PL157436B1 - Biological sewage treatment plant - Google Patents

Abstract

A biological sewage treatment plant consisting of two radial tanks, the outer one being used for biological purification and the inner one for clarification and separation of activated sludge. The plant is distinctive in that it applies a flume (3) mounted across the tank (1) at the height H from the bottom (1a) along a borderline of two sectors: sector (S1) of low sewage level and sector (S2) of raised sewage level; the flume side walls (3a) and (3b) are possess longitudinal gates (Z1, Z2, Z3, Z4), while between its side walls (3a) and (3b) there are lateral gates (Z5, Z6); the gates serve for controlling forced flow of sewage from sector (S1) under the flume (3) to sector (S2), circular flow of sewage along a spiral line within the tank (1) and inlet of sewage from the sector (S2) through the terminal part of the flume (3) and further through a piping (7) into the tank (2), the latter constituting a secondary settling tank of the plant.<IMAGE>

Description

The subject of the invention is a biological wastewater treatment plant consisting of two radial tanks, the outer tank of which is intended for biological wastewater treatment, and the internal tank for clarifying treated wastewater and separating biomass of activated sludge.

There is a known solution of a biological treatment plant with a secondary sedimentation tank built centrally into the biological treatment chamber, to which the sewage to be treated flows in pointwise or linearly, the level of the inflow mirror being adjusted to the leveled wastewater table in the biological treatment plant tank. Also, the outflow of sewage from the biological treatment chamber to the secondary settling tank is collected taking into account the leveled sewage table. As a result, all mirrors, i.e. the mirror in the inflow to the first reservoir, the mirror in the biological treatment plant reservoir and the mirror in the secondary sedimentation tank, are designed according to the cascade principle, taking into account the appropriate lowering of the mirrors according to the hydraulic losses along the flow path. This results in a relatively large lowering of the wastewater table in the secondary settling tank in relation to the mirror level on the inflow to the treatment plant, and thus incomplete use of the volume of the centrally located secondary settling tank. In addition, there is a need for a relatively high increase in recirculation, in which the biomass from the secondary settling tank is returned to the inflow to the biological treatment plant to a height greater than the sum of hydraulic losses that occur during the flow through the treatment plant.

The task to be solved is to design a two-tank biological treatment plant, preferably located on a common bottom plate, with a fuller use of the volume of the secondary settling tank, while minimizing the differences in the levels of wastewater mirrors within the working tanks /.

The biological wastewater treatment plant according to the invention preferably comprises two tanks, one external of which is intended for biological wastewater treatment, and is surrounded by a second centrally installed tank for clarifying the wastewater and separating biomass recirculated into the inflow. The biological treatment tank in its upper part comprises a trough built transversely between its walls, placed on the border of sectors, i.e. the sector with a lowered wastewater table and the sector with an increased wastewater table. The trough contains four longitudinal overflow valves in the side walls and two transverse valves between the side walls, which control the forced flow of sewage from the lowered mirror sector under the trough, to the sector with an elevated mirror and control the circular flow of sewage along the spiral line in the tank, and also odoiorern of sewage from the sector with an increased mirror at the inner wall of the zoological pond of the biological treatment plant through the end part of the trough and the conduit to the reservoir constituting the secondary sedimentation tank. Wastewater is led to the biological treatment plant tank through the initial part of the channel and, with the appropriate setting of the valves, is introduced into the sector with a lowered wastewater table. Through the operation of aeration devices, and at the same time differentiating the levels of mirrors within the channel, multiple circulation of sewage is induced and its simultaneous treatment in contact with the recirculated biomass supplied from the secondary settling tank. This circulation takes place on a spiral elongated path, as the collection of sewage from the biological treatment tank to the secondary settling tank is located, compared to the inflow at the opposite end of the bed, close to the wall of this settling tank, the sewage flowing through an open valve from the biological treatment tank to the bed, and then from the trough to the closed conduit leading to the central part of the settling tank are taken from the sector with increased pressure. By separating sectors with different levels of the wastewater table in the biological treatment tank and their interaction with the connection channel, the overall hydraulic losses of the system are reduced and almost the same filling in both tanks is achieved, which allows for a fuller use of the capacity of the secondary settling tank and minimizes the lifting height of the recirculation, which in in this case it is lifted by simple air fluid lifters driven by compressed air coming from a common compressor station.

The subject of the invention is shown in the embodiment in the attached drawing, in which Fig. 1 shows the sewage treatment plant in a partial section along the line A - A at the point of sewage entering the biological treatment tank, and Fig. 3 - the sewage treatment plant in partial section along the line B - B in the place where sewage is collected from the biological treatment tank and discharged to the secondary settling tank.

The tanks 1 and 2 form a common construction set in a common excavation with the same or similar baseplate recesses, whereby tank 1 is a biological treatment tank and tank 2 is a secondary sedimentation tank. Inside the reservoir 1 there is a trough 3 located transversely to the direction of circulating sewage, placed at a distance H from the bottom Ia in the line dividing this reservoir into a sector with a lowered wastewater table and a sector S? with increased wastewater table. In the side walls 3a and 3b of the trough 3, there are built-in longitudinal valves Zp Z ', Zj, and Z1 which control the flow of sewage in the system of tanks 1 and 2 of the treatment plant. In addition, transverse valves Zj are built into the riverbed 3 and allow the longitudinal flow of sewage through the channel in the case of using the tank 2 as a secondary settling tank, with the movement of the tank 1 switched off and the collection of sewage from another tank from outside the set of treatment plant tanks. The section of the bottom 3c of the trough 3 in the sector together with the partition 4 and the aeration devices 5 directs the flow of sewage in the biological treatment tank 1, the sewage to the treatment plant flows through the conduit 6 to the initial part of the trough 3 with closed valves Z?, Zj, and the overflow valve Zj is open and then flows out to sector Sp in which, due to the operation of aeration devices 5, sewage circulates along a spiral line in the biological treatment tank 1. After repeated circulation along the spiral line, the sewage reaches the vicinity of the tank wall 2, in the vicinity of which the longitudinal overflow valve Zj allows the flow of sewage to the end part of the channel 3, from which the sewage is directed through the line 7 to the tank 2 constituting the secondary settling tank. During normal operation of the sewage treatment plant, the longitudinal valve Z1 is open at the end of the trough 3, while the longitudinal valve Z1 and transverse valve Z1 are closed. In special operating conditions, when only the tank 2 is used periodically without the participation of tank 1, transverse gates Zj and Z ^ are open and longitudinal gates Zp Z ^, Z ^ and Z ^ are closed. V / tank 2 as a secondary settling tank, the sewage is clarified and the activated sludge biomass is separated from it. The clarified sewage from the tank 2 is discharged through the conduit 0 to the receiver, while the activated sludge called biomass is recirculated to the beginning of the biological treatment plant by a recirculation system 9 consisting of pipes and a pumping station.

157 436

157 436

Department of Publishing of the UP RP. Circulation of 90 copies

Price PLN 5,000.

Claims (1)

Patent claim Biological sewage treatment plant consisting of two radial tanks, of which the external tank is designed for biological treatment and the internal tank for clarifying treated sewage and separating active sludge, characterized in that in the tank / 1 / it is built transversely at a height H from the bottom / la / trough / 3 / located at the boundary of sectors, i.e. sector / S ^ / with a lowered wastewater table and sector Ι'ο ^ Ι with an increased wastewater table, which trough / 3 / in the associated side walls / la / and / 3b / has valves longitudinal / Z ^ /, / Zj /, / Z3 /, Ι— ^ Ι β between the side walls / 3a / i / 3b / transverse valves / Z ^ /, controlling the forced flow of sewage from the sector / 5 ^ / under the trough / 3 / to the sector / 35 and controlling the circular flow of sewage along a spiral line in the tank / 1 / and also controlling the collection of sewage from the sector / 55 at the tank wall / 2 / through the end part of the trough / 3 / and conduit / 7 / to the tank / 2 / constituting a secondary settling tank. * ««