KR100836664B1 - Microwave sludge drier and dry method using waste heat of the hot blast - Google Patents

Abstract

An apparatus and a method for drying micro-wave sludge by using waste heat of a ventilator are provided to supply vapor to an aeration tank to increase DO(Dissolved Oxygen) so that a microscopic organism is created and water quality is improved. An apparatus for drying micro-wave sludge includes a ventilator(10), an aeration tank(60), a second switching valve(56), and a controller(90). The ventilator is coupled to a drier(30) through a heat wind introducing pipe(15) such that a high-temperature and high-pressure air is introduced into the drier. The aeration tank is installed in the heat wind introducing pipe to transmit air from the drier to the ventilator. The controller controls the ventilator and the drier.

Description

Microwave sludge drying device using waste heat of blower as hot air and drying method using same {MICROWAVE SLUDGE DRIER AND DRY METHOD USING WASTE HEAT OF THE HOT BLAST}

The present invention can dry up sludge quickly as well as save energy by reusing and drying the high-temperature discharged air generated from the existing aeration tank air supply blower using the sludge of waste water in the microwave and sewage treatment plants. It is to increase the amount of dissolved oxygen supplied to the process to improve the treatment efficiency and to prevent environmental pollution.

In general, the sludge generated in the process of treating food waste or waste water contains a large amount of water, and dewatering the sludge using a dehydrator such as a belt press, a centrifugal dehydrator, or a stirring wing press, and dewatering the sludge. The remaining sludge is landfilled or dumped at sea.

Here, most of the dehydrator uses a belt press, the dehydration efficiency is significantly reduced as the belt press or the follicle is blocked in the dehydrator during the dehydration operation by the dehydrator, the weight of the sludge increases as the water content contained in the sludge increases. In addition, when the landfill is landfilled, a large amount of secondary leachate is generated, thereby increasing the treatment cost of the leachate and contributing to the problem of odor generation and environmental pollution.

As a result, the government has tightened regulations to prevent the sludge cake from entering the landfill when the water content of the sludge cake is more than 75%. Accordingly, a method of treating sludge with high water content is developed to treat sludge.

As a method for treating sludge, various methods such as ocean dumping, landfilling, fueling, solidification, incineration, and pyrolysis have been proposed. However, although the methods are different, the reduction of water content and the prevention of environmental pollution are common. It has a common purpose.

However, the techniques for achieving the above-mentioned common objectives have a considerable problem to date, and most of them rely on the simple incineration method. However, due to the opposition and high water content (70 ~ 85%) caused by local residents to incineration construction, Problems such as cost is being caused.

In order to solve the above problems, in recent years, the incineration method is removed to quickly dry the moisture contained in the sludge generated during wastewater treatment by direct / indirect hot air by heating of the boiler to reduce the function to reduce the sludge. To reduce the cost of sludge treatment.

However, the method of heating with a boiler and drying with hot air is a simple method. Only 35% of the input energy of the heating object is actually used, 45% of the input is a loss due to heating and heat conduction, and 20% is released during heating and drying. A total of 65% of the loss occurred, and only 35% of the heat energy used for the actual sludge was used, which was very inefficient.

The present invention has been made to solve the above problems, and an object of the present invention is to dry the sludge by the method of reusing the unnecessary high temperature discharge air of the blower used in the wastewater treatment plant as the hot air of the microwave dryer. In addition to providing energy saving effect, the microwave sludge drying time is further shortened by using microwave, and the microwave sludge drying device using the waste heat of the blower as the hot air to dry the sludge effectively, and a drying method using the same have.

In other words, there is no need to install a separate heat source by reusing the hot air discharged from the existing aeration tank air supply blower used in all wastewater treatment plants. Is not a problem for the existing blower condition because it is put into the aeration tank again, the temperature of the blower passing through the microwave drying device has a lower temperature than when the microwave drying device acts as a kind of heat exchanger, Since it is supplied to the aeration tank with evaporated water vapor, the amount of dissolved oxygen increases to make the microorganism more effective in improving the quality of water and improving the water quality. To solve environmental factors Microwave sludge with waste heat of morals in a hot air drying apparatus, and to provide a drying method using the same.

The present invention for achieving the above object, in the sludge drying apparatus for drying the sludge containing moisture generated in the process of treating contaminants such as household sewage, manure, livestock wastewater, factory wastewater, food waste, etc. The blower 10 is connected to the dryer 30 and the hot air inlet pipe 15 to inject high temperature and high pressure air into the dryer 30, and is connected to the dryer 30 and the hot air discharge pipe 37. A second direction change which is installed in the aeration tank 60 into which the air drawn out from the dryer 30 is input and the hot air discharge pipe 37 and sends the air drawn out from the dryer 30 to the blower 10 The valve 56, and the control unit 90 for controlling the blower 10 and the dryer 30 is characterized in that it is configured.

Here, the dryer 30 is preferably provided with a microwave generator 35 for removing the water contained in the sludge, and further comprises a centrifuge 40 for separating the sludge from which the water is removed.

On the other hand, in the drying method using a sludge drying apparatus for drying the sludge containing water generated in the process of treating contaminants such as household sewage, manure, livestock wastewater, factory wastewater, food waste, etc. Water content reduction step of firstly lowering the sludge moisture content by injecting into the sludge injector 20, the waste heat of the blower 10 is introduced into the dryer 30 is installed with a microwave generator 35 is withdrawn from the sludge injector 20 A spraying step of injecting the waste heat into the sludge, a drying step of drying the sludge conveyed by the conveyor to the microwave generator 35 installed in the dryer 30, and separating the sludge passed through the step into the centrifuge 40. The separation step and the second directional valve 56 is closed so that the air from the centrifuge 40 does not flow into the aeration tank 60 without the chamber 8 It characterized in that it is composed of an inlet step to be introduced into the blower 10 through 0).

Here, the temperature sensor unit 33 detects the waste heat temperature of the blower 10 flowing into the dryer 30, and further includes a blocking step of automatically shutting off when the temperature exceeds a predetermined temperature, and installed in the dryer 30. The drying auxiliary step of drying the sludge conveyed by the conveyor to the heater 36 is further included, and the air flowing out of the centrifuge 40 by opening the second diverter valve 56 to the aeration tank 60. It is preferable that the aeration tank inlet step to be introduced is further included.

As described above, according to the present invention, since the sludge is dried by a method of reusing unnecessary high temperature discharged air of the blower used in the sewage treatment plant with the hot air of the microwave dryer, it is of course possible to obtain an energy saving effect due to the sludge drying. Microwave is used to further shorten the sludge drying time, it is effective to dry the sludge effectively.

Hereinafter, with reference to the accompanying drawings will be described in detail a microwave sludge drying apparatus using the waste heat of the blower of the present invention as hot air.

1 is a schematic view showing a microwave sludge drying apparatus using waste heat of a blower according to the present invention as hot air.

As shown in FIG. 1, the microwave sludge drying apparatus using hot air as waste heat of a blower according to the present invention includes a dryer 30 for drying sludge containing moisture, and high temperature and high pressure air in the dryer 30. A blower 10 for introducing the gas, an aeration tank 60 into which air drawn out from the dryer 30 is introduced, and a second directional valve for sending air drawn out from the dryer 30 to the blower 10; And a control unit 90 for controlling the blower 10 and the dryer 30.

In the dryer 30, a conveyor belt 39 is installed to move the sludge having a low moisture content through the sludge injector 20, and a microwave generator 35 for removing water contained in the sludge is provided. It is installed, the centrifuge 40 for separating the sludge from which water is removed is included.

The blower 10 connected to the dryer 30 and the hot air input pipe 15 compresses air to inject air of a high temperature / high pressure state into the dryer 30.

Here, the hot air inlet pipe 15 is provided with an inlet shutoff valve 50 for blocking the waste heat of the blower 10 to be introduced into the aeration tank 60 when the dryer 30 is not used. have.

 The waste heat introduced into the dryer 30 sprays the sludge introduced from the sludge injector 20 and increases the temperature in the dryer 30.

Thereafter, the microwave generator 35 installed in the dryer 30 irradiates the sludge with microwaves. At this time, since the temperature in the dryer 30 is increased by waste heat, the sludge is dried faster.

The dried sludge falls into the collector 70, of which fine sludge is sent to the collector 70 by the centrifuge 40.

The air used in the dryer (30) is moved to the hot air discharge pipe (37), and at this time, the hot air discharge pipe (37) is made to re-introduce the air used in the dryer 30 back to the blower (10) It is preferable that the two-way switching valve 56 is formed.

By thus reusing the waste heat of the blower 10 there is an advantage to consume less than the energy consumed to raise the constant temperature by operating the initial blower (10).

On the other hand, when the dryer 30 is not used, the waste heat is blocked by the inlet shutoff valve 50 installed in the hot air inlet pipe 15 to send the waste heat of the blower 30 to the aeration tank 60. In addition to the inflow to the (65), by blocking the second direction switching valve 56 installed in the hot air discharge pipe 37 to prevent the waste heat flowing back into the dryer (30) to be introduced into the aeration tank (60) do.

Here, the control unit 90 for controlling the operation of the dryer 30 and the blower 10 is preferably provided.

In this way, while utilizing the waste heat of the blower 10 in the sludge drying and circulating the waste heat continuously to reduce energy consumption, when the dryer 30 is not used, the waste heat is introduced into the aeration tank 60 Can be used.

Figure 2 is a block diagram showing a drying method using a microwave sludge drying apparatus using the waste heat of the blower according to the present invention as hot air.

As shown in FIG. 2, the drying method using the microwave sludge drying apparatus using the waste heat of the blower according to the present invention comprises the steps of lowering the sludge moisture content, and spraying the waste heat of the blower into the sludge with hot air; It comprises a drying step of drying the sludge with a microwave generator, a separation step of separating the sludge into a centrifuge, and an inflow step of introducing air from the centrifuge into the centrifuge.

The sludge containing water generated during the treatment of the wastewater is introduced into the screw type sludge injector 20 to primarily lower the water content of the sludge.

That is, the sludge containing water is introduced into the sludge injector 20 so that the sludge is squeezed out by a screw method so that the water flows out.

Thus, the sludge having a low moisture content is introduced into the dryer 30 and is transported by the conveyor apparatus.

At this time, by operating the blower 10 to obtain the air amount and pressure by applying energy to the air by the rotary motion of the impeller, the waste heat generated by the blower 10 of the dryer 30 is installed The sludge is dried by injecting the waste heat of the blower 10 into hot air into the sludge which is introduced through the inlet pipe 31 and drawn out from the sludge injector 20.

Here, the blower 10 preferably uses a blower having a pressure ratio between the suction port and the discharge port of 1.1 or more and less than 2.0.

Thereafter, the sludge conveyed by the conveyor is irradiated with microwaves to remove moisture contained in the sludge.

At this time, it is preferable to install a heat generator 36 for generating heat in the dryer 30 to more easily remove the moisture contained in the sludge.

The sludge passed through the above step is dropped into the collector 70, among which fine sludge is sent to the collector 70 by the centrifuge 40, and the air is discharged from the hot air discharge pipe 37 connected to the aeration tank 60. Flows on the ride.

At this time, in order to reuse the air flowing out of the centrifuge 40, the second direction switching valve 56 is closed so that the air passes through the chamber 80 to be re-introduced into the blower 10.

As the air passed through the above steps is re-introduced into the blower 10, less energy is consumed than to raise the proper temperature of the first air, resulting in energy saving effect.

In this case, the continuous air is used, and the temperature of the air flowing into the dryer 30 may be excessively high, which may cause a failure of the microwave generator 35. When the temperature sensor 33 detects the waste heat temperature of the blower 10 flowing into the dryer 30 and the temperature sensor unit 33 reaches a predetermined temperature or more, the inlet valve 50 is shut off, and the second direction switching valve 56 is closed. At the same time, it is preferable to allow the waste heat to flow directly into the aeration tank.

In addition, when the air flowing out from the centrifuge 40 is not reused, the second direction switching valve 56 is opened so that the air flows directly into the aeration tank 60 so that no odor is generated.

Although the present invention has been described in detail with respect to specific embodiments, various modifications will be possible to those skilled in the art without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined not only by the patent registration scope described later but by those equivalent to the claims.

1 is a schematic view showing a microwave sludge drying apparatus using waste heat of a blower according to the present invention as hot air,

Figure 2 is a block diagram showing a drying method using a microwave sludge drying apparatus using the waste heat of the blower according to the present invention as hot air.

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

10: blower 15: hot air injection piping

20: sludge injector 30: dryer

31: inlet pipe 33: temperature sensor

35: microwave generator 36: heat generator

37: hot air discharge pipe 39: conveyor belt

40: centrifuge 50: inlet shutoff valve

56: second direction switching valve 60: aeration tank

65: aeration joining piping 70: collector

80: chamber 90: control unit

Claims (6)

In the sludge drying apparatus for drying the sludge containing moisture generated in the process of treating contaminants such as household sewage, manure, livestock wastewater, factory wastewater, food waste, etc. A blower (10) connected to the dryer (30) and a hot air input pipe (15) to inject high temperature and high pressure air into the dryer (30); An aeration tank 60 connected to the dryer 30 and the hot air discharge pipe 37 and into which air drawn out from the dryer 30 is introduced; A second direction switching valve 56 installed in the hot air discharge pipe 37 and sending air drawn out from the dryer 30 to the blower 10; Microwave sludge drying apparatus using the waste heat of the blower as a hot air, characterized in that the control unit 90 for controlling the blower (10) and the dryer (30). The method of claim 1, The dryer 30 is provided with a microwave generator 35 for removing the water contained in the sludge, waste heat of the blower characterized in that it further comprises a centrifuge 40 for separating the sludge from which the water is removed Microwave sludge drying device using hot air. In the sludge drying method for drying the sludge containing moisture generated in the process of treating contaminants such as domestic sewage, manure, livestock wastewater and factory wastewater, A water content reduction step of introducing the sludge into the screw type sludge injector 20 to lower the sludge moisture content first, and then introducing the sludge into the dryer 30; A waste heat input step of inputting waste heat of the blower 10 to the dryer 30 in which the microwave generator 35 is installed to increase the temperature in the dryer 30; A sludge collecting step of separating the sludge dried by the above step through the centrifuge 40 installed in the dryer 30 and sending the sludge to the collector 70; Microwave sludge drying using the waste heat of the blower as hot air, characterized in that the closing step of closing the second direction switching valve 56 so that the air flowing out from the dryer 30 is re-introduced into the blower (10). Drying method using a device. The method of claim 3, wherein The waste heat of the blower 10 is introduced into the dryer 30 by the temperature sensor unit 33 detects the waste heat temperature of the blower waste heat, characterized in that it further comprises the step of automatically shutting off the hot air. Drying method using microwave sludge drying device. The method according to claim 3 or 4, Drying auxiliary step for drying the sludge conveyed by the conveyor installed in the dryer 30 to the heat generator 36 further comprises a drying method using a microwave sludge drying apparatus using the waste heat of the blower as hot air. The method of claim 3, wherein Micro-using the waste heat of the blower as a hot air, characterized in that it further comprises an aeration tank inlet step of opening the second direction switching valve 56 to allow the air flowing out of the centrifuge 40 to enter the aeration tank 60. Drying method using wave sludge drying device.

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