JP3002607B2 - Horizontal centrifugal concentrator - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal centrifugal concentrator and an apparatus capable of simultaneously operating a concentrated sludge concentration and a separated water concentration. . 2. Description of the Related Art A horizontal centrifugal concentrator as described in Japanese Utility Model Application Laid-Open No. 62-79556 is often used for the treatment of sludge generated from a sewage treatment plant. . [0003] In this horizontal centrifugal concentrator, a screw conveyor that is rotated at a relative speed difference from the outer cylinder is provided in a cylindrical outer cylinder that is rotated at a high speed, and sludge supplied from one end side is removed. Solid-liquid separation during transfer to the multi-end side of the annular space between the cylinder and screw conveyor, taking out concentrated sludge from the outer periphery of the annular space and separating water from the inner periphery. The concentration of the sludge is controlled by adjusting the rotation speed of the outer cylinder (centrifugal effect) or adjusting the flow rate of the concentrated sludge discharged from the concentrated sludge discharge pipe. [0004] In the process of concentrating sludge, it is necessary to obtain a stable concentrated sludge in a subsequent treatment process, and to obtain clear separated water in the sludge return water. Since it greatly affects the processing system, it is important to perform stable processing. [0005] In a horizontal centrifugal concentrator, since the respective concentrations of the concentrated sludge and the separated water to be separated into solid and liquid are relative, the concentration of the separated sludge cannot be adjusted and the concentration of the separated water cannot be adjusted as in the prior art. Then, even though the concentration of concentrated sludge has reached the target value, the concentration of separated water remains poor, or the concentration of separated water has reached the target value. And use up wasted energy. Moreover, the concentration of each of the concentrated sludge and the separated water is adjusted by a skilled person based on the conventional experience.
The control of the rotation of the outer cylinder and the control of the discharge flow rate of the concentrated sludge are not only very troublesome, but also it is difficult to perform a stable treatment. The present invention has been made in view of the above-mentioned conventional circumstances, and is capable of automatically and reliably performing operation control for obtaining stable concentrated sludge and clear separated water without skill. It is intended to provide a horizontal centrifugal concentrator. The structure of the present invention for achieving the above object will be described with reference to the drawings corresponding to the embodiments. The present invention provides a high-speed A horizontal centrifugal concentrator A, which is configured to supply sludge from one end of the rotating outer cylinder 1 to separate it into solid and liquid, and to separate concentrated sludge from a circumferential portion on the other end and to separate water from a central portion, In addition to installing a control mechanism for the number of rotations of 1, a valve 14, 18 for controlling the discharge flow rate of the concentrated sludge and the separated water, and a concentration meter 24, 25 for measuring the concentration of the discharged concentrated sludge and the separated water, When both the concentrated sludge concentration and the separated water concentration are higher or lower than their target values, adjust the valves 14 and 18 so that one of the concentrated sludge concentration and the separated water concentration becomes higher than the target value and the other Is smaller than the target value. The rotation speed of the valve is adjusted, and when one of the concentrated sludge concentration and the separated water matches the target value and the other becomes larger or smaller than the target value, the valve 14,
18 and a controller B for adjusting the rotation speed of the outer cylinder 1 is provided. In the apparatus having the above-mentioned structure, the target values of the required concentration of the concentrated sludge and the required concentration of the separated water are appropriately set in the input determining section 30 of the controller B. Then, the measured values of the respective concentrations of the discharged concentrated sludge and the separated water are input, and the measured values are compared with the target values and sent to the fuzzy inference output unit 31. In the fuzzy inference output unit 31, necessary items based on the empirical rules of an expert or the like are programmed in a control rule format. Thereby,
Based on the signal from the input judging unit 30, the rotation speed of the valves 14 and 18 for adjusting the discharge of the concentrated sludge and the separated water and the rotation speed of the outer cylinder 1 of the centrifugal concentrator A are adjusted, and the concentrated sludge and the separated water having a preferable concentration are taken out. Will be done. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an overall schematic diagram of a horizontal centrifugal concentrator according to the present invention. The apparatus of the present invention includes a horizontal centrifugal concentrator A and a controller B. In the centrifugal concentrator A, as shown in FIGS. 1 and 2, an outer cylinder 1 is supported on a bearing by hollow shafts 2 provided at both ends thereof, and is rotated at a high speed by a driving device 3. A screw conveyor 4 having a screw on its outer periphery is accommodated in the outer cylinder 1, and a hollow rotary shaft 5 protruding from one end of the screw conveyor is inserted into the hollow shafts 2 and 2 of the outer cylinder 1. The rotary shaft 5 protruding from the hollow shaft 2 is connected to a driving device 6, and the screw conveyor 4 is rotated at a slight relative speed to the outer cylinder 1. One side of the rotary shaft 5 of the screw conveyor 4 is connected to a sludge supply pipe 7 via a rotary joint, and the sludge passes through the rotary shaft 5 and is formed in an annular shape between the outer cylinder 1 and the screw conveyor 4. It is sent to one side of the space 8. At the other end of the screw conveyor 4, a separated water outlet pipe 9 communicating with the annular space 8 is provided with a hollow shaft 2 of the outer cylinder 1.
The distal end portion is protruded into the separated water discharge chamber 10. A condensed sludge discharge pipe 12 having a distal end protruding into the concentrated sludge discharge chamber 11 is inserted concentrically into the separated water discharge pipe 9. Is connected to an introduction pipe 13 opened at the outer peripheral portion of. At the opening of the concentrated sludge discharge pipe 12 projecting into the concentrated sludge discharge chamber 11, a concentrated sludge control valve 14 for adjusting the opening degree and adjusting the discharge amount is provided so as to be able to advance and retreat in the pipe axis direction. The operation is performed by rotating a screw rod 15 screwed to the control valve 14 forward and reverse of a motor 16. The opening 17 is formed between the end of the separation water discharge pipe 9 protruding into the separation liquid discharge chamber 10 and the concentrated sludge discharge pipe 12 passing therethrough to adjust the degree of opening to reduce the discharge amount. A separated water control valve 18 to be adjusted is provided so as to be able to advance and retreat in the tube axis direction. The control valve 18 is slidably and loosely fitted to the outside of the concentrated sludge discharge pipe 12, penetrates through the concentrated sludge discharge chamber 11 and protrudes to the outside, and meshes with a gear 19 provided on a forward / reverse rotating motor 20. A sludge circulation hole 21 is provided at a location located in the concentrated sludge discharge chamber 11. The discharge chambers 10 and 11 have outlet pipes 2 respectively.
2 and 23 are provided, and the outflow pipes 22 and 23 are provided with densitometers 24 and 25, respectively. As shown in FIG. 4, the controller B includes an input determining unit 30 and a fuzzy inference output unit 31. The input determination unit 30 can set a target value of the required concentration of the concentrated sludge and a target value of the concentration of the separated water, and the concentration of the separated water and the concentration of the concentrated sludge measured by the concentration meters 24 and 25. Are input, and a signal indicating the difference between the target values and the target values is sent to the next fuzzy inference output unit 31. In the fuzzy inference output unit 31, a motor 16 for moving a control valve 14 for adjusting the discharge flow rate of the concentrated sludge, and a control valve for adjusting the discharge flow rate of the separated water, based on the sent signal. Motor 20 to move 18
And a signal for adjusting the number of rotations of the motor 3 for driving the outer cylinder 1 of the centrifugal concentrator A. Then, the fuzzy inference output unit 31 outputs a judgment value based on the concentration of the concentrated sludge and the concentration of the separated water according to a set program. This program is set as follows. That is, assuming that the concentrated sludge concentration target value is X ₁ , the separated water concentration target value is Y ₁ , the measured concentrated sludge concentration is X ₂ , and the separated water concentration is Y ₂ , (1) X ₂ > X ₁ and Y ₂ > when a Y ₁ is larger the opening degree of the valve 14, to reduce the opening of the valve 18. (2) when a X _2> X ₁ and Y ₂ <Y ₁ decreases the rotational speed of the outer cylinder 1. (3) When X ₂ <X ₁ and Y ₂ > Y ₁ , the rotation speed of the outer cylinder 1 is increased. (4) When X ₂ <X ₁ and Y ₂ <Y ₁ , the opening of the valve 14 is reduced and the opening of the valve 18 is increased. (5) When X ₂ > X ₁ when Y ₂ = Y ₁ , the opening of the valve 14 is increased, the opening of the valve 18 is reduced, and the rotation speed of the outer cylinder 1 is reduced. (6) When X ₂ <X ₁ when Y ₂ = Y ₁ , the opening of the valve 14 is reduced, the opening of the valve 18 is increased, and the rotation speed of the outer cylinder 1 is increased. (7) When X ₂ = X ₁ and Y ₂ > Y ₁ , the opening of the valve 14 is increased, the opening of the valve 18 is reduced, and the rotation speed of the outer cylinder 1 is increased. (8) When X ₂ = X ₁ and Y ₂ <Y ₁ , the opening of the valve 14 is reduced, the opening of the valve 18 is increased, and the rotation speed of the outer cylinder 1 is reduced. become that way. In short, the concentrated sludge concentration X ₂ and the separated water concentration Y ₂
When both were whether smaller larger than the target value X _1, Y ₁ of adjusts the degree of opening of both valves 14 and 18, one is the target of the thickened sludge concentration X ₂ and separated water concentration X ₂ state than atmospheric next the other value when it becomes smaller than the target value, by adjusting the rotational speed of the outer cylinder 1, also to either the concentrated sludge concentration X ₂ and separated water concentration Y ₂ is compatible with the target value Then, when the other is larger or smaller than the target value, the rotational speeds of both valves 14, 18 and the outer cylinder 1 are adjusted. In this way, the centrifugal concentrator A compares the concentrations of the concentrated sludge and the separated water discharged by the controller B with the set target values, and from the result, in accordance with the programmed control rules. The discharge flow rate of the concentrated sludge and separation water to be adjusted to obtain the required target value and the rotation speed of the outer cylinder of the centrifugal concentrator A are automatically controlled, and the properties of the supplied sludge and fluctuations in load are controlled. Therefore, even when the value is large, appropriate processing is always performed. As described above, according to the present invention,
The concentration of the concentrated sludge taken out of the centrifugal concentrator and the concentration of the separated water are measured, and based on the measured values, the discharge amount of the concentrated sludge and the separated water and the rotation speed of the outer cylinder of the centrifugal concentrator are automatically determined. Since it is necessary to adjust to the conditions, it is possible to reliably control the supply sludge in response to large changes in the properties and load of the sludge, and operation that simultaneously satisfies both the concentration of the concentrated sludge and the concentration of the separated water requires a skilled person. Without having to do it.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall view showing an outline of a device of the present invention. FIG. 2 is a longitudinal sectional view showing the centrifugal concentrator. FIG. 3 is a longitudinal sectional view showing the main part. FIG. 4 is a block diagram of a controller in the device of the present invention. [Description of Signs] A Centrifugal concentrator B Controller 1 Outer cylinder 2 Hollow shaft 3 Drive device 4 Screw conveyor 5 Rotary shaft 7 Sludge supply pipe 8 Annular space 9 Separated water take-out pipe 12 Concentrated sludge take-out pipe 13 Intake pipe 14 Concentrated sludge Control valve 16, 20 Motor 18 Separated water control valve 22, 23 Outflow pipe 24, 25 Concentration meter 30 Input judgment unit 31 Fuzzy inference output unit

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) B04B 1/20 B04B 1/02

Claims (1)

(57) [Claims] Sludge is supplied from one end of a high-speed rotating outer cylinder that accommodates a screw conveyor, and solid-liquid separation is performed. Condensed sludge is separated from the circumferential portion on the other end, and separated water is separated from the center. A horizontal centrifugal concentrator designed to take out, a control mechanism for the rotation speed of the outer cylinder, a valve for controlling the discharge flow rate of concentrated sludge and separated water, and a concentration meter for measuring the concentration of discharged concentrated sludge and separated water When both the concentrated sludge concentration and the separated water concentration are larger or smaller than their target values, adjust the valve so that either one of the concentrated sludge concentration or the separated water concentration is higher than the target value. When it becomes larger and the other becomes smaller than the target value, adjust the rotation speed of the outer cylinder, and when either the concentrated sludge concentration or the separated water matches the target value, the other is larger or smaller than the target value. When it becomes small, Characterized in that a controller for adjusting the rotational speed of the fine outer tube, centrifugal concentrator.