KR101607551B1 - Low temperature sludge drying apparatus using ultrahighe speed air current - Google Patents

Abstract

The present invention relates to a low temperature sludge drying apparatus using ultra high speed air current, which comprises: a sludge transfer pump for transferring sludge in a dehydrated cake form to a pallet molding unit; the pallet molding unit which molds the sludge in a cake form into pallets having diameters which can optimize porosity and heat-transferring surface area; a pallet drier which dries sludge in a pallet form supplied from the pallet mold through an ultra high speed air current; and a burner which supplies hot air to the pallet drier. The apparatus of the present invention can rapidly dry sludge, while improving drying efficiency and productivity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sludge cryogenic drying apparatus using a high-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge low-temperature drying apparatus using an ultra-high speed air flow, and more particularly, to an improvement in contact efficiency between an object to be dried and an air flow by using a blower and a pellet transfer band.

Generally, the sludge generated in sewage treatment or water treatment process contains about 50% of organic matter in sewage sludge and the moisture content is as high as 99-99.5% of activated sludge in 96-98% of initial sedimentation sludge Therefore, it is difficult to handle.

The sewage sludge is treated by anaerobic treatment (sludge treatment) to stabilize the sludge, followed by dewatering and burial, or by directly dewatering the sludge and then burning it. In addition, methods such as wet oxidation or heat treatment are also studied .

Water sludge is mainly composed of turbidity and aluminum hydroxide, which may contain 20 to 30% of organic matter depending on the raw water.

As with the sewage sludge, the purified sludge has a moisture content of 98% or more, which makes it difficult to treat and dispose of the sludge, and in particular, it is difficult to dehydrate and concentrate sludge containing flocs of aluminum hydroxide.

Accordingly, the sludge of any quantity or more is subjected to sulfuric acid treatment to recover aluminum hydroxide as aluminum sulfate, thereby improving the dewaterability.

The final treatment of treated sludge is being used as a material for building materials and road construction. However, there is no definite method yet and the landfill is being treated.

The following Patent Document 1 discloses a drying and crushing unit for controlling the sludge on the cake at about 400 to 650 ° C to repeatedly perform drying and crushing operations; A conveying unit for drying and conveying the dried sludge particles at a low temperature; Sludge particles are pulverized by air currents and dried between drying; A centrifugal classifier for separating dust gas discharged from the dry crushing section and drying; A wet cleaner for purifying odor and exhaust gas exhausted by caustic soda; A heat exchanger for cooling the purified exhaust gas to room temperature, and an exhaust gas measuring unit.

The following Patent Document 2 discloses a mixing step of mixing dehydrated sludge having a water content of about 80% with dried sludge to make the water content 30-60%; A panning / forming step of heating and pressing the mixed sludge and then expanding the mixed sludge into the atmosphere, thereby forming a void inside and forming a coarse sludge agglomerate on the surface; And a drying step of heating the pelletized / shaped sludge mass to dry the sludge mass.

In the following Patent Document 3, a sludge injector for processing waste wastewater sludge into a sheet form, reworking it in the shape of a thin long strip, transferring it into a granular state by gravity and transferring it to a mesh belt; And a sludge drier for drying the sludge in the granular state through hot drying hot air while passing through the multi-stage dryer body.

On the other hand, a number of technologies for drying dehydrated cake (sludge) by high temperature steam or hot air at 280 to 650 ° C are in operation in Korea.

Korean Patent Publication No. 10-2001-0037075 (published on May 07, 2001) Korean Patent Laid-Open Publication No. 10-2000-0073103 (published on December 05, 2000) Korean Patent Publication No. 10-2002-0058136 (published on July 12, 2002)

However, since the conventional sludge drying apparatus uses a high-temperature hot air at a temperature of 280 ° C or higher, the amount of fuel consumed increases, and the sludge nucleus (gell) breaks down, resulting in the generation of bad odor and high concentration of leachate.

In addition, the conventional sludge drying apparatus has a disadvantage in that the amount of heat generated by carbonization of organic matter in the sludge is reduced, which makes it difficult to recycle the fuel as a fuel, thereby disposing resources such as being buried in a landfill or used as a cover material.

The sludge drying apparatus according to the prior art is difficult to maintain due to complicated equipment such as a condenser for cooling high-temperature exhaust gas and a cooling device, and the initial investment cost is too high. There are many problems such as accident.

The sludge drying apparatus according to the prior art is an additional process for transporting / mixing the dried material for preventing sludge adhesion and maximizing the porosity on the heat transfer plate of the sludge, consuming a large amount of energy and excessively drying the capacity of the drier, And frequent failures of the mixer for mixing the dried materials cause the maintenance cost to increase, which causes continuous problems such as deterioration of the drying efficiency due to deterioration of the mixing efficiency.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide a sludge low temperature drying apparatus using a high speed air stream, It is in.

Another object of the present invention is to provide a sludge cryogenic drying apparatus using a high-speed air stream which can prevent the carbonization of the dried sludge and reuse the dried sludge as a fuel or the like of a power plant.

Another object of the present invention is to provide a sludge cryogenic drying apparatus using a high-speed air stream which can be easily manufactured with a simple structure and facilitates maintenance.

Another object of the present invention is to provide a sludge cryogenic drying apparatus using an ultrahigh-speed air stream which enables drying of the sludge in the presence of microorganisms, thereby minimizing odor and leachate.

In order to accomplish the above object, the present invention provides a sludge low temperature drying apparatus using a super high speed air stream, comprising: a sludge conveying pump for conveying sludge in the form of cake to a pellet molding machine; A pellet molding machine for molding the cake-like sludge into a pellet having a diameter capable of maximizing a porosity and a heat transfer area; A pellet dryer for drying the pelletized sludge supplied from the pellet molding machine through an ultra-high velocity air stream; And a burner for supplying hot air to the pellet dryer.

The sludge cryogenic drying apparatus using the high-speed air stream according to the present invention is characterized in that the temperature of hot air supplied to the pellet dryer is 90 to 160 ° C.

A sludge low temperature drying apparatus using a high speed air stream according to the present invention is characterized in that the pellet molding machine is connected to a sludge transfer pump; A first branch pipe connected to the supply pipe; A plurality of second branch pipes connected to the first branch pipe; A nozzle tube to which the respective second branch pipes are connected and provided with a plurality of nozzles; A connection pipe connected to each nozzle of the nozzle pipe; And a molding tube in which each connection pipe is connected to an upper end thereof and a plurality of discharge holes are provided in a lower end thereof.

The sludge low temperature drying apparatus using a super high speed air stream according to the present invention is characterized in that the diameter of pellets formed through the pellet molding machine is 8 to 13 mm.

In the sludge low temperature drying apparatus using a super high speed air stream according to the present invention, the pellet dryer includes a casing; A first conveying band installed on an upper portion of the casing; A second conveyance band installed in an inner lower portion of the casing; A pellet disassembler installed at an upper end of the second conveyance band; And a plurality of blowing fans installed at an inner lower end of the casing.

In the sludge low temperature drying apparatus using a super high speed air stream according to the present invention, the first conveyance band and the second conveyance band circulate the sludge through the conveyance roller and the support roller in an endless track manner, The porous band member of the first conveying band is circulated in the clockwise direction and the porous band member of the second conveying band is circulated counterclockwise, and the left and right lengths of the porous band member of the first conveying band are parallel to the left and right of the porous band member of the second conveying band Is shorter than the length.

The sludge cryogenic drying apparatus using a high velocity air stream according to the present invention is characterized in that the porous band member of the first conveyance band and the second conveyance band is a filtration system in which hot air can pass easily.

In the sludge cryogenic drying apparatus using a super high speed air stream according to the present invention, the band member feed motor connected to the feed rollers of the respective conveyance bands is designed as an inverter type so as to be capable of variable operation, and interlocked with the moisture measurement device installed in the casing So that the drying rate can be maintained constant by adjusting the rotation speed.

The sludge cryogenic drying apparatus using the high-speed air stream according to the present invention is characterized in that the speed of the super high-speed air stream generated through the blowing fan is 20 to 50 m / s.

In the sludge low temperature drying apparatus using a super high velocity air stream according to the present invention, the pellet disassembling device is composed of a rotary shaft; And a dismantling brush provided radially on the outer periphery of the rotating shaft, wherein the pellet-shaped sludge dropped from the first conveying band to the second conveying band is crushed.

The sludge cryogenic drying apparatus using a super high speed air stream according to the present invention is characterized by including a heat exchanger for preheating external air supplied to the burner by using waste heat of exhaust gas having a saturated vapor pressure discharged from the pellet dryer.

The sludge cryogenic drying apparatus using a high speed air stream according to the present invention is characterized in that the heat exchanger is installed in an exhaust duct connected to an upper end of a pellet dryer and connected to a preheater installed in an external air inflow duct of the burner.

The sludge cryogenic drying apparatus using a super high speed air stream according to the present invention is characterized in that a part of the exhaust gas discharged from the pellet dryer is pumped between a pneumatic exhaust duct installed at the upper end of the pellet dryer and a hot air supply duct provided at the lower end of the pellet dryer, And a circulating duct for supplying the air to the inside of the duct.

The sludge low temperature drying apparatus using a high speed air stream according to the present invention is characterized in that it comprises a drying sludge conveying conveyor for conveying dried sludge in a pellet dryer to a drying sludge silo.

The sludge low temperature drying apparatus using a high speed air stream according to the present invention is characterized in that the drying sludge conveying conveyor comprises a casing; A transfer screw installed inside the casing; And a water jacket provided on an outer periphery of the casing.

The sludge cryogenic drying apparatus using the ultra-high velocity air stream according to the present invention is characterized in that the amount of exhaust gas exiting the pellet dryer is controlled to be greater than the amount of hot air entering the pellet dryer, so that a negative pressure is applied inside the pellet dryer.

The sludge cryogenic drying apparatus using the high-speed air stream according to the present invention is characterized in that the amount of the supplied hot air and the amount of the exhaust gas are controlled at a ratio of 1: 1.05 to 1: 1.28.

According to the sludge low-temperature drying apparatus using the ultra-high speed air stream according to the present invention, the sludge can be dried quickly by using the porous band member having the hot air flow and the hot air flow structure of the super high speed air stream, do.

In addition, according to the sludge low temperature drying apparatus using the super high speed air stream according to the present invention, by using the low temperature hot air at about 150 캜, the fuel consumption can be reduced and the operation cost and the maintenance cost can be reduced.

Further, according to the sludge low-temperature drying apparatus using the high-speed air stream according to the present invention, carbonization of the dried sludge can be prevented, and the sludge can be dried in the state of remaining organic matter, It becomes possible to recycle the resources, and it becomes possible to reduce odor generation and high concentration leachate.

Further, according to the sludge low-temperature drying apparatus using the high-speed air stream according to the present invention, the initial facility cost can be greatly reduced by a simple structure.

1 is a configuration diagram of a sludge low temperature drying apparatus using a super high speed air stream according to a preferred embodiment of the present invention,
FIG. 2 is a perspective view of a pellet molding machine of a sludge low temperature drying apparatus using a high-speed air flow according to the present invention,
3 is a configuration diagram of a pellet dryer of a sludge low temperature drying apparatus using an ultra high velocity air stream according to the present invention,
FIG. 4 is a perspective view of a second conveyance band of a sludge low temperature drying apparatus using a high-speed airflow according to the present invention,
FIG. 5 is a schematic view of a drying sludge conveying conveyor of a sludge low temperature drying apparatus using a high-speed air stream according to the present invention,
6 is a diagram illustrating an example of sludge drying of a sludge low temperature drying apparatus using a high-speed air stream according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a sludge cryogenic drying apparatus using a high-speed air stream according to the present invention will be described in detail with reference to the accompanying drawings.

In the following, the terms "upward", "downward", "forward" and "rearward" and other directional terms are defined with reference to the states shown in the drawings.

1 is a configuration diagram of a sludge cryogenic drying apparatus using a high-speed air stream according to a preferred embodiment of the present invention.

The sludge low temperature drying apparatus 100 using the super high speed air stream according to the preferred embodiment of the present invention includes a sludge transfer pump 110, a pellet molding machine 120, a pellet dryer 130, a burner 140, a heat exchanger 150, And a drying sludge conveying conveyor 170.

The sludge transfer pump 110 transfers the dewatered cake-like sludge to the pellet molding machine 120.

The pellet molding machine 120 molds the cake-like sludge into a pellet having a diameter capable of maximizing the porosity and the heat transfer area.

When the pellet of a certain diameter is formed through the pellet molding machine 120 as in the case of the sludge low temperature drying apparatus 100 using the high speed air stream according to the preferred embodiment of the present invention, It is not necessary to mix the sludge.

The diameter of the pellet formed through the pellet molding machine 120 is preferably 8 to 13 mm, more preferably 11 mm.

If the diameter of the pellets formed through the pellet molding machine 120 is less than 8 mm, the pellet is likely to be carbonized although it is in a good dry state, making it difficult to recycle the pellets for fuel or other purposes.

In addition, if the diameter of the pellet is larger than 13 mm, the dry state is deteriorated, and the water content of the finally dried sludge becomes high.

FIG. 2 is a perspective view of a pellet molding machine of a sludge low temperature drying apparatus using an ultra-high velocity air stream according to the present invention.

The pellet molding machine 120 is a tournament type, and includes a supply pipe 121 connected to the sludge transfer pump 110 as shown in FIG. A first branch pipe 122 connected to the supply pipe 121; A plurality of second branch pipes (123) connected to the first branch pipe (122); A nozzle pipe 124 to which the respective second branch pipes 123 are connected and provided with a plurality of nozzles 124a; A connection pipe 125 connected to each nozzle 124a of the nozzle pipe 124; And a molding tube 126 connected to the upper end of each connection pipe 125 and having a plurality of discharge holes at the lower end thereof.

The cake-like sludge supplied to the supply pipe 121 of the pellet molding machine 120 through the sludge transport pump 110 in the sludge cryogenic drying apparatus 100 using the ultra-high speed air stream according to the preferred embodiment of the present invention, Through the first branch pipe 122 and the second branch pipe 123, the nozzle pipe 124 and the connection pipe 125 to the molding pipe 126 and then through the discharge hole of the molding pipe 126 And is discharged in the form of pellets of a constant diameter.

FIG. 3 is a configuration diagram of a pellet dryer of a sludge low temperature drying apparatus using an ultra high velocity air stream according to the present invention, and FIG. 4 is a perspective view of a second transfer band of a sludge low temperature drying apparatus using an ultra- to be.

The pellet dryer (130) allows rapid drying of the pellets through a low-temperature super-high velocity air stream inside the casing (131).

The pellet dryer 130 includes a casing 131; A first conveying band 132 installed on the upper part of the interior of the casing 131; A second conveying band 133 installed at an inner lower portion of the casing 131; A pellet disassembler 134 installed at the upper end of the second conveyance band 133; And a plurality of blowing fans 135 installed at an inner lower end of the casing 131.

The first conveyance band 132 and the second conveyance band 133 are pelletized or shredded through the conveyance rollers 132b and 133b and the support rollers 132c and 133c, Shaped sludge is circulated in an endless track manner.

The porous band member 132a of the first conveyance band 132 is circulated clockwise and the porous band member 133a of the second conveyance band 133 is circulated counterclockwise.

The left and right length of the porous band member 132a of the first conveyance band 132 is shorter than the left and right length of the porous band member 133a of the second conveyance band 133. [

Therefore, when the pellets formed in the pellet molding machine 120 are supplied to the left upper end of the porous band member 132a of the first conveyance band 132, the pellets move in the rightward direction to move the porous band member 132 of the first conveyance band 132, To the right upper end of the porous band member 133a of the second conveyance band 133 at the right end of the second conveyance band 132a.

The pellet dropped to the right upper end of the porous band member 133a of the second conveyance band 133 is moved in the left direction and the pellet of the second conveyance band 133 is moved to the left end of the porous band member 133a of the second conveyance band 133, And then falls to the conveying conveyor 170. [

It is preferable that the porous band member 133a of the first conveyance band 132 and the second conveyance band 133 is designed to have a structure capable of preventing scattering dust by a filter system in which hot air can pass easily.

The porous band member 133a of the first conveyance band 132 and the second conveyance band 133 may be made of high density PE filter fabric or perforated STS 304 so that thermal expansion does not occur even at a temperature of 150 ° C.

The band member feed motor (not shown) connected to the conveying rollers 132b and 133b of the respective conveyance bands 132 and 133 is designed as an inverter (VVVF) type so that variable operation can be performed. And is controlled so that the drying rate can be kept constant by adjusting the rotation speed in conjunction with the moisture measuring device 137 (DIT) installed inside.

The pellet disassembler 134 is provided at the upper end of the second conveyance band 133 for further improving the drying efficiency by crushing the long molded pellets.

The pellet disassembler 134 includes a rotation shaft 134a; And a disassembling brush 134b radially provided on the outer periphery of the rotating shaft 134a so as to disassemble the pellets dropped from the first conveying band 132 to the second conveying band 133, 2 mm or less).

The blowing fan 135 converts the hot air supplied from the burner 140 into a high speed air stream and supplies it to the second conveyance band 133 and the first conveyance band 132 to create turbulence inside the casing 131, To maximize the contact area and the impact area between the hot air and the hot air, thereby improving the drying efficiency.

Preferably, the blowing fan 135 is of the backward type, and the velocity of the ultra high velocity air stream generated through the blowing fan 135 is 20 to 50 m / s.

If the velocity of the ultra-high velocity air is lower than 20 m / s, the impact pressure with the pellets decreases and the drying efficiency decreases. If the velocity exceeds 50 m / s, the drying efficiency becomes better, So that the pellets dried in the casing 131 can be scattered.

The burner 140 heats the outside air to supply hot air to the pellet dryer 130.

The burner 140 is installed between the external air inflow duct 164 and the hot air supply duct 161 connected to the lower end of the dryer casing 131.

The temperature of hot air heated by the burner 140 and supplied to the pellet dryer 130 is preferably 90 to 160 ° C, and more preferably 120 to 150 ° C.

When the temperature of the hot air supplied to the pellet dryer 130 is lower than 90 ° C, the pellet-shaped sludge is not sufficiently dried. If the temperature is higher than 160 ° C, the pellet-shaped sludge is sufficiently dried, .

The heat exchanger 150 is used to increase the energy efficiency by preheating the outside air supplied to the burner 140 by using the waste heat of the exhaust gas having the saturated vapor pressure discharged from the pellet dryer 130.

The heat exchanger 150 is installed in the exhaust duct 162 connected to the upper end of the casing 131 of the pellet dryer 130 and is connected to the preheater 151 installed in the external air inflow duct 164 of the burner 140 Respectively.

The heat exchanger 150 includes a water eliminator for removing moisture of the exhaust gas having a saturated vapor pressure discharged from the pellet dryer 130.

A circulation duct 163 is installed between the exhaust duct 162 and the hot air supply duct 161 in the sludge low temperature drying apparatus 100 using the super high speed air stream according to the preferred embodiment of the present invention.

The circulating duct 163 is used to increase the energy efficiency by supplying a part of the exhaust gas discharged from the pellet dryer 130 to the inside of the pellet dryer 130 again.

FIG. 5 is a configuration diagram of a drying sludge conveying conveyor of a sludge low temperature drying apparatus using a high-speed air stream according to the present preferred embodiment.

The dry sludge transfer conveyor 170 is for transferring the dried sludge from the pellet dryer 130 to the dry sludge silo 180.

The drying sludge conveying conveyor 170 includes a casing 171; A conveying screw 172 installed inside the casing 171; And a water jacket 173 provided on the outer periphery of the casing 171.

Reference numeral 190 in the reference numerals is a deodorizer for removing the odor contained in the exhaust gas.

In the sludge cryogenic drying apparatus 100 using the high-speed air stream according to the preferred embodiment of the present invention, the cake-state sludge after dehydration is supplied to the pellet molding machine 120 through the sludge transfer pump 110, Lt; / RTI > pellets, for example, 11 mm in diameter.

The pellet-shaped sludge formed through the pellet molding machine 120 is supplied to the upper left side of the first conveyance band 132 of the pellet dryer 130 and moved to the upper right side of the first conveyance band 132, 2 conveying band 133, as shown in Fig.

The sludge in the form of pellets dropped to the upper right of the second transfer band 133 is moved to the upper left side of the second transfer band 133 and is crushed to a small size through the pellet disassembler 134 And falls to the drying sludge conveying conveyor 170 from the upper right side of the second conveying band.

The drying sludge conveyance conveyer 170 conveys the dried sludge to the drying sludge silo 180 through the conveying screw 172 provided inside the casing 171 and conveys the dried sludge to the outside of the casing 171 The temperature of the dried sludge can be lowered through the water jacket 173 provided at the periphery.

Meanwhile, the pellet dryer 130 for drying the pellet-shaped sludge is supplied with hot air of relatively low temperature, for example, 150 ° C. heated through the burner 140, ) Rule to be supplied to the second conveyance band 133 and the first conveyance band 132. [

That is, the hot air supplied to the lower end of the casing 131 of the pellet dryer 130 is converted into a super high-speed air stream having a speed of, for example, 30 m / s through the plurality of blowing fans 135 in the lower portion of the casing 131 .

The ultra-high velocity air stream is crushed to a small size through pellet-shaped sludge and pellet disassembler 134 that is conveyed through the second conveying band 133 while passing through the porous band member 133a of the second conveying band 133 The sludge is dried and subsequently dried in the pellet-shaped sludge conveyed through the first conveyance band 132 while passing through the porous band member 132a of the first conveyance band 132, And is discharged to the duct 162.

FIG. 6 is a diagram illustrating an example of drying sludge in a sludge low temperature drying apparatus using a high-speed air stream according to the present preferred embodiment.

The moisture content of the pellet-shaped sludge initially supplied to the upper left side of the first conveyance band 132 in the pellet dryer 130 is about 80%. After drying in the first conveyance band 132, the second conveyance band 133 And the moisture content of the final dried sludge that dries while moving through the second conveyance band 132 and falls into the drying sludge conveying conveyor 170 is 10% or less.

The temperature of the exhaust gas discharged from the pellet dryer 130 to the exhaust duct 162 is, for example, 82 ° C.

The sludge cryogenic drying apparatus 100 using the super high speed air stream according to the preferred embodiment of the present invention is configured such that the waste heat of the exhaust gas discharged to the exhaust duct 162 after drying the sludge in the pellet dryer 130 is discharged through the heat exchanger 150 Is supplied to the preheater 151, and the preheater 151 preheats the outside air and supplies it to the burner 140, so that the energy efficiency becomes high.

Part of the exhaust gas discharged to the deodorizer 190 through the exhaust duct 162 is removed from the heat exchanger 150 and joined to the hot air supply duct 161 through the circulation duct 163 The energy efficiency is improved by recirculation.

The sludge cryogenic drying apparatus 100 using the super high speed air stream according to the present invention is installed in the pellet dryer 130 through the exhaust duct 162 rather than the amount of the hot air entering into the pellet dryer 130 through the hot air supply duct 161 The amount of the exhaust gas flowing out of the exhaust pipe 130 is controlled to be larger.

The amount of the supplied hot air and the amount of the exhaust gas are controlled at a ratio of 1: 1.05 to 1: 1.28, so that a weak negative pressure is applied to the inside of the pellet dryer 130.

The amount of the supplied hot air and the amount of the exhaust gas is preferably 1: 1.12.

The reason why a weak negative pressure is applied to the inside of the pellet dryer 130 in the sludge low temperature drying apparatus 100 using the super high speed air stream according to the present invention is that the ultra high speed air stream is supplied to the respective transfer bands 132 So that the band members 132a and 133a can be smoothly passed through.

In the sludge low-temperature drying apparatus 100 using the high-speed air stream according to the present invention, as the ultra-high velocity air passes smoothly through the band members 132a and 133a of the respective conveyance bands 132 and 133, Do.

On the other hand, the sludge dried in the pellet dryer 130 drops to the drying sludge conveying conveyor 170 from the second conveying band 133 and is conveyed to the drying sludge silo 180 through the drying sludge conveying conveyor 170 do.

In the process of conveying the sludge through the conveying screw 172 of the drying sludge conveying conveyor 170, cooling through the water jacket 173 is performed. At this time, the sludge falling at a temperature of 82 ° C is conveyed to the drying sludge conveying conveyor 170 < / RTI >

The drying sludge transport conveyor 170 reduces the temperature of the sludge to prevent explosion and the like, and reduces the load of the subsequent process by transferring the dried sludge in a predetermined amount.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: Low temperature drying apparatus
110: Sludge transfer pump
120: pellet molding machine
130: Pellet dryer
140: Burner
150: heat exchanger
161: Hot air supply duct
162: exhaust duct
163: Circular duct
170: Dry sludge conveying conveyor

Claims (17)

A sludge transfer pump (110) for transferring the dehydrated cake state sludge to the pellet molding machine (120);
A pellet molding machine 120 for molding the cake sludge into a pellet having a diameter capable of maximizing the porosity and the heat transfer area;
A pellet dryer (130) for drying the pelletized sludge supplied from the pellet molding machine (120) through an ultra-high velocity air stream;
A burner 140 for supplying hot air to the pellet dryer 130;
A heat exchanger (150) having a water eliminator for preheating outside air supplied to the burner (140) using waste heat of the exhaust gas having a saturated vapor pressure discharged from the pellet dryer (130) and removing moisture of the exhaust gas;
And a drying sludge conveying conveyor (170) for conveying the dried sludge in the pellet dryer (130) to the drying sludge silo (180)
The pellet molding machine 120 includes:
A supply pipe 121 connected to the sludge transfer pump 110;
A first branch pipe 122 connected to the supply pipe 121;
A plurality of second branch pipes (123) connected to the first branch pipe (122);
A nozzle pipe 124 to which the respective second branch pipes 123 are connected and provided with a plurality of nozzles 124a;
A flexible connection pipe 125 connected to each nozzle 124a of the nozzle pipe 124;
And a molding tube (126) connected to the flexible connecting tube (125) at an upper end thereof and having a plurality of discharge holes at a lower end thereof,
The pellet dryer (130)
A casing 131;
The porous band members 132a and 133a which are installed in the upper and lower parts of the inside of the casing 131 and conveyed through the conveying rollers 132b and 133b and the support rollers 132c and 133c are circulated in an endless track manner A first conveying band 132 and a second conveying band 133 for conveying the sheet;
A pellet disassembler 134 installed at the upper end of the second conveying band 133 and provided with a dismantling brush 134b radially on the outer periphery of the rotating shaft 134a;
The hot air supplied from the burner 140 is converted into a high speed air stream and supplied to the second conveyance band 133 and the first conveyance band 132 and is supplied to the inside of the casing 131, And a plurality of blowing fans (135)
The porous band member 132a of the first transfer band 132 is circulated clockwise and the porous band member 133a of the second transfer band 133 is circulated counterclockwise,
The left and right lengths of the porous band member 132a of the first conveyance band 132 are set so that the sludge dropped at one end of the first conveyance band 132 is transferred to the second conveyance band 133, Side length of the porous band member 133a of the porous member 133,
The super high velocity air stream of 20 to 50 m / s generated in the plurality of blowing fans 135 passes through the porous band member 133a of the second conveyance band 133 and is conveyed through the second conveyance band 133, The sludge crushed to a small size is dried through the sludge and pellet disintegrator 134 of the first conveying band 132 and then passed through the first conveying band 132 while passing through the porous band member 132a of the first conveying band 132 After the pellet-shaped sludge is transferred, it is discharged to the exhaust duct 162 at the upper end of the casing 131,
The band member feed motor connected to the conveying rollers 132b and 133b of the respective conveying bands 132 and 133 controls the rotation speed in cooperation with the moisture measuring device 137 (DIT) So as to keep the drying rate constant,
The heat exchanger 150 is installed in an exhaust duct 162 connected to the upper end of the pellet dryer 130 and is connected to a preheater 151 installed in an external air inlet duct 164 of the burner 140,
A part of the exhaust gas discharged from the pellet dryer 130 is supplied between the exhaust duct 162 provided at the upper end of the pellet dryer 130 and the hot air supply duct 161 installed at the lower end of the pellet dryer 130 A circulating duct 163 for supplying the air to the inside of the pellet dryer 130 is provided,
The drying sludge transport conveyor 170 is
A casing 171;
A conveying screw 172 installed inside the casing 171;
And a water jacket 173 provided on the outer periphery of the casing 171,
The amount of exhaust gas exiting the pellet dryer 130 is controlled to be greater than the amount of hot air entering the pellet dryer 130 so that a negative pressure is applied to the inside of the pellet dryer 130. [ Sludge low temperature drying device. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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