JPH0721234Y2 - Sludge treatment equipment - Google Patents

Description

[Detailed Description of the Invention] [Industrial application] The present invention is a sludge in which a centrifugal concentrator and a centrifugal dehydrator are combined in order to reduce the volume and reduce the water content of sludge generated from the sewage treatment process. Regarding a processing device.

[Prior Art] When sludge generated from a sewage treatment process is dehydrated, it is difficult to immediately dehydrate the sludge due to its low concentration. Therefore, the sludge is first concentrated and then dehydrated. Is taken. Then, various devices are provided as a means for concentrating the sludge and a means for dewatering the concentrated sludge, but among them, the centrifugal concentrator and the centrifugal dehydrator have high processing efficiency and a small site area, There is a demand for a sludge treatment device that combines these.

In this case, the concentration of the concentrated sludge is controlled to be constant by the centrifugal concentrator, and the concentrated sludge is supplied together with the coagulant to the centrifugal dehydrator at a constant flow rate for dehydration in order to obtain a dehydrated cake with a stable low water content. Is preferred.

[Problems to be solved by the invention] However, when the concentration of the sludge is controlled to be constant in this way, the amount of the concentrated sludge discharged from the centrifugal concentrator changes when the concentration of the sludge supplied to the centrifugal concentrator changes. Also changes. Therefore, in order to supply a constant amount of concentrated sludge with varying amounts of discharge to the centrifugal dehydrator, a large-capacity concentrated sludge tank for temporarily storing the concentrated sludge discharged from the centrifugal concentrator is required. However, if the concentrated sludge, whose discharge amount fluctuates, is supplied to the centrifugal dehydrator as it is, there is a problem that the chemical injection rate of the flocculant with respect to the concentrated sludge fluctuates.

Therefore, the present invention has been made to solve the above problems, and provides a sludge treatment device capable of reducing the capacity of a concentrated sludge tank to reduce the site area and maintaining a constant chemical injection rate. The purpose is to do.

[Means for Solving Problems] In order to achieve the above object, the present invention provides a centrifugal concentrator for concentrating a supplied sludge to a constant concentration, and a concentrating for storing the concentrated sludge discharged from the centrifugal concentrator. A sludge tank and a centrifuge that makes it possible to keep the moisture content of the dehydrated cake constant by detecting the screw torque of the dehydrator and automatically changing the concentrated sludge supplied from the concentrated sludge tank through the sludge pump. A dehydrator, a chemical pump for supplying a coagulant to the centrifugal dehydrator, a water level sensor for detecting the water level in the concentrated sludge tank, and the sludge pump for keeping the water level constant by a signal from the water level sensor. And a controller for controlling the number of revolutions of the chemical injection pump in proportion to the number of revolutions of the sludge pump.

[Operation] When the concentration of sludge supplied to the centrifugal concentrator changes, the amount of concentrated sludge discharged from the centrifugal concentrator changes, and the water level in the concentrated sludge tank changes. The change in water level is detected by the water level sensor, and the controller controls the rotation speed of the sludge pump based on the output signal so as to keep the water level constant.

As a result, the water level in the concentrated sludge tank is maintained constant, so that the capacity of the concentrated sludge tank can be reduced and the site area can be reduced.

On the other hand, although the sludge supply amount to the centrifugal dehydrator is changed by controlling the rotation speed of the sludge pump, the rotation speed of the chemical injection pump is controlled by the controller in proportion to the rotation speed of the sludge pump.
In this way, the coagulant supply rate to the centrifugal dehydrator can be made proportional to the sludge supply rate because the concentrated sludge has a constant concentration due to the centrifugal concentrator. Can be maintained at. The sludge supplied to the centrifugal dehydrator is always discharged as a stable dehydrated cake by torque control.

[Embodiment] An embodiment of the present invention will be described below in detail with reference to the accompanying drawings.

In the figure, 1 is a so-called screw decanter type centrifugal concentrator, which is supplied by controlling the operating conditions (the speed difference between the inner cylinder screw and the outer cylinder, etc.) while measuring the concentration of the concentrated sludge with a densitometer. The sludge to be treated is concentrated and discharged to a certain concentration. Centrifugal concentrator 1
The concentrated sludge discharged from the concentrated sludge tank 2 is stored in the concentrated sludge tank 2. The concentrated sludge in the concentrated sludge tank 2 is a screw decanter type centrifugal dehydrator 3 by a sludge pump P _1.
Is configured to be supplied to. In addition, the coagulant contained in the medicine tank 4 is supplied to the centrifugal dehydrator 3 by the chemical injection pump P ₂ . Centrifugal dehydrator 3
Mixes the supplied concentrated sludge with the coagulant to dehydrate, and discharges the dehydrated cake. Further, the centrifugal dehydrator 3 discharges the dehydrated cake having a constant water content by detecting the torque of the inner shell screw and controlling the operating conditions.

The concentrated sludge tank 2 is provided with a water level sensor 5 including an ultrasonic transmitter / receiver for detecting the water level in the tank, and an output signal from the water level sensor 5 is supplied to a converter 6 and a water level setter 7. It is adapted to be sent to the controller 9 via the adjuster 8 included therein. The controller 9 controls the rotation speed of the sludge pump P ₁ so as to keep the water level in the concentrated sludge tank 2 constant (reference equilibrium water level L) by the output signal from the water level sensor 5, and at the same time the chemical pump P The rotational speed of ₂ is controlled in proportion to the rotational speed of the sludge pump P ₁ . Specifically, the output signal from the controller 9 is sent to the chemical injection pump controller 11 via the proportional setting device 10, and the rotation speed of the chemical injection pump P ₂ is controlled.

Next, the operation of the embodiment will be described.

For example, when the concentration of the sludge is increased to 1.2% from 1% to set the concentrated sludge concentration centrifugal concentrator 1 to 4% 10 m ³
The amount of concentrated sludge when treating / Hr sludge is 1) When sludge concentration is 1% 2) When sludge concentration is 1.2% Becomes (Calculated assuming that the recovery rate is 100%) When the concentration concentration of the centrifugal concentrator 1 is controlled to be constant as described above, if the concentration of the sludge to be treated supplied to the centrifugal concentrator 1 changes, the centrifugal concentrator 1 The amount of concentrated sludge discharged from the tank also changes, and the water level in the concentrated sludge tank 2 changes. Therefore, change in the water level is detected by the water level sensor 5, the sludge pump P ₁ in order to the controller 9 is level with the output signal constant L
Control the rotation speed of. As a result, the water level in the concentrated sludge tank 2 is maintained constant, so that the capacity can be reduced, and thus the site area can be reduced.

On the other hand, the amount of concentrated sludge supplied to the centrifugal dehydrator 3 changes depending on the rotation speed control of the sludge pump P ₁ .
Since the rotation speed of the chemical injection pump P ₂ is controlled in proportion to the rotation speed of the sludge pump P ₁ , the chemical injection rate of the coagulant with respect to the concentrated sludge can be constantly kept constant by simple flow rate control, and stable. The dehydrated cake having a low water content can be discharged.

[Effects of the Invention] In short, according to the present invention, the following excellent effects are exhibited.

(1) Since the water level in the concentrated sludge tank is kept constant by controlling the rotation speed of the sludge pump, it is possible to reduce the capacity of the concentrated sludge tank, thereby reducing the site area.

(2) Since the concentration of the concentrated sludge is made constant by the centrifugal concentrator and the rotation speed of the chemical injection pump is controlled in proportion to the rotation speed of the sludge pump, the chemical injection rate of the coagulant to the concentrated sludge can be simplified. It can always be kept constant by controlling the flow rate,
It is possible to efficiently discharge a stable dehydrated cake having a low water content.

[Brief description of drawings]

FIG. 1 is a system diagram of a sludge treatment device showing an embodiment of the present invention. In the figure, 1 is a centrifugal concentrator, 2 is a concentrated sludge tank, 3 is a centrifugal dehydrator, 5 is a water level sensor, 9 is a controller, P ₁ is a sludge pump,
P ₂ is a dosing pump.

Claims (1)

[Scope of utility model registration request] 1. A centrifugal concentrator for concentrating the supplied sludge to a constant concentration, a concentrated sludge tank for storing the concentrated sludge discharged from the centrifugal concentrator, and a concentrated sludge tank supplied via a sludge pump. A centrifugal dehydrator for dehydrating the concentrated sludge, a chemical pump for supplying a coagulant to the centrifugal dehydrator, a water level sensor for detecting the water level in the concentrated sludge tank, and a water level sensor for detecting the water level. A sludge treatment device, comprising: a controller for controlling the rotation speed of the sludge pump to keep it constant and for controlling the rotation speed of the chemical injection pump in proportion to the rotation speed of the sludge pump.