KR100995875B1 - Palm oil mill effluent treatment equipment - Google Patents

Abstract

PURPOSE: A palm oil process waste water treatment device for reducing the percentage of water contents of sludge is provided to reduce the percentage of water content of the sludge usable for the removed palm sludge removed palm sludge. CONSTITUTION: A palm oil process waste water treatment device includes an outer tube(11) of a cylindrical shape in which the water outlet is formed in bottom. A moisture filtering net(12) is installed in the inner side of the outer tube. A screw(13) having a feed function is installed inside the moisture filtering network. A sludge discharging measure is formed in the outer tube upper end. The vapor outlet is formed in the outer tube upper end. A heater(19) is formed in the moisture filtering network circumference of the palm sludge outlet neighborhood and vapor outlet.

Description

Palm Oil Mill Effluent Treatment Equipment

The present invention is a palm process to improve the ammonia gas and effluent water quality generated during the conventional anaerobic treatment by dehydrating the process wastewater generated in the process of extracting palm oil (palm oil) from palm fruit, so that the sludge can be used as a compost The present invention relates to a wastewater advanced waste treatment apparatus.

Palm fruit mainly produced in the tropics contains a considerable amount of oil, and oil obtained from palm fruit, or palm oil, is widely used in various foods,

Due to the increased demand, it is not possible to effectively treat a large amount of process wastewater generated after oil extraction, which causes many problems.

The oil-free palm process wastewater is composed of fine fiber and a large amount of water, and contains various nutrients, so it is not only suitable for feed for livestock but also good for compost.

However, the wastewater generated in the palm oil refining process is composed of a large amount of water (98%) and fine fibers due to its characteristics, there is a considerable difficulty in treating such that can be used for such feed or compost.

In other words, due to many difficulties such as treatment equipment and other costs, most anaerobic wastewater treatment is performed, and the nutrition of environmental pollution is enormous.

On the other hand, conventionally known devices for separating and removing the residue contained in the waste oil production process waste water, that is, a dehydration device and drying means or methods are known.

Conventionally known devices or methods use a forced compression method or a centrifugal separation using a filter, but there is a problem that the moisture is not sufficiently discharged due to the saturated resistance in the capillary pores in the juice and the internal resistance by the fiber.

In addition, the dehydration effect is expected by increasing the cohesive force by using a chemical coagulant, but such a method has a problem in that the processing cost burden due to the coagulation of the polymer is high and it is unsuitable for use as a feed due to the chemical treatment. .

Therefore, at present, efforts have been made to lower the moisture content as a general dehydration means without using a polymer flocculant, but it is not easy to lower the moisture content so that it can be used as feed or compost.

In particular, such a conventional dehydration device is very difficult because there is a limit to the dehydration of the juice state made of very high moisture content and fine fibers.

Background art of the present invention is a patent application No. 10-2009-0074170 (Palm Sludge Treatment Apparatus) previously filed by the applicant.

The present invention has been developed in order to solve the above-mentioned problems effectively, and it is an object of the present invention to provide an apparatus and a method for effectively controlling a water content of a fruit juice having a high water content and a fine fiber, Obtaining the sludge dried by) is a technical problem to be solved by the present invention.

A cylindrical outer cylinder 11 having a water outlet 16 formed at a lower end thereof;

A water filtration network 12 installed inside the outer cylinder;

A screw 13 installed inside the moisture filtration network 12 and configured to gradually increase an outer diameter toward the sludge conveying direction, and having a crimping and conveying function;

A motor (14) and a speed reducer (15) for rotating the screw (13);

Sludge discharge means 30 formed on the outer cylinder (11) top;

Has a support (40) for supporting the outer cylinder 11 inclined;

A steam outlet 17 is formed at an upper end of the outer cylinder 11, and a heater 19 is formed on the outer circumferential surface of the water filtration net 12 near the steam outlet 17 and the palm sludge outlet 36 formed at the upper end of the outer cylinder 11. In the conventional farm process wastewater treatment apparatus for forming a,

The sludge automatic discharging means 30 is fixed to the upper end of the outer cylinder 11, but the fixing plate 31 having a sludge discharge groove on the inside,

Opening and closing plate 32 for opening and closing the sludge discharge groove,

Coil spring (33) for pressing the opening and closing plate 32, the support member 34 formed in the rear of the opening and closing plate 32, the screw and the screw coupled to the support 34 but the coil spring 33 The support cap 35 to support, the sludge discharge port 36 and the intermediate valve 37 through which the palm sludge is discharged.

Conventional dehydrators have a high moisture content and a limit to dewatering the juice of a fine fiber, and the configuration of the main body is complicated, the efficiency of the heater is inferior.

However, the present invention is simple in configuration, and can be quickly dehydrated in a short time due to the constituent characteristics of the dehydration and drying means, and in particular, the water content of the sludge can be significantly lowered, so that the used farm sludge can be used as feed or compost. It has a useful effect.

1 is a schematic internal cross-sectional view of the present invention.
2 is a partially enlarged view of the present invention.
3 is a partially enlarged view of the present invention.
4 is a partially enlarged view of another embodiment of the present invention.

A cylindrical outer cylinder 11 having a water outlet 16 formed at a lower end thereof;

A water filtration network 12 installed inside the outer cylinder;

A screw 13 installed inside the moisture filtration network 12 and configured to gradually increase an outer diameter toward the sludge conveying direction, and having a crimping and conveying function;

A motor (14) and a speed reducer (15) for rotating the screw (13);

Sludge discharge means 30 formed on the outer cylinder (11) top;

Support 40 for supporting the outer cylinder 11 inclined; In the conventional farm process wastewater treatment apparatus consisting of,

A steam outlet 17 is formed at an upper end of the outer cylinder 11, and a heater 19 is formed on the outer circumferential surface of the water filtration network 12 near the steam outlet 17 and the palm sludge outlet 36 formed at the upper end of the outer cylinder 11. Was formed.

In the above, the sludge discharge means 30 is fixed to the upper end of the outer cylinder 11, but the fixing plate 31 having a sludge discharge groove on the inside,

Opening and closing plate 32 for opening and closing the sludge discharge groove,

Coil spring (33) for pressing the opening and closing plate 32, the support member 34 formed in the rear of the opening and closing plate 32, the screw and the screw coupled to the support 34 but the coil spring 33 It consists of a support cap 35 to support, and a sludge discharge port 36 through which the farm sludge is discharged.

Referring to the present invention having such a configuration in more detail as follows.

At the lower end of the water filtration network 12 equipped with a screw 13 inside, an inlet 18 for injecting process wastewater after palm oil extraction is formed, and a water outlet 16 is formed opposite the process wastewater inlet 18. It is.

Therefore, the palm process wastewater injected into the process wastewater inlet 18 is transferred by the screw 13 driven by the motor 14 and the reducer 15 to the upper side of the outer cylinder 11, and is transported. The water is discharged by the intermediate valve 37, and the water is discharged to the outside by the water outlet 16 formed at the lower end of the outer cylinder 11 through the water filtration network 12.

In the above, since the outer cylinder 11 is inclined by the support 40, the dehydrated water quickly flows down the inclination of the outer cylinder 11, thereby shortening the dehydration rate and the dehydration time.

In the above, the inclination angle of the inclination was conventionally about 25 to 35 °, but in the present invention by configuring to be more inclined to about 35 to 45 °, it was made to discharge the water more quickly.

On the other hand, the screw shaft 13-1 for driving the screw 13 is configured so that the outer diameter gradually increases toward the sludge moving direction, the water filtration network 12 and the screw shaft toward the upper end of the outer cylinder (11) The space between (13-1) becomes gradually narrower.

Therefore, the pressure applied to the palm fruit gradually increases toward the upper end of the water filtration network 12, so that the dewatering efficiency can be greatly increased, and the primary valve is dewatered from the intermediate valve 37.

And the sludge passed through the intermediate valve 37 is dewatered by the secondary screw shaft 13-2 and the secondary water filtration network 12-1 to further lower the water content. (2-stage compression screw dewatering method)

On the other hand, by inserting the wear-resistant packing member 21, such as synthetic rubber at the end of the outer peripheral surface of the screw 13, so that the screw 13 does not directly contact the water filtration network 12 is worn or damaged To prevent it.

In addition, the degree of close contact with the inner surface of the water filtration network 12 is also increased to increase the pressure due to dehydration, and also prevent backflow of the sludge, thereby increasing the dewatering efficiency and the sludge conveying speed.

On the other hand, a plurality of support members 20 are attached to the outer circumferential surface of the water filtration network 12 to prevent the water filtration network 12 from bursting, and the support member 20 has a pressure filtration network 12 in which pressure is gradually increased. Towards the upper end of the number was increased.

On the other hand, the upper end of the water filtering network 12 to form a heater 19 and the steam outlet 17 and the sludge automatic discharge member 30, which can be said to be the main portion of the present invention.

The heater is also attached to the prior application patent No. 10-2009-0074170 (Palm Sludge Treatment Apparatus), which is the background art of the present invention.

However, in the case of the pre-patent patent, by adopting a structure in which the inside of the screw shaft is formed as a space portion and then attaching the heater to the space portion, the configuration is complicated and the efficiency of the heater is slightly reduced.

However, since the heater 19 is mounted on the outer circumferential surface of the water filtration network 12 from which water is directly discharged, the drying effect can be increased, and the heater 19 can be easily mounted.

In particular, the steam outlet 17 is formed on one side of the upper end of the outer cylinder 11, so that the sludge can be dried more easily.

In other words, by rapidly discharging the steam generated while the sludge is dried by the heater 19, the drying efficiency of the sludge is increased.

On the other hand, the water is dewatered and dried sludge is conveyed to the uppermost top of the outer cylinder 11 by the conveying pressure of the screw 13, the conveyed sludge is discharged to the sludge discharge port 36 by the discharge means (30) It is discharged through.

In the above, the sludge discharge means 30 for automatically discharging the sludge is fixed to the upper end of the outer cylinder 11, the fixing plate 31 having a sludge discharge groove on the inside, and the opening and closing plate for opening and closing the sludge discharge groove. (32), the coil spring (33) for pressing the opening and closing plate 32, the support member 34 formed in the rear of the opening and closing plate 32, and the screw and the screw coupling with the support 34 but the coil A support cap 35 supporting the spring 33 and a sludge discharge port 36 through which palm sludge is discharged,

When the pressure of the conveyed sludge increases, the sludge pushes the opening and closing plate 32 blocking the inlet of the outlet by the force of the coil spring 33, and when the opening and closing plate 32 is pushed, a passage to the outlet is created. As the sludge exits through the passage, the sludge is discharged through the sludge discharge port 36.

That is, when the pressure of the sludge is less than the elastic force of the coil spring 33 that blocks the opening and closing plate 32, the opening and closing plate 32 is not pushed, but when the pressure of the sludge is greater than the elastic force of the coil spring 33, the coil As the spring 33 is retracted, the opening and closing plate 32 is pushed to the rear to open the passage toward the sludge discharge port 36.

On the other hand, since the strength of the elastic force of the coil spring 33 supporting the sludge opening and closing plate 32 depends on the opening and closing of the sludge opening and closing plate 32, the sludge discharge rate, discharge rate as well as moisture dehydration rate and dehydration The speed is controlled.

That is, when the elastic force of the coil spring 33 is weak, the opening and closing plate 32 is opened quickly, so that the dewatering time and the discharge speed of the sludge are faster, and the opening and closing plate 32 is opened late when the coil spring is strong, the sludge Dehydration time and discharge rate will be slowed down.

The elastic force intensity control of the coil spring is possible by adjusting the distance interval between the support 34 surrounding the coil spring 33 and the support cap 35 supporting the coil spring 33 from the back, the support ( 34) and the support cap 35, which is connected by the screw 38 method, is moved backward to fix the coil spring's elasticity, and when the support cap 35 is pulled forward and fixed, the coil spring's elasticity is strong. You lose.

In the above description, reference numeral 60, 61 is a packing, 70 is a bearing protection cap, 71 is a bearing.

On the other hand, as another embodiment of the present invention, as shown in Figure 4, to form the air intake port 51 with the blowing fan 50 is attached to the lower end of the sludge discharge port 36, the upper end of the sludge discharge port 36 The air outlet 55 is formed, but the vibration filtration plate 52 is formed inside the sludge outlet 36 to further increase the drying effect of the sludge.

The vibration filtering plate 52 is operated by the motor 53, vibrates by the vibration of the cam 54 attached eccentrically to one side of the motor 53, the sludge vibration falling on the vibration filtering plate 52 While being passed through the mesh filter vibration filter plate 52 is discharged downward.

That is, when the air sucked through the air suction port 51 by the operation of the blowing fan 50 passes through the vibration filtering plate 52 from the lower part to the upper part and escapes to the air discharge port 55, Since the sludge is dried again while vibrating, it is possible to further increase the drying effect of the sludge.

On the other hand, since the discharged sludge is well dried, it is easy to pack or transport and has the advantage of being stored for a considerable time.

As described above, in the present invention, the palm oil process wastewater is dehydrated with a crimping screw and dried with a heater. The palm oil process wastewater, which has been conventionally disposed, can be used as feed or compost, and the effect is considerable.

11: outer cylinder 12: water filtration network 13: screw 13-1: screw shaft
14 motor 15 reducer 16 water outlet 17 steam outlet
18. Inlet 19: Heater 20: Supporting member 21: Packing member
30: sludge discharge means 31: fixed plate 32: opening and closing plate
33: coil spring 34: support 35: support cap 36: sludge discharge port
37: intermediate valve 40: support 50: blowing fan 51: air intake
52 Vibration filter plate 53 Motor 54 Cam 55 Air outlet
60, 61 packing 70 bearing protection cap 71 bearing

Claims (3)

A cylindrical outer cylinder 11 having a water outlet 16 formed at a lower end thereof;
A water filtration network 12 installed inside the outer cylinder;
A screw 13 installed inside the moisture filtration network 12 and configured to gradually increase an outer diameter toward the sludge conveying direction, and having a crimping and conveying function;
An intermediate valve 37 for dewatering the primary sludge;
Secondary screw shaft 13-2;
Secondary water filtration network 12-1;
A motor (14) and a speed reducer (15) for rotating the screw (13);
Sludge discharge means 30 formed on the outer cylinder (11) top;
Support 40 for supporting the outer cylinder 11 inclined; Has,
A steam outlet 17 is formed at an upper end of the outer cylinder 11, and a heater 19 is formed on the outer circumferential surface of the water filtration net 12 near the steam outlet 17 and the palm sludge outlet 36 formed at the upper end of the outer cylinder 11. In the conventional farm process wastewater treatment apparatus to form a,
The sludge automatic discharge means 30 is
A fixing plate 31 fixed to an upper end of the outer cylinder 11 and having a sludge discharge groove therein;
Opening and closing plate 32 for opening and closing the sludge discharge groove,
Coil spring (33) for pressing the opening and closing plate 32, the support member 34 formed in the rear of the opening and closing plate 32, the screw and the screw coupled to the support 34 but the coil spring 33 Supporting cap 35 to support, and farm sludge wastewater treatment device, characterized in that made of a sludge discharge port 36 discharged from the farm sludge. According to claim 1, wherein the air inlet port 51 with the blowing fan 50 is attached to the lower end of the sludge outlet 36, and to form an air outlet 55 on the upper end of the sludge outlet 36, Farm sludge wastewater wastewater treatment apparatus, characterized in that the sludge discharge port 36 to form a vibration filtration plate (52) vibrated by the vibration of the cam (54) attached eccentrically to one side of the motor (53). delete

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