KR20150027968A - Recirculation system of odorous emission gas from organic waste drying process - Google Patents

Abstract

The present invention relates to a recirculation system of odorous exhaust gas from an organic waste drying process, which re-supplies odorous exhaust gas discharged from a dryer to the dryer through a circulation pipe. A moisture remover is installed on the circulation pipe to remove moisture of odorous exhaust gas and circulate. The odorous components are not emitted to the atmosphere, thereby causing no odor problems. The recirculation system of odorous emission gas from an organic waste drying process of the present invention comprises a dryer for inputting, drying and discharging organic waste; a circulation pipe for connecting an air suction inlet and an exhaust gas outlet of the dryer; and an induction fan installed on the exhaust gas outlet, wherein the odorous exhaust gas discharged from the dryer is introduced to the dryer through the circulation pipe, and repeatedly circulated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an odor-

TECHNICAL FIELD The present invention relates to a malodorous exhaust gas recycling apparatus for drying an organic waste, and more particularly, to a malodorous exhaust gas recycling apparatus for an organic waste drying process capable of preventing an external leakage of a malodorous exhaust gas generated in a dryer.

Generally, organic wastes such as animal manure, food waste, and wastewater sludge are disposed of by dehydration, incineration and landfill, and some of them are recycled but mostly discharged to the ocean.

However, recent marine pollution has been prohibited in order to prevent marine pollution. In case of incineration, enormous facility investment is needed, and civil petitions of residents are extreme, and biogas production through anaerobic digestion is not effective in terms of energy efficiency There is a problem of disposal of the digested waste liquid.

Therefore, in recent years, drying methods for drying organic wastes and utilizing them as renewable energy resources have attracted attention.

By drying the organic waste and reducing the water content, it becomes an excellent solid fuel having a calorific value of 3,000 ~ 4000 kcal / kg or more.

Examples of the dryer for drying organic wastes as described above include a direct or indirect drying type dryer using hot air and steam, and an electromagnetic wave drying type dryer using a microwave or the like.

However, in order to remove the water evaporated during the drying process, it is necessary to have an air flow, so that a high-strength odor flue gas containing a large amount of water is inevitably generated at the time of drying.

1, air is sucked into the air inlet 11 of the dryer 10, and the odor of the high-concentration odor is discharged to the outlet 12 of the flue gas in the dryer 10, The exhaust gas is discharged. A discharge fan (20) for sucking and discharging air in the dryer (10) is installed in the discharge outlet (12) for the suction of air and discharge of the discharge gas.

Conventionally, a separate odor elimination facility 100 such as a wet scrubbing tower, an activated carbon adsorption tower, a biofilter facility or the like is installed to remove odor components emitted to the outside of the dryer 10, and odor- After collecting the odor components, they were released into the atmosphere.

As a similar prior art, Korean Patent Laid-Open Publication No. 10-2006-0064141 discloses a technique for removing odor generated in the storage and drying process in the microbial deodorization tower in pyrolysis treatment of sewage sludge.

Korean Patent Laid-Open Publication No. 10-2002-0014975 discloses a technique for transferring a malodor exhaust gas generated during drying of food waste to a deodorization tank to remove odors.

As described above, in order to treat odorous exhaust gas generated during the drying of organic wastes, it is necessary to provide a separate odor elimination facility as described above, so that a large space is required for installing the equipment and a high cost is required for installation and operation.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus for recycling odorous waste gas in an organic waste drying process that can solve the odor problem of the organic waste drying process without providing a separate odor removal facility It has its purpose.

According to an aspect of the present invention, there is provided a method of operating an air conditioner, comprising: a drying device to which organic wastes are introduced and discharged after drying; a circulation duct connecting an air inlet of the dryer to an outlet of the exhaust gas; And the odor gas discharged from the dryer flows into the dryer again through the circulation duct to be repeatedly circulated.

And a water eliminator is installed in the circulation duct to remove moisture contained in the malodor exhaust gas.

The water eliminator includes a casing having a water vapor outlet formed on a side surface thereof, a moisture removing film inserted into the casing, a front cover provided at one end of the casing and provided with an exhaust gas inlet, a rear cover provided at the other end of the casing, And a cover.

The water removal membrane is characterized in that a plurality of hollow fiber membranes are combined in a bundle shape.

And a filter is installed at a previous portion of the water eliminator of the circulation duct to prevent dust from flowing into the water eliminator.

And a heat exchanger is installed at a previous portion of the water eliminator of the circulation duct to recover the heat of the odor gas and lower the temperature of the odor gas.

The heat exchanger includes a heat exchanger body provided in a circulation line, and a heat exchange medium flow pipe through the heat exchanger body.

Industrial Applicability According to the present invention as described above, there is provided a malodorous exhaust gas recycling apparatus for an organic waste drying process that does not require a separate odor removal facility.

According to the present invention, since the malodor exhaust gas generated and discharged from the dryer flows into the air inlet of the dryer again and is recirculated, the malodor exhaust gas is not discharged to the outside of the dryer, so that a separate odor removal facility is not needed.

Therefore, the installation and operation of the odor elimination facility are not costly.

As described above, since the odor component generated in the dryer is not discharged to the outside, the odor problem around the dryer is fundamentally solved.

In addition, the moisture contained in the malodorous exhaust gas is removed by the water eliminator installed on the circulation path of the odorous flue gas, and the dry air is introduced into the dryer, thereby improving the drying performance of the dryer and reducing the amount of energy consumed in generating the dry heat.

In addition, since the heat exchanger is installed in the odor exhaust gas discharge path, the heat of the odor exhaust gas can be recovered and utilized, thereby improving the energy efficiency of the drying apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an organic waste drying apparatus according to the prior art; FIG.
2 is a configuration diagram of a malodorous exhaust gas recycling apparatus in the organic waste drying process according to the present invention.
3 is a configuration diagram of a water eliminator which is an embodiment of an odorous exhaust gas recycling apparatus in the organic waste drying process according to the present invention.
Fig. 4 is a cross-sectional view taken along line AA of Fig. 3, which is a sectional view of the water eliminator; Fig.
FIG. 5 is a view showing another embodiment of a malodorous exhaust gas recycling apparatus for drying organic wastes according to the present invention, in which a heat exchanger is installed. FIG.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The thicknesses of the lines and the sizes of the components shown in the accompanying drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, and these may vary depending on the intention of the user, the operator, or the precedent. Therefore, definitions of these terms should be made based on the contents throughout this specification.

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

The present invention relates to an apparatus for drying organic wastes according to the present invention, which comprises a dryer (10) in which organic wastes are introduced and dried and then discharged, an air inlet (11) of the dryer (10) A circulation duct 60 connecting the exhaust gas outlet 12 and an induction fan 20 installed at the exhaust gas outlet 12.

Therefore, the odor flue gas generated in the dryer 10 is sucked by the drawn-in fan 20 and is recycled to the dryer 10 through the air intake port 11 through the circulation duct 60, So that the problem of the odor can be solved.

Since water (water vapor) generated during drying is separated from the water remover 30 to be described later and discharged to the outside, the moisture of the internal gas in the dryer 10 is maintained at the conventional level, and thus drying of the organic waste is normally performed.

A water eliminator (30) is installed in the circulation duct (60) of the dryer (10).

The water eliminator 30 has a built-in water-removing membrane 32, and water contained in the odor gas is separated by the water-removing membrane 32.

3, the water eliminator 30 includes a casing 31 formed into a tubular shape that is hermetically sealed to the outside, and a moisture removing film 32 inserted into the casing 31. The moisture-

A front cover 33 provided with an exhaust gas inlet port 33a is provided in the front end portion of the casing 31 (in the direction in which the odor exhaust gas flows into the right side in the drawing), and a rear cover 33 A rear cover 34 having a dry air outlet 34a is provided in a side surface of the casing 31 and a water vapor outlet 31a.

As shown in FIG. 4, the water-removing membrane 32 is formed by joining hollow fiber membranes having a plurality of hollow fiber membranes having an outer diameter of several hundreds of micrometers or less in a bundle shape, Is inserted into the casing (31). Since there is no gap between the casing 31 and the water-removing membrane 32, all of the odor gas flowing into the water eliminator 30 passes through the water-removing membrane 32.

When odorous flue gas containing water is introduced into a single strand of hollow fiber membranes, the moisture is rapidly diffused in the radial direction of the hollow fiber membrane, whereas the other gas components have a very slow diffusion rate compared to the moisture, (Moving in the longitudinal direction of the hollow fiber membrane). In fact, in all gases passing through the hollow fiber membrane, the permeation rate of water vapor is the highest. For example, its permeability is 500 times faster than that of methane.

As a result, the moisture is transferred to the water discharge port 31a in the radial direction of the water-removing film 32, and the remaining gas The component passes through the moisture removing film 32 in the longitudinal direction and is discharged to the dry air outlet 34a.

Although the structure and operation of the water eliminator 30 have been described above, it is only one embodiment of the present invention, and the structure of the water eliminator of the present invention need not be limited to the structure described above.

A filter 40 may be further installed in the circulation duct 60.

The filter 40 is for removing solid impurities such as dust contained in the malodor exhaust gas generated in the dryer 10. When such a solid impurity with large particles flows into the water remover 30, It is preferable that the filter 40 is installed at the previous portion of the water eliminator 30 in the circulation line 60 because the inlet is blocked to adversely affect the separation performance of water and gas.

On the other hand, as shown in FIG. 5, a heat exchanger 50 is installed in the circulation duct 60. The heat exchanger 50 may reduce the temperature of the malodor exhaust gas flowing into the water remover 30 to prevent heat damage to the water remover 30 and lower the temperature of the water vapor separated and discharged from the water remover 30. [ It is preferable to be installed in the previous portion of the water eliminator 30. [

The heat exchanger 50 includes a heat exchanger body installed on the circulation duct 60 and a heat exchange medium flow pipe 51 that flows in from the outside of the heat exchanger body to the inside thereof and passes through the inside space in the form of a coil, .

The offensive odor exhaust gas flows into the heat exchanger body from the circulation duct 60. The offensive odor exhaust gas is heat-exchanged with the heat exchange medium flowing through the heat exchange medium flow pipe 51 and is discharged into the circulation duct 60 in a cooled state, And flows into the water eliminator 30.

As the heat exchange medium, air or water may be used. When air is used, it can be used as a method of directly discharging it to the indoor space of a building by hot air for winter heating. Alternatively, when water is used, hot air can be produced using another heat exchanger, or directly used as floor heating water in a home.

When the heat exchanger 50 is used as described above, the energy of the dryer 10 can be improved because the heat of the malodor exhaust gas can be recovered and utilized.

In addition, since the malodor flue gas is cooled while passing through the heat exchanger 50 and the temperature is lowered, it is possible to prevent damage to the water removal membrane 32 due to the high temperature when it flows into the water eliminator 30, It is possible to reduce the temperature of the steam discharged from the steam generator.

As described above, according to the present invention, the exhaust gas outlet 12 of the dryer 10 and the air inlet 11 are connected to the circulation duct 60.

Therefore, the odor gas exhausted during the drying of the organic waste in the dryer 10 is circulated repeatedly through the circulation duct 60 and the dryer 10 without being discharged to the outside of the dryer 10.

In this process, the moisture contained in the malodor exhaust gas is separated and discharged from the malodor exhaust gas passing through the water eliminator 30, and only the malodorous components are re-supplied into the dryer 10 together with the dry air.

Since the gas in the dryer 10 is forcibly sucked by the induction fan 20 and discharged to the outlet 12 of the flue gas, the inside of the dryer 10 A negative pressure is applied to the outer space so that the odor exhaust gas generated in the dryer 10 is prevented from being discharged to the outside of the dryer 10. [ It is possible to leak minute odor components, but the amount is small, so it can not be detected by a person if it spreads in the atmosphere.

Thus, the malodorous component repeatedly circulates through the circulation path including the dryer (10) and the circulation duct (60), and is not discharged to the outside of the dryer (10).

Therefore, the odorous flue gas is not diffused in the vicinity of the dryer 10, and complaints caused by the malodor problem do not occur.

In addition, since the odor gas is not discharged to the outside, it is not necessary to provide a separate odor elimination facility, so that the installation area of the apparatus is reduced and the cost for installation and operation of the equipment is reduced.

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 embodiments, but, on the contrary, It is understandable. Accordingly, the true scope of the present invention should be determined by the following claims.

10: dryer 11: air inlet
12: Flue gas outlet 20: Manned fan
30: water eliminator 31: casing
31a: Water vapor outlet port 32: Moisture removal membrane
33: front cover 33a: flue gas inlet
34: rear cover 34a: dry air outlet
40: filter 50: heat exchanger
51: Heat exchange medium flow tube 60: Circulation duct

Claims (7)

A dryer in which organic wastes are introduced and dried,
A circulation conduit connecting the air inlet of the dryer to the outlet of the exhaust gas,
And an induction fan installed at the outlet of the exhaust gas,
And the odor gas exhausted from the dryer flows into the dryer through the circulation duct and is repeatedly circulated. The method according to claim 1,
And a water eliminator is installed in the circulation duct to remove water contained in the odor gas exhaust gas. The method of claim 2,
The water eliminator includes a casing having a water vapor outlet formed on a side surface thereof, a moisture removing film inserted into the casing, a front cover provided at one end of the casing and provided with an exhaust gas inlet, a rear cover provided at the other end of the casing, Wherein the odorous flue gas recirculation device comprises a cover. The method of claim 3,
Wherein the moisture removal membrane comprises a plurality of hollow fiber membranes joined together in a bundle shape. The method of claim 2,
Wherein a filter is installed at a previous portion of the water eliminator of the circulation duct to prevent dust from flowing into the water eliminator. The method of claim 2,
Wherein a heat exchanger is installed at a previous portion of the water eliminator of the circulation duct to recover the heat of the odor gas and lower the temperature of the odor gas. The method of claim 6,
Wherein the heat exchanger includes a heat exchanger body provided in a circulation conduit and a heat exchange medium flow pipe through the heat exchanger body.

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