EXHAUST GAS PROCESSING DEVICE INCLUDING PACKING SUPPORT MEANS HAVING DIFFUSION FUNCTION

Hereinafter the present invention according to an exhaust gas treatment device in a packing solution on the support means with reference to the attached drawing detailed as follows. The present invention without a special definition is used to specification is provided to all term usual knowledge to understand the terms with the same general descriptor if the meaning of the terms used in the specification the semantics and collision if used in the specification defined according to disclosed. In addition, the subject matter of invention can be breach of publicly known function and setting up an analogy described dispensed to each other.

In the present invention a multi-engine exhaust gas, such as boiler combustion device for driving means and burning fuel gas generated in the process, sulfur oxides (SOx) in the exhaust gas said harmful material is said exhaust gas, nitrogen oxides (NOx), PM (Particular Matter, particulate matter) will other. The present invention according to an exhaust gas treatment device packing solution on the support means in treating exhaust gas is applied only to a ship to ship attain but more limited use.

Also with reference to the 1 to 3, an exhaust gas treatment device of the present invention solution is one in the embodiment according to packing support means, preprocessor (11), connection (12), post-processor (13) having a predetermined wavelength.

Also refer to 4, so that they travel within said exhaust gas treatment device of the exhaust gas processing residual simply as follows. Flow of gas in Figure 4 arrows have coarse, dashed lines is the cleaning solution, is discharged by big protruded from the character string.

Said preprocessor (11) exhaust gas produced by combustion and exhaust gas inlet (1112) is introduced via a toxic material made in riga [su the primary reduction pre pre riga [su outlet (1113) and out through the other. Said connection (12) is pre-riga [su said said post-processor (13) into the reaction chamber. Said post-processor (13) is pre-riga [su inlet (1312) is introduced via a pre riga [su additionally pollutants in the after a stand-alone number riga [su outlet (1313) by processing the thin film substrate.

Said preprocessor (11) in the exhaust gas in said flushing is a stand-alone number for said preprocessor (11) of the nozzle inlet (1114) and enters solution used in said post-processor (13) pre riga [su pollutants in a stand-alone number for said post-processor (13) of the nozzle inlet (1314) used washing liquid enters said preprocessor (11) and said post-processor (13) each formed by lower cleaning liquid outlet (1115, 1315) discharged through a substrate.

The present invention if applied to a ship or sea water is used as the alkali added number said cleaning liquid can be fresh water or salt water mixed with it, said engine or a boiler exhaust gas in the combustion apparatus is formed in said ship to said SOx (SOx) and PM can be harmful material is means.

Said preprocessor (11) exhaust gas produced by combustion and serves to reduce the harmful substances primarily in a plurality of hierarchies. 2 To 5 can be also by selecting as, said preprocessor (11) includes a preprocessor housing (111), number 1 pre-participle means (112), fermentor (113), number 2 pre-participle means (114) comprises.

Said preprocessor housing (111) is said preprocessor (11) and the exterior of the, said inside portion and forming a path for flow of the exhaust gas are disclosed. Said preprocessor housing (111) inner wall (1111), exhaust gas inlet (1112), pre-riga [su outlet (1113), cleaning liquid inlet (1114) and cleaning liquid outlet (1115) without using a tool. The reference also 1 to 5, in the embodiment of the present invention in one said preprocessor housing (111) is formed on the first cylindrical towers, preprocessor housing said exhaust gas inlet (111) at the top of the lower number which can be resized to move the harmful substances produced in the exhaust gas of flow path formed on the substrate.

Said inner wall (1111) is said preprocessor housing (111) of the exhaust gas flow path to the interior of said transparent layer are disclosed. The reference 2 also, in the embodiment of the present invention in one, said inner wall (1111) is said preprocessor housing (111) of the exhaust gas flow path formed inside said cylindrical etc..

Said exhaust gas inlet (1112) is said preprocessor housing (111) into the interior of the ceramic portion are disclosed. By selecting as can be 2 to 5 also, said exhaust gas inlet (1112) is said preprocessor housing (111) is formed on the top of the, said exhaust gas inlet (1112) exhaust gas inlet through said inner wall (1111) formed along a cylindrical flow path underneath to the TFTs.

Said pre-riga [su outlet (1113) is said preprocessor (11) part number for reparing over exhaust gas discharged harmful substances primarily in pre riga [su are disclosed. 2 To 5 can be also by selecting as, said pre-riga [su outlet (1113) is said preprocessor housing (111) is formed on one side of, said pre-riga [su outlet (1113) pre riga [su discharged through said connection (12) through said post-processor (13) are supported.

Said cleaning liquid inlet (1114) is said preprocessor (11) in the interior of the injection solution is disposed between the stator portion are disclosed. 5 Can be also by selecting as, said cleaning liquid inlet (1114) number 1 is pre participle means (112) and number 2 pre-participle means (114) respectively coupled to or formed in the nanometer range.

Said cleaning liquid outlet (1115) is said exhaust gas inlet (1112) through said preprocessor housing (111) to enter the interior of the number 1 every other number harmful substances of exhaust gas pre-participle means (112) and said number 2 pre-participle means (114) off portion inserted into solution are disclosed. As shown in the 2 to 5 also, said cleaning liquid outlet (1114) is said preprocessor housing (111) located where, said cleaning liquid outlet (1114) said number 1 through pre-participle means (112) and said number 2 pre-participle means (114) for capturing said harmful substances in the exhaust gas by the cleaning solution sprayed by said preprocessor housing (111) can be externally exhausted through the bottom of the mobile to be coated. Smooth evacuation of said cleaning liquid to said preprocessor housing (111) the bottom of said cleaning liquid outlet (1114) form preferably formed toward convergence.

Said number 1 pre-participle means (112) is said preprocessor housing (111) inside of said exhaust gas inlet (1112) is arranged in the vicinity of said exhaust gas inlet (1112) are provided with through inlet portion to inject a cleaning fluid are disclosed. As said cleaning solution include the aforementioned, seawater, fresh water is mixed with alkali is used as the number can be added.

Said number 1 pre-participle means (112) is said exhaust gas inlet (1112) cooling the exhaust gas is introduced via a main substrate. Said gas inlet (1112) is introduced via a exhaust gas generally has a temperature of 250 provided 350 °C to, said number 1 pre-participle means (112) and the injection by the predetermined cleaning solution 50 provided 50 °C is also the temperature down, volume is lowered and the substrate.

In addition, pre-participle means said number 1 (112) is said harmful substances in the exhaust gas and also in particular among, for trapping PM by the predetermined cleaning solution produced is permitted by the substrate. Said number 1 pre-participle means (112) the exhaust gas in the second portion comes into contact with the washing liquid fermentor (113) and through, and in a helix straight flow path by changing traffic lights to, number 2 pre participle means (114) with the washing liquid injection contact with each other. The pre-participle means said number 1 (112) is to increase the size of the collected cleaning liquid injection thereby generating the movement of said preprocessor housing (111) to be coated into the bottom of the movement.

Said number 1 pre-participle means (112) said number 2 is pre-participle means (114) spraying said cleaning solution compared to form fine droplets preferably characterized. Specifically said number 1 pre-participle means (112) having a grain size of 100 - 200 m in said cleaning solution injection into the micro droplets can be characterized. The particle diameter of the exhaust gas a hazardous material during said PM 0. 1 - 0. 5 Micro m which is about, said cleaning liquid particle diameter of 100 - 200 micro m in cold and hot water to a washing liquid as droplets when injected into said PM efficiently used to aggregate to effective.

6 And 7 also reference surface, one in the embodiment of the present invention in, said number 1 pre-participle means (112) is rod-shaped injection body (1121) on, said injection body (1121) formed to one end of the injection opening (1122) and includes a, said injection body (1121) supply means (not shown) the washing liquid from said cleaning liquid inlet (1114) be compressed air supplied through the washing liquid. Said injection body (1121) together with said washing liquid receives compressed air injection opening (1122) 620, said injection opening (1122) said exhaust gas washing liquid towards each other.

On the other hand, pre-participle means said number 1 (112) is said preprocessor housing (111) inner wall of (1111) on the flow path of exhaust gas formed by said cross sections perpendicular to the direction of the exhaust gas thereof is horizontally placed at the, said inner wall (1111) toward the center of the flow path in said assembly rotates the wafers are disposed a covering 106. This arrangement permits through said exhaust gas inlet (1112) enters said fermentor (113) directs the exhaust gas can be efficiently spraying the cleaning solution.

Said number 1 pre-participle means (112) particular shape of pre-participle means installed on the truss and said number 1 (112) injection capacity and said preprocessor (11) depending on the design the overall length can be.

Said fermentor (113) is said preprocessor housing (111) inside said number 1 of pre-participle means (112) and said number 2 pre-participle means (114) disposed between said exhaust gas flow path on curved, preferably spirally flow path that plays a role in forming the portion are disclosed. In the embodiment of the present invention in one, said preprocessor housing (111) to the formation of vertical upper underneath at exhaust gas flow path, said fermentor (113) is said exhaust gas inlet (1112) to enter the downward progress of the exhaust gas flow straight through curved, preferably spirally's is connected substrate.

Said fermentor (113) of the exhaust gas flow path by said flow in said flow path when each other are curved into a straight on and, as a result said number 2 pre-injection means (114) is equal to the cleaning solution by contact time is increased. the exhaust gas entrapped by the predetermined cleaning solution or harmful substances said pluralities of said PM said SOx to be coated. the fermentor (113) is said exhaust gas inlet (1112) which are arranged preferably adjacent.

the fermentor (113) through said preprocessor housing (111) between the inner space of the harmful substances in the exhaust gas supplied through that permits the number contrast, said preprocessor (11) between the auger and the height height of harmful substances in the exhaust gas completely or further improve number is equal to or higher. As a result in accordance with the smaller than that of the equipment.

The 8 and 9 also reference, said fermentor (113) is disposed to cover the flow path is disposed, central body (1131), blade plates (1132) and space (1133) and includes a, said wing (1132) coupled outside of flange (1334) by said preprocessor housing (111) inner wall of (1111) only the chin formed (1111a) are correlated by guide disposed a. According said fermentor (113) is said preprocessor housing (111) inner wall of (1111) coupled via a processing such as welding is of a plate-like are arranged in the disapproval.

Said body (1131) is said fermentor (113) is a part of the narrative, said wing (1132) is said body (1131) radially with a predetermined torsion bar connecting. In addition, said space (1133) respective said wing (1132) between said exhaust gas is provided at each said wing (1132) portion can pass through without impinging on an are disclosed.

As shown in the variation also 8, in the embodiment of the present invention in one, said fermentor (113) is, said body (1131) along the exterior surface of cover has 6 30° intervals (1132) distorts the rope when the driving, each said wing (1132) between said space (1133) is formed characterized the.

Said fermentor (113) is the printed circuit board when said fermentor (113) through the flow of exhaust gas due to the helical form, said preprocessor housing (111) inner wall of (1111) along the direction of movement of the exhaust gas flow path formed by center may be formed into unsymmetrical shape extended from one end, and flow guide, said number 1 pre-participle means (112) and said number 2 pre-participle means (114) captured by the harmful substances in said exhaust gas cleaning injection housing (111) inner wall of (1111) to equal to or higher than the surface of the resultant structure.

On the other hand, each said wing (1132) between said space (1132) when the output of said exhaust gas inlet (1112) exhaust gas drawn through said fermentor (113) receive the output of the pressure loss rate when passing through, said flow of exhaust gas on undesirable disclosed.

In addition, said fermentor (113) comprises a non-rotating housing is unnecessary and preferably characterized. This said exhaust gas inlet (1112) through the exhaust gas flowing into said outlet generally pre-riga [su (1113) towards the fluid feed rate is sufficiently stores, eliminate the need for a separate energy of a straight flow path on said exhaust gas's oldest.

Said number 2 pre-participle means (114) is said preprocessor housing (111) inside of said fermentor (113) and said pre-riga [su outlet (1113) disposed between said fermentor (113) via said exhaust gas that progress spirally flow path portion to inject a cleaning fluid are disclosed.

Said number 2 pre-participle means (114) is said fermentor (113) through said preprocessor housing (111) to be located beneath a pre-riga [su outlet (1113) preferably curved toward, helically progress by injecting said number 1 exhaust gas that cleaning solution additionally pre-participle means (112) inserted into exhaust gas cleaning solution contained in the harmful substances such as PM collected by inducing aggregation state makes the size and greater, said preprocessor housing (111) inner wall of (1111) or a surface of the resultant structure said preprocessor housing (111) efficiently fall into the bottom of thereby allowing the other.

Pre participle means said number 2 (114) said number 1 is then pre-participle means (112) in the collected state inserted into exhaust gas harmful substances such as PM powder by means of size for said number 1 pre-participle means (112) to inject a cleaning fluid injection is used than users preferably large particle diameter. Specifically said number 2 pre-participle means (114) is said cleaning solution particle diameter 500 - 1, 000 micro m preferably in injection into droplets.

The reference 10 and 11 also, in the embodiment of the present invention in one, said number 2 pre-participle means (114) is rod-shaped injection body (1141) on, said injection body (1141) at regular intervals in a plurality of injection to branched side (1142) on, each said injection to (1142) environmental pollution predetermined rate injection opening (1143) contains a. Said injection body (1141) supply means (not shown) the washing liquid from said cleaning liquid inlet (1114) be compressed air supplied through the washing liquid. Said injection body (1141) compressed air supplied together with the washing liquid by forming said injection to (1142) 620, said injection opening (1143) said exhaust gas washing liquid towards each other.

Said number 2 pre-participle means (114) said number 1 is pre-participle means (112) to inject a cleaning fluid relative to said injection nozzle (1143) interleaved structure to more tightly hold form, this said fermentor (113) spirally flow path via said exhaust gas toward the rectangular area that can be used to advantageously operates the cleaning solution without's oldest.

Said number 1 pre-participle means (112) as aforementioned with respect to, said number 2 pre-participle means (114) disposed shape of the center of gravity of said number 2 specific pre-participle means (114) injection capacity and said preprocessor (11) depending on the design the overall length can be.

Said connection (12) is said preprocessor (11) exhaust gas is reduced harmful substances primarily in pre riga [su said post-processor (13) portion to move are disclosed. The reference also 2 to 4, said connection (12) has one end said preprocessor housing (111) for pre-riga [su outlet (1113) taken out, and the other said post-processor housing (131) for pre-riga [su inlet (1312) comprises passages communicates with each other.

Said post-processor (13) is said preprocessor (11) exhaust gas is reduced harmful substances produced by pre riga [su number serves additionally harmful substances in a stand-alone a plurality of hierarchies. 1 To 4 and also the reference also 12, said post-processor (13) comprises a post-processor housing (131), spreading means (132), packing (133), packing support means (134), post-participle means number 1 (135), number 2 post-participle means (136), odd separating means (137), transfer (138), emaciation blocking means (139) having a predetermined wavelength.

Said post-processor housing (131) is said post-processor (13) and the exterior of the, pre-riga [su flow path portions forming said inside are disclosed. Said post-processor housing (131) inner wall (1311), pre-riga [su inlet (1312), post-riga [su outlet (1313) and cleaning liquid outlet (1315) without using a tool. Also as shown in the variation 2 and 12, in the embodiment of the present invention in one, said post-processor housing (131) is formed on the first cylindrical towers, one side is introduced via a pre riga [su in said direction to move the pre-riga [su which can be volatile harmful substances additionally number form flow paths.

Said inner wall (1311) is said post-processor housing (131) to the interior of said pre-riga [su flow path portions forming are disclosed. The reference also 2 and 12, said inner wall (1311) is said post-processor housing (131) formed inside said cylindrical flow path of the exhaust gas etc..

Said pre-riga [su inlet (1312) is said post-processor housing (131) into the interior of the pre-inlet part riga [su are disclosed. Also as shown in the 2 to 4 and also 12, said pre-riga [su inlet (1312) is said post-processor housing (131) is formed on one side of, said pre-riga [su inlet (1312) is introduced via a pre riga [su said inner wall (1311) is displaced upwards along a cylindrical flow path formed to be coated.

Said post-riga [su outlet (1313) is said post-processor (13) additionally in number for reparing over pre post riga [su harmful substances discharged portion are disclosed. Also as shown in the 2 to 4 and also 12, said post riga [su outlet (1313) is said post-processor housing (131) being formed on top of the, said post riga [su outlet (1313) exhaust gas is discharged through the post riga [su query number to notify said preprocessor wetting ability (11) and said post-processor (13) can be discharged into the atmosphere been made by.

Said cleaning liquid inlet (1314) includes said post-processor (13) is disposed between the stator portion inside the injection solution are disclosed. 2 And 12 can be also by selecting as, said cleaning liquid inlet (1314) is number 1 post participle means (135), number 2 post-participle means (136) and cleaning means (138) connected to or formed in the nanometer range.

Said cleaning liquid outlet (1315) is pre-riga [su said inlet (1312) through said post-processor housing (131) to enter the interior of the number 1 every other number riga [su harmful substances in pre post participle means (135) or said number 2 post-participle means (136) off portion inserted into solution are disclosed. 2 To 4 can be also 12 and also by selecting as, said cleaning liquid outlet (1315) includes said post-processor housing (131) located where, said cleaning liquid outlet (1315) said number 1 through post-participle means (135) and said number 2 post-participle means (136) in said flushing is inserted into a pre-riga [su said post-processor housing collecting the cleaning solution (131) can be externally exhausted through the bottom of the mobile to be coated. Smooth evacuation of said cleaning liquid to said post-processor housing (131) the bottom of said cleaning liquid outlet (1315) form preferably formed toward convergence.

Said spreading means (132) is said post-processor housing (131) inside of said pre-riga [su inlet (1312) disposed adjacent to said pre-riga [su inlet (1312) is introduced via a pre-riga [su diffuse close the pipe are disclosed. The reference also 13 to 15, said spreading means (132) is pre-riga [su said inlet (1312) are disposed in a state in which the front of the, body (1321) and fastening portion (1322) contains a.

Said body (1321) is pre-riga [su said inlet (1312) is disposed which cover the front of the collection part can pass through said pre-riga [su (1321a) having member are disclosed. Said body (1321) is a plate-like member can be formed. Also 14 and 15 as shown in the variation, said body (1321) it is overall said pre-riga [su inlet (1312) shaped in the form of covering the front of the vertically, said body (1321) D4 said pre-riga [su inlet (1312) side can be in the form of not tilt or bending.

Thus some residual, said body (1321) each supporting frames are said pre-riga [su inlet (1312) side and inclined direction, said body (1321) the bottom of the pre-riga [su inlet (1312) downward side surface inclined in the nanometer range. Said body (1321) is shaped as a through said inlet pre-riga [su of cyclohexane carboxylic acid (1312) is introduced via a front and comprises an upper pre-riga [su can be spread uniformly to be coated. Said body (1321) is not tilt or bending the lower generally shaped in the form of not only form rather than bending disapproval.

Said diffusion (1321a) includes a plurality of aperture can, said diffusion (1321a) uniformly arranged at environmental pollution through holes can be formed. However said diffusion (1321a) has the aperture is defined by a low voltage, said diffusion (1321a) form of a slit or the like is disapproval.

Said body (1321) the support, said diffusion (1321a) size of form, number or the like is said post-processor (13) can be depending on such as the throughput capacity.

Said coupling part (1322) includes said post-processor housing (131) formed in the fixing portion (1311b) by fastened to said spreading means (132) is said post-processor housing (131) can be fixed in the interior of which allows it to be portion are disclosed. The reference also 13 and 14, said coupling part (1322) is said body (1321) in said left side pre riga [su inlet (1312) side so that a vertically extending or bent in the form of a, said post-processor housing by fastening means such as bolt (131) formed in the fixing portion (1311b) by fastened to said spreading means (132) is said post-processor housing (131) to be fixed in the interior of the main body.

Said preprocessor (11) a generic query comprising said exhaust gas to notify produced by pre riga [su fermentor (113) by a spiral flow path altered the surface plate said pre-riga [su outlet (1312) is dried to form said connection (12) via said pre-riga [su inlet (1312) even when a state of exhaustion having a certain degree of entering the rotating energy. the post-processor housing (131) enters the interior of the housing while said post-processor (131) inner wall of (1311) during said pre-riga [su inlet (1312) side flow and concentration of, said post-processor housing (131) pre riga [su flow path formed therein uniformly dispersed the tropics.

Said spreading means (132) said pre-riga [su the post-processor housing (131) when introduced into the narrow cross-sectional area and having a nozzle made by, said pre-riga [su said post-processor housing (131) can be spread uniformly into the interior of the main body. Said pre-riga [su through said post-processor housing (131) uniformly distributed on the flow path formed therein pre riga [su is equal to or higher. I.e., said spreading means (132) through said packing (133) uniformly distributed into pre-riga [su to said packing (133) and is riga [su in pretreatment in SOx absorption efficiency, capture efficiency equal to or higher than other primary and secondary layers are guaranteed.

On the other hand, as also indicated by 13 and 14, said spreading means (132) is pre-riga [su said inlet (1312) 2 successively placed in front of the two which, through said spreading means (132) is formed on the circumference be more uniform.

Said packing (packing, 133) is opened number 1 described in post-participle means (135) and number 2 post-participle means (136) said pre-riga [su makes large contact area with the washing liquid injection controlled are disclosed. Said packing (133) is said post-processor housing (131) inside said spreading means (132) of, said pre-riga [su is arranged on the flow path is formed on said cleaning solution/liquid contact to said pre-riga [su and containing alkali or sea water by adding fresh water or salt water solution through said pre-riga [su number consists of harmful substances in the tire a SOx smoothly down to substrate.

Said packing (133) to a plurality of filling material collected electricity, said filler material comprising a steel (steel), ceramic, it is tested can be made of plastic material. In addition, said packing (133) of the consensus pattern without the shape of the filler are interesting region random (random) is prepared for use in structures such as packing (structured) packing having pattern can be applied. Said packing (133) is said post-processor (13) A15 form s402. throughput capacity and length according to the design.

Said packing support means (134) is said packing (133) is pre-riga [su spreads the lower supporting said main portion is disclosed. 16 And 17 also reference surface, said packing support means (134) is pre-riga [su flow paths and said cover, said post-processor housing (131) inner wall of (1311) formed with an inwardly toward only the chin (1311a) and the lamp screen is placed inside, are then placed atop a packing (133) support the foot panel 50. In the present invention said packing support means (134) is said pre-riga [su said packing (133) which spreads at the bottom of solution characterized to have.

Said packing support means (134) is pre-configured to riga [su said can pass through the penetration (134a) and a support said packing (134b) contains a. Specifically said support (134a) is strand and cross structure, said penetrations (134a) is said support (134b) characterized aperture formed by the metal layers. I.e., said packing support means (134) cross structure support (134b) section by mesh structure (134a) form disclosed. The mesh structure in order to ambient through said resultant can be pre riga [su.

Said packing support means (134) is said diffusion (134a) ratio of i.e., mesh structure by which the ratio of through-hole by the general mesh structure relative to minimize pressure loss increase said pre-riga [su penetrating area bigger pre riga [su, specifically said diffusion (134a) said support ratio (134b) is preferably 1 to 2 - 4 can be embodied as a degree of vertical projection plane.

On the other hand, as shown in the variation also 16, said support (134b) water is preferably characterized by at least a portion of the twist. Said support (134b) if there is such a twist structure formed by said penetrations have (134a) during pre-riga [su through said support (134b) riga [su confirms the twist direction is equal to said pre-travel direction progression. As a result said pre-riga [su can be spread so as to more widely, and case made more uniform pre-riga [su dispersion and diffusion to be coated.

In the present invention said packing support means (134) are reduced said packing (133) serves not rest on the support, said packing (133) pre riga [su introduced into said packing (133) uniformly distributed the whole area of the main body. As a result said packing support means (134) through said packing (133) and is riga [su in pretreatment in SOx absorption efficiency, capture efficiency equal to or higher than other primary and secondary layers are guaranteed.

In a radiator, said packing support means (134) is acid (1341) on valleys (1342) side by side preferably successively bending leading water. Continuous subsequent bending structure inserted in the cross-sectional area contrast to the air side said packing (133) the acid (1341) can be supported by more stable to allow substrate. Further this construction allows said packing (133) pre-riga [su pressure into the space between the support means toward said packing (134) uniformly dispersed to be transmitted through said packing (133) at the bottom of said packing (133) flowing towards the pre-riga [su said packing (133) diffused into the bottom of the particles to be achieved's desire.

Said number 1 post-participle means (135) includes said post-processor housing (131) is arranged on the inside of said flow path portion toward said pre-riga [su pre-riga [su to inject a cleaning fluid are disclosed. Said number 1 post-participle means (135) is said packing (133) disposed on a top of said packing (133) to inject a cleaning fluid toward the other.

Also 12, 18 and 19 is also refers, in the embodiment of the present invention in one, said number 1 post-participle means (135) is rod-shaped injection body (1351) on, said injection body (1351) at regular intervals in a plurality of injection to branched side (1352) on, each said injection to (1352) environmental pollution predetermined rate injection opening (1353) is capable of a, said injection body (1351) combined with the injection to (1352) (not shown) compressed air is supplied to a cleaning fluid delivery means further includes a cleaning liquid can be. Said cleaning fluid delivery means (not shown) compressed air is supplied from the cleaning solution and said cleaning liquid inlet (1314) through said injection body (1351) feed. Said injection body (1351) compressed air supplied together with the washing liquid by forming said injection to (1352) 620, said injection opening (1353) said exhaust gas washing liquid towards each other.

Said number 1 post-participle means (135) particular shape of post-participle means installed on the truss and said number 1 (135) injection capacity and said post-processor (13) can be depending on design the overall length.

Said number 2 post-participle means (136) is said post-processor housing (131) is arranged on the inside of said flow path said number 1 is to inject a cleaning fluid toward said pre riga [su riga [su pre post participle means (135) characterized will operate independently. Independent actuation is also 19 on a number control unit (C) such as can be achieved by means of an opposite side of number. Said number control unit (C) said number 1 is post-participle means (135) and said number 2 post-participle means (136) of cleaning solution injecting independently the number to be made possible in a plurality of hierarchies.

Also 12, 18 and 19 is also refers, in the embodiment of the present invention in one, said number 2 post-participle means (136) is rod-shaped injection body (1361) on, said injection body (1361) at regular intervals in a plurality of injection to branched side (1362) on, each said injection to (1362) environmental pollution predetermined rate injection opening (1363) and includes a, said injection body (1361) combined with the injection to (1362) (not shown) compressed air is supplied to a cleaning fluid delivery means further includes a cleaning liquid can be. Said cleaning fluid delivery means (not shown) compressed air is supplied from the cleaning solution and said cleaning liquid inlet (1314) through said injection body (1361) feed. Said injection body (1361) compressed air supplied together with the washing liquid by forming said injection to (1362) 620, said injection opening (1363) said exhaust gas washing liquid towards each other.

Said number 2 post-participle means (136) particular shape of post-participle means installed on the truss and said number 1 (135) as through a browser associated with, said number 2 post-participle means (136) injection capacity and said post-processor (13) can be depending on design the overall length.

Said number 2 post-participle means (136) is said number 1 post-participle means (135) and independently operated said number 2 frames are post-participle means (136) is said number 1 post-participle means (135) to inject a cleaning fluid selectively or simultaneously may be big. The engine according to the load of exhaust gas produced by combustion and said preprocessor (11) flowing from its corresponding changes pre amount riga [su is connected to a suitable means of injection can be and, as a result said post-processor (13) diameter of number operating position the substrate.

Said number 2 post-participle means (136) is said number 1 post-participle means (135) disposed a spaced apart from the top of. Said number 2 post-participle means (136) and said number 1 post-participle means (135) on said horizontal plane when placed in one of said flow paths is pre riga [su pre-riga [su preclude flow resistance to a thickness said number 2 post-participle means (136) and said number 1 post-participle means (135) uses the disposed preferably different.

In addition, further post-participle means said number 1 (135) and said number 2 post-participle means (136) disposed on said different flow path while the vertical projection is preferably disposed in the state of crossing each other upon pre-riga [su more preferably. This arrangement permits through flow path on said rectangular area uniformly without pre riga [su in riga [su may be injected so as to pre-cleaning solution, more volatile harmful substances can be effectively performing riga [su pre-in number to be coated.

Wherein, said number 1 post-participle means (135) and said number 2 post-participle means (136) is used for pre-injection through said harmful substances in which volatile under number riga [su heat mechanism such as disclosed.

Sulfur oxides (SOx) and said pre-riga [su acidic material used including harmful substances such as PM, said number 1 post-participle means (135) and said number 2 post-participle means (136) for neutralizing such pollutants directly can aggregate to form the number alone to inject a cleaning fluid substrate. Generally 0. 1 - 0. 5Um of PM is first oxidize non-(100 provided 200um) agglomerated by size to a polarization component. In addition, sulfur oxides (SOx) required to neutralize acid basic of the nozzle which, when subjected to a neutralization reaction through the additional number added fresh alkaline inducing substrate.

The, said alkaline NaOH (sodium hydroxide) is added number, Na₂ CO₃ (Sodium carbonate) or NaHCO₃ (Oxoborate) capable of disclosed. The sulfur oxides (SOx) of NaOH added by the predetermined cleaning solution to a neutralization reaction as follows.

SO_{2 (G)} + 2NaOH_(Aq) + (1/2) O_{2 (G)} → 2Na⁺ + SO₄^{2 -} + H₂ O

However the present invention is the aforementioned brine if applied to a ship as seawater (Sea Water) as a rinse liquid may be filled. Sodium chloride (NaCl) generally the seawater, magnesium chloride (MgCl₂ ), Potassium chloride (KCl) including seawater caused so that they like to Cl^- , SO₄^{2 -} , Br^- Anion such as is due to pH 7. 8 - 8. 3 Artificial pearl about weakly basic a to be coated. The seawater by employing separate rinse added number if such SOx (SOx) without the cam turned alkaline neutralization the pin is.

The, by seawater to a neutralization reaction type is as follows as regards, first space of the sulfur dioxide (SO₂ ) Are mixed with water.

SO_{2 (G)} + H₂ O_(L) ↔ H₂ SO_3(Aq)

In C2 where it is then automatically, this is as follows.

2H₂ SO_3(Aq) + OH^- ↔ 2HSO₃^-_(Aq) + H⁺_(Aq) + H₂ O_(Aq)

2HSO₃^-_(Aq) + OH^-_(Aq) ↔ 2SO₃^2-_(Aq) + H⁺_(Aq) + H₂ O_(Aq)

I.e., seawater sulphur dioxide from said reaction are absorbed via sulfate salt.

Said odd separating means (137) is said post-processor housing (131) inside of said number 2 post-participle means (136) disposed on a top of said number 2 post-participle means (136) via said pre-riga [su flowing liquid droplet separating part plays a role in flow paths are disclosed. Said odd separating means (137) is said post-processor housing (131) inner wall of (1311) formed with an inwardly toward only the chin (1311a) in such a way that the outer and inside.. disposed thereon.

Said odd separating means (137) is the form of an aerosol of droplets or mist (mist) see you holding riga [su and said pre-generated separation, filtration, wherein at least one of recovery serves, appearing in the form a zigzag blade (blade) at an vertical cross section in the direction separated from each disposed can be configured in the form. In addition said odd separating means (137) is said post-processor (13) or temperature and chemical properties according to the design of specific as solid s402.

Said cleaning means (138) is said post-processor housing (131) inside of said number 2 post-participle means (136) of the upper and said odd separating means (137) of the aerobic said odd separating means (137) to inject a cleaning fluid toward a portion is disclosed.

The reference also 12, 20 and 21, in the embodiment of the present invention in one, said transfer wire (138) is rod-shaped injection body (1381) on, said injection body (1381) at regular intervals in a plurality of injection to branched side (1382) on, each said injection to (1382) environmental pollution predetermined rate injection opening (1383) and includes a, said injection body (1381) combined with the injection to (1382) (not shown) compressed air is supplied to a cleaning fluid delivery means further includes a cleaning liquid can be. Said cleaning fluid delivery means (not shown) compressed air is supplied from the cleaning solution and said cleaning liquid inlet (1314) through said injection body (1381) feed. Said injection body (1381) compressed air supplied together with the washing liquid by forming said injection to (1382) 620, said injection opening (1383) said washing liquid odd separating means (137) towards each other.

Said odd separating means (136) in the pre-riga [su PM collected pollutants such as of liquid droplet or mist, filtration, or recovering process which can get contaminated, said transfer wire (138) is said odd separating means (137) by the cleaning liquid to be scrubbed first by said odd separating means (136) and a current occlusion protect substrate.

In addition, said cleaning means (138) the cleaning nozzle said odd separating means (137) is repeatedly separated by size of fine droplets or mist of the oil mist by the pollutants collected liquid droplet or the large droplets is passed into the post-processor housing (131) into the bottom of the efficient or drop into said post-processor housing (131) inner wall of (1311) and to lower a shard-shaped space to other.

Said numerically blocking means (139) is said post-processor housing (131) inner wall of (1311) rises through said post to riga [su outlet (1313) plays a role in blocking portion being interposed between the numerically are disclosed. The reference also 12, 22 and 23, said numerically blocking means (139) the blocking wall (1391) contains a. In addition, said numerically blocking means (139) is said post riga [su outlet (1313) in the vicinity of water droplets collection collection space (1392) being interposed between the external formed the numerical protect substrate. Said collection space (1392) form which can be collected from the numerical fall lower seal and disposed therein.

Said post-riga [su outlet (1313) is said post-processor housing (131) which are formed in an upward direction on top of, said numerically blocking means (139) is said post riga [su outlet (1313) of boundary with a downward extending barrier (1391) contains a. Said barrier (1391) housing the post (131) is captured between the upper end of the inner wall space (1392) formed's desire. Said post housing (131) the upper end of the inner wall (1311) inclined toward the outlet formed in the converge toward said post riga [su wherein, said barrier (1391) is said collection space (1392) droplet formation and efficient shield for the effective external exhaust in a preferably extending downward vertical characterized.

Said pre-riga [su said post-processor (13) formed therein pre riga [su gradually increased along the flow path, the outlet post while volatile harmful substances additionally number riga [su said post riga [su (1313) out through the discharge therefrom. During this process pre-flushing riga [su some of the post-processor housing comprising numerically in the collected cleaning (131) inner wall of (1311) and raised to other said post-processor outlet (1313) to be moved toward to be coated.

Said post-processor housing (131) the upper end of the inner wall (1311) and to other said post riga [su outlet (1313) has been moved up to the edge of said barrier is numerically (1391) is equal to suffering. In addition, said barrier (1391) and said post riga [su outlet (1313) around post-processor housing (131) inner wall of (1311) each other water-to help the collection space between the numerical (1392) has a thickness of 500 said collection space (1392) size and weight and in aggregation of the numerical index of said post-processor housing (131) into the bottom of the accomplish the is equal to or higher.

the water droplets blocking means (139) is collected in said post-processor outlet are numerically riga [su pre-flushing (1313) in which the main body is interrupted, said post-processor housing (131) falling into the bottom of the separated thereby allowing the other.

Above, the applicant of the present invention various in the embodiment described but, in the embodiment of the present invention are technical idea one in the embodiment implementing such one is received, technical idea of the present invention implementing a range of the present invention transistor should for any change or an modified interpreted.