or as a separate unit outside the vessel dug below ground level or installed above ground level. According to a third alternative, the device is constructed at the ends of a large-lying pipe whose inner by means of tical partition walls are divided into at least one open tank, a process tank and possibly a dry technical space.

In the construction with a collection tank and a process tank in flat vessels, the collection tank may conveniently be provided with a bottom surface which divides the vessel into an upper dry space, e.g. control unit, compressor and chemical tank with dose and a lower liquid space for flowing sewage 15

According to a preferred embodiment, a further p is mounted in the lower portion of the process tank, which is arranged via a s or a pipe to pump, if necessary, a portion of the sludge in the process tank into a filter bag removable from the liquid surface at the top of the collection surface, from which the liquid is allowed to flow. down to the wastewater in the uppers tank and the solid sludge collected in the filter bag • 1 is regularly emptied into a compost or together. ·· 1, with the filter bag placed in a compost, if filter bag * 1, 1 ·· 25 is made of a compostable material .

• I

In the following, the invention will be described in more detail with reference to the drawing, where «; Fig. 1 schematically shows an example of a device e. 1 S: uDDfinnina, 6 In the example shown, the device for purifying running water comprises two separate tanks, namely a collection 1 and a batch working process tank 2, which in their; 5 portions are connected to each other via a connecting sec;

Wastewater from one or more household halls is provided to flow to the collection tank 1 via an inlet 4. In the tank 2, a certain amount of active sludge is stored in a bacterial flora for the decomposition of organic material and nitrogen compounds contained in the sewage network. The bottom of the collection tank is provided with a tear pi which is arranged via a hose or pipe 6 to ensure that in wastewater from the collection tank 1 to process channels 3 through a connection channel 3 before a new purification cycle is carried out. The function of the tearing pump 5 is controlled by a control unit. Above the first float 8 of the tearing pump 5 mounted 8 is arranged to receive infor- mation on the wastewater level in the collection tank 1. If no purification cycle is applied in the process tank 2, the controller 20 is arranged to start the tearing pump 5 on signal from the first float 8 in each batch of wastewater level. Ling **; the tank tank l has reached an upper limit value, and that the tearing pump 5 each set of wastewater level seven «***. To a lower limit value. By adding the upper limit value * β ·· 1β for the first float 8 lies on a relative law n •. ”In wastewater is pumped into the process tank 2 relative s • · 1» »· even though pr the induction of wastewater in the connected households at the time would be law.

At the bottom of the process tank 2, an aeration is provided * 1 1 Ϊ f ΛΚιΠηί πλ O tri 1 tri ^ ώ n γλκΙλΗγli no r 1 Π ia v1 annrrrv / i af f 7 portion-wise pumping was added full volume for a purification cycle. Through the preliminary aeration, effective reduction of the wastewater's BOD and increased trimming of ammonium nitrogen result, which means that a proportion of nitrogen can be denitrified, resulting in a greater reduction in tallow nitrogen. If the interval between two pumps exceeds a predetermined time, e.g. For one day, the heat sends impulses to the compressor 11 to transition into a preliminary airing until the next pumping. Up 10 process tank 2 is mounted a second float 12 which is arranged to sense when the wastewater level in process 2 has risen to a level corresponding to full volume, and to start the compressor for preliminary aeration of the sludge and to supply wastewater in the process tank 15 at said second float 12 arranged to send one to the controller 7 to disengage the tearing pump to start the actual purification cycle, comprising anoxisation, aeration, chemical dosing, clearing and final pumping of purified wastewater.

20

The actual purification cycle can be started with an anoxia Ϊ * Ϊ with short-duration aeration pulses, an aeration phase, the control unit 7 halves the compressor 11 in operation for a hand-determined period of time adapted to the other full volume determined by the other * · *. sewage.

• * ·· · * · • · · * · · * 11 / At the end of aeration, the process tank 2 can, if necessary, be shed a small precisely balanced amount of wastewater in the anaerobic or oxygen-poor (anoxic) ) reni • e: 30 by setting the controller to start the tear, • *% W | 1Ä A ^ t. . . . "1 1" | · Ί, »„ 8 at the beginning of the aeration phase, to oxidize the transverse iron to trivalent iron. The metering pump 13 receives signals from the control unit to supply, at the final stage of aeration, the mixture of wastewater and active sludge in the tank 2 with a predetermined amount of precipitate via a pipeline 15, followed by an anoxic: clarification, then solidification and sludge were allowed to sink. the lower part of the process tank 2.

A pump 16 is immersed in the process tank 2 to a depth corresponding to 10 - 70% of the total amount of process fluid, while pump 16 via a pipeline 17 is arranged to after a closed phase of clarification pump out purified wastewater from the processing tank 2 according to signals from the control unit. After t 15, a new batch of wastewater can be pumped portionwise into the tank 2 after the wastewater flows into the chamber 1.

To facilitate the removal of overflow sludge in the pre-tank 2, it may advantageously be provided with a third pump submerged to the lower portion of the process tank 2 which: ***; Pipeline 19 is arranged to periodically pump overflow slurry to a top of the collection tank 1. * · *, attached filter bag 20, from which liquid was allowed to drain off * * 25 the waste water into the collection tank 1, followed by filter ^, *** 20 with contents can be brought to a compost unless felt is made of compostable material, and your '' * · '' put filter bag is mounted in place in collection tops. Alternatively, the contents of the filter bag are emptied of a compost. An Appropriate Time for Removal of Exercise? is an affirmative affidavit of 20, and in a lower liquid outlet lb for inflowing running water.

The device shown in FIGS. 2 and 3, with chamber 5, process chamber 2 and a dry technical output 21 for technical equipment integrated into a joint, preferably manufactured in plastic by rotational molding, is designed in principle as parallel to the tank. a central partition separating the collection chamber 1 from the process tank 2, wherein the space 21 is arranged at the top of the tank above said longitudinal wall and projects to the half Above collection chamber <and the process tank 2. The width of the overall space 2 and 21 of the tank is equally large.

15

The process of the present invention also takes into account in principle how diluted the wastewater entering the collection tank 1 is. Accordingly, if the hydraulic flow is large due to washing or drying, the collection tank 20 also fills the process tank 2 quickly, resulting in a shorter pre-treatment ie. preliminary aeration 9 9 9: the mixture in the process tank 2, but due to the fact that the coming wastewater there is basically cleaner is a l · i. ** ·. sufficient purification time.

999 9 99 9 9 ♦ · 9 99 • 9

• I I

9 9 9 99 9 9 9 99 9 9 9 9 999 9 m 9 9 9 9 9 9 * ·· 9 999 9 9 Λ λ

Claims (13)

1. Process for purification of wastewater, comprising the collection of wastewater in a collection tank ¢ 1), the pump; Collected wastewater into a batch working tank (2) containing active sludge, aeration of the wastewater tank (2), wastewater supplied to the wastewater batch process in process; ¢ 2} followed by an anaerobic / anoxic clearing of wastewater, whereby sludge and precipitating material descend to the bottom of the process tank (2), after which some purified wastewater is drained or pumped out of the process tank (2), characterized in that the pumping of wastewater to the process tank (2) takes place. small portions as wastewater flows to the collection tank until the process tank (2) is supplied with a volume of wastewater required for a new purification cycle, and from the discharge of a purification cycle and during the entire filling stage, a preliminary aeration of the active water mixture sludge (20) The process according to claim 1, characterized in that, between two purification cycles, the pumping of flushing water • in the process tank (2) as soon as the level in the collection tank increased. * ··, 2 rose to a level which is only a fraction of up. the total volume of the tank (1) while no pumping takes place * * * *! * an actual purification cycle. • · • w • 9 9 Process according to claim 1 or 2, characterized in that the volume of wastewater contained in each renin # * of b-nnefanf A process according to claim 4, characterized in that, at the end of the aeration, a small precise amount of wastewater is optionally added to effect denitrification * throughout the batch of wastewater and that a constant amount of staining chemical is added to the mixture to precipitate foil from the wastewater. Process according to Claim 5, characterized in that, as a precipitating chemical, a salt of trivalent jl or aluminum, preferably ferric sulphate or aluminum sulphate, is used. Process according to Claim 5, characterized in that, as a precipitating chemical, ferrous sulfate is used, which adds to the process mixture at the beginning of the aeration phase. Process according to any of claims 1-6, characterized in that the actual purification process begins with a solid anaerobic / anoxic phase and a second anaerobic / anoxic phase follows the application of precipitating chemical. * · * «E 9. A process according to claim 1, characterized in that: • pumping new wastewater into the process tank (2) • *, ··· "is first conducted when the purified wastewater from the previous cycle has been pumped out of process tanks (2). Process according to any of the preceding claims, characterized in that, at long intervals of 11 inputs, the preliminary aeration is performed pulse-wise. or more households and a batch-working process set containing active sludge with a bacterial flora for the decomposition of organic matter and nitrogen compounds, a decomposing pump (5) arranged for pumping wastewater from the collection tank (1) into the process tank (2). ) before starting a new purification cycle, the bottom of the process tank (2) is provided, by a compressor-fed aeration device (9) for aeration of waste water mixture and active sludge, a chemical tank (14) equipped with a metering pump (14) for active sludge in the process tank (2) into a precipitating chemical for precipitation of phosphorus contained in wastewater, a pump (16) for pumping out proportions: in the wastewater at the end of a purification cycle, submerge the process tank (2) to a depth corresponding to 10 - 70 % a 'the total amount of process fluid, and a control unit (7) for: control of all the functions of the device, characterized in that the collection tank (1) n received above the rivandi pen (5) suction has a first float (8), providing <20 a signal to the control unit (7) to start the rivi .. * pump (5) every bunch of wastewater level in the collection water (1) An upper limit value, provided that a clean cell does not interfere with the process tank (2), and that the float (8) is arranged to supply the control unit (7) with a signal that stop the tearing pump (5) every time of] • ·: the water level in the collection tank (1) drops to a limit value of n, that the control unit is arranged to start the compressor (11) for a preliminary cycle after an additional cleaning cycle. aeration of the active s lamb and wastewater see • · »·» *, ··· β 30 is added to the process tank (2), and to the top of the process tank Device according to claim 12, characterized therein; that the device is constructed so that collection tanks (1) process tanks (2) are arranged in two separate vessels together with a connecting channel (3) in the upper part of the vessels. Device according to claim 12, characterized in that the device is built up with the collection tank (1) (the process tank (2) housed in one and the same carriage and sealed from one another by an intermediate wall. Device according to claim 12, characterized in that the device is constructed as an end-closed pipe whose interior by means of vertical partitions in divided into at least one collection tank (1) and a process tank (2) and possibly in a dry technical space. 16. Apparatus according to claim 13 or 14, characterized in that the collecting tank (1) is divided by means of an intermediate bc (21) into an upper dry space (1a) for, among other things. s. · · unit (7), compressor (11) and chemical tank (14) with c • a * pump (13), and a lower liquid space (lb) for inflow • sewage. 9 9 9 9 999 • 99 17. Device according to claim 14, characterized therein: a dry technical space is integrated in the vessel above the process and the collection tank or as a separate unit outside the vessel buried below ground level or installed; · * · Above ground level. * · # 1 • 9 9 99