KR20080078432A - Condensation apparatus of dry unit for organic wastes disposal equipment and condensation method the same - Google Patents

Abstract

An apparatus and a method of condensing a drying unit for an organic waste disposal plant are provided to maintain and manage the apparatus simply and protect the environment by utilizing water as a condensing heat medium, obtain practicality in economical and installation aspects by reducing the number of parts compared to an ordinary refrigeration cycle, and improve a drying effect by removing water through the condensation of steam. In an organic waste disposal plant comprising an ultrasonic wave-generating unit, a dewatering unit, a heavy metal removing unit, and a drying unit, an apparatus of condensing the drying unit for the organic waste disposal plant comprises: a closed circuit type steam pipe(110) which is connected to an outer portion of a drying tank(3) of the drying unit, and through which steam generated in the drying tank is circulated by a circulation fan(500); a cooling water pipe(120) which has a coil part(121) contacting with an outer face of a "U" turn part(111) of the steam pipe, and through which cooling water is circulated by a circulation pump(600); a condenser(100) including a condenser case in which the "U" turn part and the coil part are embedded; a water tank(200) which is connected to one end of the cooling water pipe to supply water to the cooling water pipe, and which is connected to the other end of the cooling water pipe to recover cooling water via the cooling water pipe; a radiator(300) connected to the cooling water pipe between the condenser and the water tank to cool water flowing from the water tank to the condenser; and a condensate drainpipe(400) which is connected to the "U" turn part and discharges condensate in the "U" turn part to the outside.

Description

Condensation apparatus of dry unit for organic wastes disposal equipment and condensation method the same}

1 is a block diagram of a conventional drying unit

Figure 2 is a block diagram of a condenser associated with a conventional drying unit

3 is a configuration diagram of an example of an organic waste treatment facility

4 is a block diagram of a condenser according to the present invention

<Explanation of symbols for the main parts of the drawings>

100: condenser 200: water tank

300: radiator 400: cooling water drain pipe

500: circulation fan 600: circulation pump

The present invention is a drying unit of an organic waste treatment facility, the drying unit for the organic waste treatment facility to remove the odor contained in the water vapor by condensing the moisture of the steam generated in the drying unit by the cooling water to the outside Condensation apparatus and condensation method.

The organic waste treatment facility proposed in Korean Patent Application No. 2005-102394 is irradiated with ultrasonic waves to the sludge collected from the waste water, destroys the flocs, dehydrates the water contained in the sludge, and incorporates microorganisms into the sludge. By neutralizing the heavy metals contained in the sludge, drying and fermenting the sludge, the sludge is ultimately changed to be used as compost or vegetation soil.

At this time, the drying unit (1) for drying and fermenting the sludge, the drying tank 3, the sludge is accommodated as shown in Figure 1, the stirring is installed inside the drying tank (3) to stir the sludge A screw 5, a heating jacket 7 installed at the lower part of the drying tank 3 to heat the drying tank through the heat medium, and an outlet 3b located above the drying tank 3; It consists of a refrigerant type heat exchanger (9) and the like to heat exchange the heat discharged from the low temperature.

However, since the refrigerant unit heat exchanger 9 for cooling the heat discharged into the drying tank 3 is used as the drying unit 1, the compressor 9a and the expansion valve required for the refrigerant cycle are used. Since the structure of the cooling device is very complicated because it must be provided with (9b), it is difficult to maintain because it needs to be regularly filled with refrigerant gas.

In addition, since the refrigerant gas (typically freon gas) is not an environmentally friendly material, its use is gradually limited, and it is at a time when an alternative material thereof is needed.

Therefore, the present invention has been made to solve the above problems, the main object of the present invention is to condense the moisture contained in the steam generated in the drying unit to discharge to the outside, the maintenance by utilizing water as the condensed fruit It is to provide a condensation apparatus of a drying unit for an organic waste treatment facility that can be simple and environmental protection.

In addition, another object of the present invention to provide a condensation method using the device.

The present invention for achieving the above object,

① As in claim 1 of the present invention, the ultrasonic generating unit for destroying the flocs by irradiating the collected sludge with ultrasonic waves; A dehydration unit for dewatering water contained in the sludge transferred from the ultrasonic wave generating unit; A heavy metal removal unit for neutralizing heavy metals by incorporating microorganisms into sludge conveyed from the dehydration unit; An organic waste treatment facility comprising: a drying unit for drying and fermenting sludge conveyed from the heavy metal removal unit;

A steam pipe having a closed circuit in which water vapor generated inside the drying tank is circulated by a circulation fan while being connected to the outside of the drying tank constituting the drying unit; A cooling water pipe having a coil part in contact with an outer surface of a U-turn part (U-turn part) of the steam pipe, wherein the cooling water is circulated by a circulation pump; A condenser composed of a condenser case in which the u-turn part and the coil part are embedded; A water tank connected to one end of the cooling water pipe to supply water to the cooling water pipe, and connected to the other end of the cooling water pipe to recover water passing through the cooling water pipe again; A radiator cooling the water flowing from the water tank to the condenser while being connected to the cooling water pipe between the condenser and the water tank; Condensate drain pipe for discharging the condensed water in the U-turn unit to the outside while being connected to the U-turn unit; high temperature steam condensation apparatus of the drying unit for organic waste treatment equipment.

② As in claim 2 of the present invention, the high temperature steam condensing apparatus of the drying unit for an organic waste treatment facility, further comprising a cooling fan for cooling the radiator by blowing toward the radiator.

③ As in claim 3 of the present invention, it is a high temperature steam condensation method of a drying unit for an organic waste treatment facility using the condenser.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is characterized in that the condensed water vapor generated in the drying unit of the organic waste treatment facility is discharged to the outside, the cooling water cooled by a radiator as the condensed fruit.

The organic waste treatment facility includes an ultrasonic wave generating unit (10) for destroying the floc by irradiating the collected ultrasonic waves as shown in FIG. A dehydration unit 20 for dewatering water contained in the sludge transferred from the ultrasonic wave generating unit; A heavy metal removal unit (30) for neutralizing heavy metals by incorporating microorganisms into the sludge conveyed from the dehydration unit; It consists of a drying unit (1) for drying, fermenting the sludge conveyed from the heavy metal removal unit to compost. However, the organic waste treatment facility described above is merely described as an example, and may be configured with components added or subtracted.

From this, the condensation apparatus and the condensation method using the same for condensing the water vapor of the drying unit (1) which is the characteristic gist of the present invention will be described as follows.

As shown in FIG. 4, the condenser 100 is composed of a condenser 100, a water tank 200, a radiator 300, a condensate drain pipe 400, a circulation fan 500, and a circulation pump 600.

The condenser 100 is provided with a steam pipe 110 in the form of a closed loop connected to the outlet 3b and the inlet 3a of the drying tank 3. The steam pipe 100 serves as a circulation passage through which water vapor discharged to the outlet 3b of the drying tank 3 flows through the inlet 3a of the drying tank 3. At this time, the steam pipe 100 is provided with a U-turn portion (U-turn portion) 111 to switch the course of the steam, the circulation fan 500 is installed on the steam pipe 100 is the steam in the steam pipe Force forced circulation.

In addition, the condenser 100 is provided with a cooling water pipe 120 to heat the water vapor passing through the U-turn unit 111 at a low temperature to generate condensed water. The cooling water pipe 120 serves as a circulation passage allowing the water discharged from the water tank 200 to flow back into the water tank 200. At this time, the cooling water pipe 120 is provided with a coil portion 121 wound in a coil shape on the outer surface of the U-turn portion 111 to improve heat exchange efficiency, the circulation pump (on the cooling water pipe 120) 600 is connected to supply the water in the water tank 200 to the cooling water pipe 120, and conversely enables the water circulation to allow the water in the cooling water pipe 120 to be recovered to the water tank 200.

The radiator 300 serves to cool the water flowing from the water tank 200 to the condenser 100 while being connected to the cooling water pipe 120 between the condenser 100 and the water tank 200. The radiator 300 is provided with a cooling fan 310 for blowing wind toward the radiator serves to lower the temperature of the water passing through the radiator 300. At this time, the radiator 300 may be applied to any structure as long as the radiator 300 has a structure capable of increasing heat exchange efficiency.

The condensate drain pipe 400 is connected to the U-turn unit 111 serves to discharge the condensed water collected in the U-turn unit to the outside. Since the high temperature water vapor flows through the U-turn part 111 and the coil part 121 through which the cooling water flows is wound on the surface of the U-turn part 111, the water vapor is converted into condensed water by the cooling water. This condensate is drained to the outside through the condensate drain pipe 400 it is possible to reduce the occurrence of odor in the drying tank (3).

Reference numeral 130 is an external air injection device for supplying external air to the interior of the drying tank (3).

Hereinafter, a condensation method using the condensation apparatus will be described.

By operating the circulation fan 500 connected on the steam pipe 110, the water vapor in the drying tank (3) flows into the steam pipe 110, and then goes through the circulation process again supplied to the drying tank, at the same time, the cooling water pipe By operating the circulation pump 500 connected on the 120 to the water in the water tank 200 flows into the cooling water pipe 120 and then go through the circulation process is supplied to the water tank 200 again.

At this time, since the U-turn part 111 of the steam pipe 110 and the coil part 121 of the cooling water pipe 120 are in contact with each other to form a condenser 100, the condenser 100 has high temperature steam and low temperature. Condensation occurs as the water is exchanged. Furthermore, the radiator 300 is connected to the cooling water pipe 120 to lower the temperature of the water circulating in the cooling water pipe, thereby increasing the condensation effect.

The condensed water is condensed as a result of steam condensation in the U-turn part 111 where condensation occurs, and the condensed water is discharged to the outside through the condensate drain pipe 400, thereby greatly reducing the odor resulting from the drying tank 3. Will be.

In addition, the condenser 100 has the advantage of easy maintenance by utilizing water as the fruit and the number of times less replenishment when eco-friendly material during condensation.

As described above, the present invention has the advantage of easy maintenance and environmental protection by utilizing water as the condensed fruit, and can reduce the number of parts compared to the general refrigeration cycle, which is practical in terms of economic efficiency or installation. to be.

In addition, the drying effect can be improved by condensing water vapor to remove water.

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Claims (3)

An ultrasonic wave generating unit for destroying the flocs by irradiating the collected sludge with ultrasonic waves; A dehydration unit for dewatering water contained in the sludge transferred from the ultrasonic wave generating unit; A heavy metal removal unit for neutralizing heavy metals by incorporating microorganisms into sludge conveyed from the dehydration unit; An organic waste treatment facility comprising: a drying unit for drying and fermenting sludge conveyed from the heavy metal removal unit; A steam pipe having a closed circuit in which water vapor generated inside the drying tank is circulated by a circulation fan while being connected to the outside of the drying tank constituting the drying unit; A cooling water pipe having a coil part in contact with an outer surface of a U-turn part (U-turn part) of the steam pipe, wherein the cooling water is circulated by a circulation pump; A condenser composed of a condenser case in which the u-turn part and the coil part are embedded; A water tank connected to one end of the cooling water pipe to supply water to the cooling water pipe, and connected to the other end of the cooling water pipe to recover water passing through the cooling water pipe again; A radiator cooling the water flowing from the water tank to the condenser while being connected to the cooling water pipe between the condenser and the water tank; Condensate drain pipe for discharging the condensed water in the U-turn portion to the outside while being connected to the U-turn portion; high temperature steam condensing apparatus of the drying unit for organic waste treatment equipment. The method of claim 1, The high temperature steam condensing apparatus of the drying unit for an organic waste treatment facility, further comprising a cooling fan cooling the radiator by blowing toward the radiator. A high temperature steam condensation method of a drying unit for an organic waste treatment facility using the condenser of claim 1.

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