KR20140096495A - Dryer with cyclone using direct drying method - Google Patents

Abstract

The present invention relates to a dryer with a cyclone using a direct drying method which can increase the drying efficiency during a process of drying an object to be dried via a heating medium, can have the flowing characteristics in the dryer improved, and can discharge the object to be dried definitely. The present invention provides a dryer with a cyclone, comprising: a cylindrical casing having a space formed therein, and including an input part to input an object to be dried and a discharge part formed on a lower side in the middle to discharge the object to be dried; a heat medium filled into the space inside the casing and mixed with the object to be dried; and a heating unit to heat the heat medium. The heat medium is introduced in a circumferential direction from the upside of the side wall of the casing to generate rotating flow inside the casing. The object to be dried is dried while flowing and floating inside the casing. The object to be dried, which has a specific gravity thereof increased in a drying process, has moisture content thereof minimized by moving to the inner side wall of the casing via centrifugal force, and moving to the lower side of the space inside the casing while rotating spirally via the gravitational and centrifugal force, and is discharged through the discharge part. Therefore, the object to be dried can stably and efficiently be dried with a simple structure, and the dried object can definitely be separated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a direct drying cyclone drying apparatus,

The present invention relates to a drying apparatus, and more particularly, to a drying apparatus in which drying efficiency is increased in a process of drying an object to be dried through a heating medium, flow characteristics inside the dryer are improved, To a cyclone drying apparatus.

Generally, sludge (sludge) refers to a state in which pollutants have settled in the sewage / sewage in general households or industries. Sludge may be generated by artificial sedimentation during the treatment of wastewater discharged from chemical plants or dye / pigment plants, or by natural sedimentation in rivers and lakes. Particularly, in a wastewater treatment process in a factory or the like, biological sedimentation or coagulation sedimentation is carried out to purify wastewater by promoting sedimentation of sludge, which is one of important processes in wastewater treatment.

These sludges are generally classified as organic wastes because they contain organic materials that can be decomposed by microorganisms. In the past, the sludge generated in the wastewater treatment process was collected periodically, for example, by a rotary drying method such as a rotary kiln dryer to reduce the predetermined amount of water, and then to treat it in the ocean. However, since the possibility of increasing the environmental pollution is high in the case of organic sludge, the prohibition of marine dumping is proposed by the London Convention and the marine dumping of wastes such as sewage sludge and food waste is recently prohibited in Korea.

Conventionally, a method of treating sludge in a manner of incineration has been widely used. Recently, there is a need for recycling, and there is an increasing demand for technologies for fuel conversion and resource conversion. Therefore, the present invention focuses on a method of recovering and recycling energy more efficiently than a simple level of solidification, which is a drying method of conventional sludge.

The sludge drying method is divided into a direct drying method and an indirect drying method based on the heat transfer method. The direct drying method is a method in which a high temperature heat medium comes into direct contact with the sludge and the sludge is dried by the convection of the combustion gas. Is high and the processing speed is fast, but there is a problem of exhaust gas treatment and dust explosion. The indirect drying system has the advantage of reducing the exhaust gas and the heat loss by reducing the moisture by allowing the heat medium of high temperature to indirectly exchange heat with the sludge through the predetermined heat transfer means, And the drying speed is lowered.

In recent years, in-stream drying techniques have been proposed in which sludge and oil are mixed and dried. In this drying technique, the drawbacks of the drying methods can be partially compensated in terms of fluidity and heat transfer area of the sludge.

However, in the conventional oil drying technique, a separate process is required to separate the oil. In general, the process of heat transfer or post heat is required, resulting in excessive equipment and energy consumption. In addition, since oil and sludge are mixed, they are not properly dried in the dryer, and they are discharged and adhered to the drier, thereby deteriorating durability and efficiency.

SUMMARY OF THE INVENTION The present invention has been made to overcome the problems of the prior art described above, and it is an object of the present invention to increase the drying efficiency of an object to be dried such as sludge through a predetermined heating medium in a direct drying method, It is an object of the present invention to provide a direct drying type cyclone drying apparatus capable of maximizing the discharge performance.

According to an aspect of the present invention, there is provided a cyclone drying apparatus of a direct drying type, comprising: a cylinder having a cylindrical shape for forming a space therein; a charging unit for charging the laundry; And a heating device which is filled in a space inside the casing and mixed with the object to be dried and a heating device which heats the heating medium, wherein the heating medium flows in the circumferential direction from the upper side of the side wall of the casing, The inflow energy such as the pressure energy and the kinetic energy of the heating medium is converted into the rotating flow inside the casing and the laundry is flowed and floated in the casing and drying is progressed, Is moved to the inner wall side of the casing by the centrifugal force in accordance with the rotational flow, While the rotation by the spiral is moved to the lower side of the casing inner space is a dry product binary content of the water down the cyclone provides a drying apparatus which is discharged through said discharge portions. Therefore, the structure can be dried simply, stably and efficiently, and the dried material can be surely separated. Herein, the inflow energy of the heating medium, which causes the stirring force and the centrifugal force to flow in the casing, may be supplied from a transfer device for circulating the heating medium between the inside of the casing and the heater.

The transfer device may be selected from known fluid transfer devices such as pumps.

In addition, the cyclone drying apparatus of the direct drying type according to the present invention may further include an agitator disposed inside the casing and accelerating the rotational flow. Therefore, the vortex is effectively generated and the dried product, which has been dried, can be effectively separated.

In addition, the cyclone drying apparatus of the direct-drying type according to the present invention further includes a heating medium outlet portion disposed at the center of the upper side of the casing and communicating with the outside to allow the heating medium to flow out, The upward flow of the heat medium having a relatively small specific gravity is formed at the center of the casing and the raised heat medium can be discharged through the heat medium outlet portion and recovered to the heating device. Since the heating medium from which the object to be dried is separated is recovered by the heating device, the object to be dried can be minimized in the inside of the heating device or in the case of closing the heating device.

According to another aspect of the present invention, there is provided a cyclone drying apparatus of a direct drying type, comprising: a casing having a cylindrical shape for forming a space therein; a casing having a charging portion into which the laundry is charged and a discharge portion formed below the center, A heating medium which is filled in the space inside the casing and mixed with the object to be dried, a heating device which heats the heating medium, a heating medium inlet which is formed in the casing and through which the heating medium heated by the heating device flows into the casing, And a stirrer for stirring and rotating the drying object and the heating medium, wherein the drying object and the heating medium are supplied to the inside of the casing by rotation of the stirring device, Spiral, and as the drying progresses, Is moved to the inner wall side and the lower side of the casing and discharged through the discharge portion, the heating medium is raised from the center of the casing provides a cyclone drying device the heat medium flowing out through an outlet.

The heating medium outlet may be formed in a cylindrical shape and extend downward from the upper end of the casing.

In addition, the heating medium inlet may be formed in the circumferential direction of the casing to accelerate the rotational flow by the inflow energy such as pressure energy and kinetic energy of the heating medium flowing in the circumferential direction and in the tangential direction.

The heating medium may be composed of at least one material selected from waste cooking oil, ionic refining oil, B-C oil and mineral oil.

The apparatus may further include a condenser for condensing the water evaporated from the object to be dried and separating the condensed water into a liquid phase.

The apparatus may further include a solids separator for separating the heat medium mixed into the dried matter discharged from the discharge unit.

The cyclone drying apparatus of the direct-drying type according to the present invention having the above-described structure has a simple structure and can effectively dry the laundry by the heating medium, so that efficient drying can be achieved by using less energy . In particular, when the drying apparatus of the present invention is used in comparison with the conventional simple drying method, the dried material can be used as a high-quality recycled fuel.

In addition, since a dry type cyclone type drier is used, the drift can be effectively dispersed by the specific gravity difference, and a spiral flow can be generated with a simple structure. Therefore, the conventional induction tube and the like So that the economical efficiency can be further improved, the efficiency of vortex generation is improved, and the separation of the dried matter can be more surely performed.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side sectional view showing a cyclone drying apparatus of the direct-drying type of the present invention. Fig.
Fig. 2 is a side sectional view showing a modification of Fig. 1. Fig.

Hereinafter, a direct drying type cyclone drying apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a side cross-sectional view of a cyclone drying apparatus of the direct-drying type according to the concept of the present invention.

The cyclone drying apparatus 1000 according to the present invention basically comprises a casing 1110 which forms a space therein and is discharged into a discharge portion 1122 formed in the lower portion of the center by stirring and drying the laundry, A heating medium 1141 flowing in a circumferential direction from the upper side of the side wall of the casing 1110 to generate rotational flow inside the casing 1110 and a heating device 1200 heating the heating medium 1141 .

Here, the object to be dried is not necessarily limited to the sewage sludge, but may include a variety of objects to be dried such as food such as vegetable processed food or fried food.

The casing 1110 forms a predetermined space so that the laundry can be stirred, dried and discharged in the space inside the casing 1110. As will be described later, the rotating movement of the laundry and the heating medium 1141 occurs, It is preferable that the shape of the inner wall is formed substantially in the shape of a cylinder or a corn. More preferably, the casing 1110 is formed in a cylindrical shape so that the flow of the rotational flow as a whole can be smoothly performed. The lower portion of the casing 1110 is formed into a cone shape in consideration of concentration and discharge of the dried material into the discharge portion 1122 formed at the lower central portion Lt; / RTI > However, it goes without saying that the shape of the casing 1110 may be variously selected.

The casing 1110 may have a predetermined opening through which the laundry may be introduced and discharged and moisture may be discharged. Accordingly, the casing 1110 may include a charging portion 1121 into which the laundry is charged into the inner space, And a water outflow portion 1123 through which moisture evaporated from the laundry is discharged to the outside by heat transfer. As shown in the drawing, the charging unit 1121 is provided on the upper side of the casing 1110 in consideration of charging by its own weight, and the water outlet unit 1123 is provided in the casing 1110 in consideration of the discharge of moisture of the vapor phase. And the discharging unit 1122 is provided on the lower side of the drying unit 1110 so as to discharge the dried material due to the difference in specific gravity as described later. However, the present invention is not limited thereto.

In the description of the present invention, the object to be dried, which is input by the input unit 1121, is defined as an object to be dried, and the object to be dried discharged from the discharge unit 1122 is defined as a material to be dried, It can be understood that it means the state of the object to be dried with a relatively small amount of moisture. However, in a state in which a plurality of drying apparatuses are arranged in series, a state of being discharged from each drying apparatus may be expressed as a dried body, and a state of being discharged from the final drying apparatus may be expressed as a dried body.

The heating medium 1141 means a fluid which is filled in the casing 1110 and mixed with the drying object to maximize heat transfer. Preferably, the heating medium 1141 can use oil in consideration of the boiling point, specific gravity difference, and heat transfer efficiency with respect to moisture and dried materials, and in this case, it can be understood as a drying method in the oil-in-water type.

The heating medium 1141 may be selected from the vegetable oils such as waste cooking oil, ionic refining oil or BC (Bunker-C) oil, or one of the mineral oils may be selected and used. .

In the case where the heating medium 1141 is made of oil as described above, since the oil has a boiling point higher than that of water during the process of evaporating moisture from the drying object by receiving the high temperature heat therein, the heating is performed at a temperature between the boiling point of the oil and the water The object to be dried can be rapidly evaporated due to the heat transfer from the oil surrounding the object to be dried.

Also, since the heating medium 1141 and the drying object are mixed and agitated, the fluidity is increased and the heat transfer area is widened, so that the drying efficiency can be increased. At this time, since the rotating flow is generated by the stirrer 1300, such a drying process occurs more systematically inside and the dried material can be effectively discharged, which will be described later.

On the other hand, the amount of the heating medium 1141 filled in the casing 1110 can be determined in consideration of the blending ratio with the laundry. If the ratio of the heating medium 1141 is low, generally, since the specific gravity of the laundry is high, And thus the piping such as the discharge portion 1122 may be blocked, the ratio of the heating medium 1141 to the laundry may be appropriately selected depending on factors such as the amount and the specific gravity of the flow by the stirrer .

As described above, the heating medium 1141 may flow into the casing 1110 with a predetermined pressure and an ejecting angle so as to generate a circumferential flow from the upper side of the casing 1110. Thus, a rotational flow in the horizontal direction is generated substantially on the basis of the arrangement state of the drawing, and this rotational flow is combined with the vertical flow due to the difference in the specific gravity of the materials contained in the casing 1110 and the self weight, Flow can be induced. Drying and material separation can be performed by turning by centrifugal force. Accordingly, the present invention provides a concept of a Cyclone type drying apparatus. Specifically, vortices are generated in the cyclone inside the casing 1110 due to the generation of rotational flow, and the drying is progressed due to the difference in specific gravity, thereby increasing the specific gravity. Since the swirling vortex is formed on the center side where the agitator 1300 is disposed, the dried object having relatively less dryness is moved upward, or the object to be dried is separated by the cyclone action, Can be moved upward.

The heat medium inlet portion 1124 is disposed in a side wall of the casing 1110 to communicate the inside and the outside of the casing 1110. The heat medium inlet portion (1124) is preferably formed adjacent to the upper end side of the casing (1110), but the arrangement state is not necessarily limited thereto. That is, in the concept of the present invention, the rotational fluid is generated entirely inside the casing 1110 by the flow of the heating medium 1141 flowing in the heating medium inlet 1124, and the upward and downward movement is induced The arrangement state of the heating medium inlet portion 1124 can be appropriately selected in consideration of such a flow.

The heat medium inlet 1124 preferably has an outlet (not shown) at least at the inlet end thereof formed in the circumferential direction of the casing 1110. According to this concept, the generating strength and direction of the rotating flow can be determined by the direction in which the heating medium 1141 is discharged from the heating medium inlet 1124, and the spiral flow as a whole can be induced. The inflow energy of the heating medium flowing through the heating medium inlet 1124 is supplied from the feeding device 1210 for circulating the heating medium through the casing 1110 and the heating device 1200.

The circulation device 1210 may be selected from a known fluid transfer device such as a pump.

A heating medium outlet portion 1125 may be provided on the upper side of the casing 1110 in order to allow the heating medium 1141 to flow to the outside of the heating medium 1141. The heating medium 1141 flowing out of the heating medium outlet portion 1125 may be heated by a predetermined heating Is reduced to the apparatus 1200 and is supplied with a heat quantity, is heated to a higher temperature and then flows through the heat medium inlet 1124, so that it can be used for drying the laundry.

The heating medium outlet 1125 may be formed in the shape of an opening formed in the casing 1110 but may be formed in a predetermined cylindrical shape extending downward from the center of the upper end of the casing 1110. Accordingly, as shown in the drawing, the heating medium 1141 separated by the rising vortex generated at the lower center portion of the casing 1110 flows into the lower end portion side of the heating medium outlet portion 1125 during the rising process, . In this case, the space on the outer peripheral side of the heating medium outlet 1125 is utilized as a space for stirring and drying by the rotational flow

The heating medium 1141 conveys high temperature heat to the drying object during circulation and flows out to the heating medium outlet 1125 and is heated and circulated through the heating device 1200. The heating device includes a known fluid heating means Can be selected and used.

Since the heating medium 1141 flows in the casing 1110 and mixes with the drying object to perform drying, the cyclone drying apparatus 1000 according to the concept of the present invention can be used as a direct drying drying apparatus .

Fig. 2 is a side sectional view showing a modified example in which the stirrer is further arranged in the embodiment of Fig. 1;

2, the cyclone drying apparatus 1000 of the present invention may include a stirrer 1300 to generate a rotating flow. Here, redundant descriptions relating to the movement of the casing 1110 and the flow are omitted.

The stirrer 1300 is disposed inside the casing 1110 as described above, and mixes the heating medium 1141 and the drying object to generate rotating flow. The stirring unit includes a stirring unit 1320 for generating rotating flow as shown in the figure, a rotation shaft 1310 serving as a rotation center of the stirring unit 1320, a driving unit 1330 for providing rotation power to the stirring unit ).

The arrangement of the rotary shafts is preferably substantially perpendicular to the center of the casing 1110 in consideration of the efficiency of stirring and flow generation, but is not limited thereto.

When the agitating unit 1320 is an impeller, the impeller generates rotational flow with respect to the heating medium 1141 and the object to be dried, but may have various shapes depending on the selection. In addition, the number of impellers disposed on the rotary shaft may be optionally selected. The stirring part 1320 functions to further accelerate the generation of the rotational flow or the induction of the spiral flow due to the flow of the heating medium 1141. The stirring part 1320 may be arranged such that the impeller is arranged in the horizontal direction It is also possible to provide only the horizontal rotational power, to be arranged in the vertical direction to induce vertical flow, and to be configured to generate both horizontal and vertical flow.

In the example of FIG. 2, the rotary shaft 1310 is arranged to penetrate through the heating medium outlet 1125 and further extend downward. Accordingly, the agitating portion 1320 is disposed at the lower side of the heating medium outlet portion 1125 so that a sufficient flow can be generated in the space inside.

The operation of the cyclone drying apparatus 1000 according to the concept of the present invention as described above will be described below. An object to be dried containing water is introduced into the casing 1110 through the input unit 1121, and the heat medium inlet unit 1124 And the drying object is mixed with the rotating operation of the stirrer 1300, and a rotating flow is generated. During the movement of the heating medium 1141 and the drying object, the heat of the heating medium 1141 is transferred to the drying object to evaporate the moisture contained in the drying object. At this time, the heating medium 1141 increases the fluidity of the drying object, Thereby accelerating the evaporation of water. In this case, the drier having relatively more drying is disposed farther toward the inner wall side of the casing 1110 due to the centrifugal force due to the relatively larger specific gravity, and is moved downward due to the difference in specific gravity. Therefore, the object to be dried which has been most dried can be disposed below the casing 1110 and can be discharged to the outside through the discharge portion 1122. Accordingly, it is preferable that the discharge part 1122 is disposed at the lower center side of the casing 1110, more preferably, the inner wall at the lower part of the casing 1110 is formed to be inclined downward, ). ≪ / RTI > During drying, the laundry is continuously flowed and floated in the casing 1110, and the heat of the heating medium 1141 is transferred to the drying unit.

In addition, the heating medium inlet 1124 is formed in the circumferential direction on the upper side of the side wall of the casing, and the inflow energy of the incoming heating medium is converted into rotational motion, so that the rotational flow of the heating medium can be accelerated.

The moisture evaporated from the inside of the casing 1110 flows out through the water outlet portion 1123. Since such moisture may contain a component of the laundry or the heating medium 1141, Lt; / RTI > Accordingly, the cyclone drying apparatus 1000 of the present invention may further include a condenser that condenses the gas flowing out of the water outlet portion 1123 into a liquid phase. Such a condenser is basically a device for recovering heat of steam and liquefying it, and various condensers such as water-cooling, air-cooling or evaporation type can be applied. Condensed through the condenser and changed into a liquid state, and such liquid phase water can be treated through a predetermined water treatment apparatus, and since an un-liquefied gas component is directly discharged, it can cause odor or environmental pollution The deodorizing process can be performed through a predetermined deodorizer (not shown).

The dried material discharged from the discharging portion 1122 means that the drying process has relatively advanced in the drying process as described above and may include residual moisture or the heating medium 1141. According to this concept, The cyclone drying apparatus 1000 may further include a solids separation apparatus (not shown). Such a solids separator may be a centrifugal separator for separating solids from the heating medium 1141 by centrifugal force, or a heating / separating device for separating and separating the heating medium 1141 by heating. A liquid separation device may be selected or fused.

The heating medium 1141 separated from the solids separating apparatus can be reduced to the inside of the casing 1110 and reused.

The cyclone drying apparatus of the direct drying type according to the concept of the present invention has the advantage that the water content of the dried material can be minimized by using less energy because the drying medium can be more effectively dried by the heating medium 1141. [ In particular, the dried material can be used as a high-quality recycled fuel as compared with the conventional simple drying method.

In addition, since the dry product dried by the difference in specific gravity can be effectively separated from the dried product by using the direct-drying cyclone type drier and the spiral flow can be generated as a simple structure, It is possible to omit the equipment such as the induction pipe provided for the air conditioner, and the economical efficiency can be further improved, and the vortex can be generated more effectively, so that the drying material can be more surely separated.

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

1000 ... cyclone drying apparatus 1110 ... casing
1300 ... stirrer 1310 ... rotating shaft
1320 ... stir part 1330 ... driving part
1121 ... input portion 1122 ... output portion
1123 ... water outlet portion 1124 ... heating medium inlet portion
1125 ... heating medium outlet portion 1141 ... heating medium
1200 ... Heating device 1210 ... Feeding device

Claims (9)

A casing formed in a cylindrical shape forming a space therein and having a charging portion into which the laundry is charged and a discharge portion formed in the lower side of the center and discharging the dried material;
A heating medium filled in the space inside the casing and mixed with the laundry; And
And a heating device for heating the heating medium,
The heating medium flows in a circumferential direction from the upper side of the side wall of the casing to generate rotational flow inside the casing,
The drying is progressed while flowing and floating in the casing, the drying of which is increased and the specific gravity of which is increased is moved to the inner wall side of the casing by the centrifugal force and rotated spirally by gravity and centrifugal force, Wherein the dried matter moving to the lower side of the space and having the lowest moisture content is discharged through the discharge portion. The method according to claim 1,
And an agitator disposed inside the casing and accelerating the rotational flow. The method according to claim 1,
And a heating medium outlet portion disposed at a central portion of the upper side of the casing and communicating with the outside to allow the heating medium to flow out,
Wherein a rising flow is formed at the center of the casing as the drying progresses, and the raised heating medium flows out through the heating medium outlet portion and is recovered to the heating device. A casing formed in a cylindrical shape forming a space therein and having a charging portion into which the laundry is charged and a discharge portion formed in the lower side of the center and discharging the dried material;
A heating medium filled in the space inside the casing and mixed with the laundry;
A heating device for heating the heating medium;
A heating medium inlet formed in the casing and allowing the heating medium heated by the heating device to flow into the casing;
A heating medium outlet formed in the casing and allowing the heating medium to flow out to the heating device; And
And a stirrer for stirring and rotating the drying object and the heating medium,
By the rotary operation of the agitator, the drying object and the heating medium move in a spiral manner in the casing,
As the drying progresses, the object to be dried whose specific gravity is increased is moved to the inner wall side and the lower side of the casing and discharged through the discharge portion,
Wherein the heating medium flowing from the center of the casing flows out through the heating medium outlet. 5. The method of claim 4,
Wherein the heating medium outlet portion is formed in a cylindrical shape and extends downward from an upper end side of the casing. 6. The method of claim 5,
Wherein the heating medium inlet is formed in a circumferential direction on an upper side of a side wall of the casing and is configured to convert the inflow energy of an incoming heating medium into rotary flow to accelerate the rotary flow. 7. The method according to any one of claims 1 to 6,
Wherein the heating medium is made of at least one material selected from waste cooking oil, ionic refining oil, BC oil, and mineral oil. 7. The method according to any one of claims 1 to 6,
And a condenser for condensing the water evaporated from the object to be dried and separating the liquid into a liquid phase. 7. The method according to any one of claims 1 to 6,
And a solids separation device for separating the heating medium mixed in the dried matter discharged from the discharge part.

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