DE212015000281U1 - A waste processing apparatus - Google Patents

Abstract

Waste treatment apparatus (1) usable in a seagoing vessel (V), comprising at least one waste receiving unit (2), at least one waste conveying unit (3), at least one combustion furnace unit (4) provided with an outlet (7) and at least one with the outlet (7) connected flue gas line (8), wherein in the seagoing ship usable waste treatment plant (1) comprises a line cooling (10) comprising a water injection device (11) with a water discharge nozzle (12) for supplying a water flow directly into the flue gas duct (8) at a certain location (A) of the flue gas duct (8) and a compressed air blowing device (16) for supplying compressed air into the water flow, wherein the compressed air blowing device (16) with the water injection device (11) is connected so that it is arranged to compressed air in the Supply water stream before it is discharged from the water discharge nozzle (12), and wherein the flue gas line (8) with e in the temperature measuring unit (20), the water injection device (11) being provided with a flow control device (14) for adjusting a flow volume of the water flow based on a temperature measured by the temperature measuring unit (20), and the compressed air blowing device (16) with a pressure control device (18) for adjusting a pressure of the compressed air based on a temperature measured by the temperature measuring unit (20), characterized in that the flue gas line (8) is directly connected to the outlet (7) of the incinerator unit (4), the temperature measuring unit at a certain distance (D) of 2.5 m from the outlet (7) of the combustion furnace unit (4) in the flue gas duct (8) is arranged, and that the flue gas through the arrangement at a certain distance (D) from the outlet (7) or has cooled below a predetermined temperature of 250 ° C.

Description

Technical area

The present invention relates to a waste treatment plant on a ship comprising at least one waste receiving unit, at least one waste feed unit, at least one waste incineration unit provided with an outlet, and at least one flue gas pipe according to the preamble of claim 1.

State of the art

Various waste treatment plants are known in the art. Typical waste treatment plants, also for the treatment of wet waste such as food waste and so-called domestic waste, comprise a waste container from which waste is conveyed to a screw conveyor which transfers the waste to a combustion furnace. The burning of the waste takes place in the incinerator, z. B. at a temperature of 850 ° C to 1200 ° C. An example of such a plant is from the EP 1 384 948 B1 known.

In such known waste treatment plants, flue gas resulting from the combustion of the waste has a very high temperature producing dioxin-type chemicals.

To reduce the amount of dioxin-type chemicals produced, various solutions have been presented. CN 102230627 discusses a waste incinerator on land with a separate gas quench cooling tower. The cooling tower is equipped with cooling water atomizers to lower the temperature of the flue gas. CN 103644570 discloses another known onshore solution which uses high pressure water mist to quench flue gas in conjunction with the incinerator. These solutions are technically complex and require space. EP 1 065 444 B1 discloses other exhaust gas cooling arrangements in which high pressure water and high pressure air is introduced through a separate mixing device or where high pressure hot water is introduced into a separate cooling chamber into an exhaust passage. These are technically complex systems that are very expensive and prone to malfunctions. In addition, the known solutions require a lot of space, so that they are unsuitable for seaworthy ships.

Brief explanation of the invention

It is an object of the present invention to obviate the drawbacks of the prior art and to achieve an efficient waste treatment facility on a ship with a simple flue gas cooling arrangement that meets the requirements of the relevant International Maritime Organization (IMO) Resolutions , This object is achieved by a ship waste treatment plant according to claim 1.

The basic idea of the present invention is to effectively cool the flue gas for a short distance after the flue gas has passed from the outlet of the combustion unit into the flue gas duct. This is achieved by an in-line cooling arrangement built into the flue gas duct. The cooling arrangement comprises a water injection device with a water discharge nozzle for supplying a flow of water directly into the flue gas duct at a predetermined location of the flue gas duct. The cooling arrangement further comprises a compressed air injection device for supplying compressed air into the water flow.

The advantage of the present invention is that no auxiliary cooling reactor is required. In addition, it is only necessary to supply the flue gas line with a technically simple cooling arrangement and a temperature measurement. This is a technically advantageous and cost-effective measure that requires no additional space on board the ship.

The compressed air fed into the water stream atomizes the water into mist, which has a maximum surface area to cool the flue gas within a predetermined distance of about 2.5 m in the flue gas duct measured from the outlet of the incinerator. The flue gas is cooled to a temperature of at most about 250 ° C.

This special requirement is based on the IMO Resolution MEPC 244 (66) , the standard specification for incinerators on ships.

There are various advantageous arrangements for supplying the compressed air into the water flow, which is introduced directly into the flue gas line. In a first arrangement, compressed air is fed into the water flow as it is discharged from the water delivery nozzle. In another advantageous arrangement, compressed air is fed into the water stream before it is discharged from the water delivery nozzle. In an alternative advantageous arrangement, compressed air is fed into the water stream after it has emerged from the water discharge nozzle.

The flue gas line is advantageously with a in the flue gas line in one provided a certain distance from the outlet of the waste incineration unit arranged temperature measuring unit. This allows the control of the temperature at the given distance.

The specified distance is about 2.5 m, whereby the essential standards can be taken into account.

The water injection device of the in-line cooling device is advantageously provided with a flow control device for adjusting a flow volume of the water flow on the basis of a temperature measured by the temperature measuring unit. This allows adjustment of the cooling based on flue gas parameters.

The compressed air supply connection of the in-line cooling device is provided with pressure regulating means for adjusting a pressure of the compressed air based on a temperature measured by the temperature measuring unit. This allows adjustment of the cooling based on flue gas parameters.

Advantageously, both the flow control device and the pressure control device may be used in common for optimized control of the cooling of the flue gas with respect to the desired temperature of the flue gas at the predetermined distance from the combustion unit outlet.

Further advantages of the ship waste treatment plant are given in claim 2.

Brief explanation of the figures

In the following, the invention will be described, by way of example only, with reference to the accompanying diagrammatic drawings in which:

1 and 2 show a first embodiment of the present invention,

3 and 4 show a second embodiment of the present invention and

5 and 6 show a third embodiment of the present invention.

Exact explanation

In the 1 to 6 is a waste treatment plant in a ship V by the reference numeral 1 designated. The waste treatment plant 1 is like in the 1 . 3 and 5 shown built aboard a ship V.

The in the waste treatment plant 1 Waste treated on Board V normally consists of a mixture of dry and wet waste. Typical dry waste according to IMO standards would consist of about 40% cardboard, 30% other packaging and paper, 20% fibers and 10% plastic. Typically wet waste consists of food waste and sludge with a maximum moisture content of about 80%. The aim is to maintain the average moisture content of the waste mixture at a level of about 50% or less to ensure that the waste mixture in an incinerator burns efficiently.

The 1 and 2 show a first embodiment of the present invention, which 3 and 4 show a second embodiment of the present invention, and the 5 and 6 show a third embodiment of the present invention. In general, the three embodiments have similar arrangements, the main difference being in a cooling arrangement provided for the waste treatment plant, which will be described in more detail below.

The main components of the waste treatment plant 1 include a waste receiving unit 2 , a waste feeding unit 3 and a combustion furnace unit 4 , When burning the waste in the incinerator unit 4 generated flue gas is from an outlet 7 the incinerator unit 4 in a flue gas line 8th issued. The flue gas line 8th is directly with the outlet 7 the incinerator unit 4 connected.

The incinerator unit 4 can be a secondary combustion chamber 6 with one before the actual outlet 7 the incinerator unit 4 arranged flue gas duct 5 contain. The waste mixture is in the incinerator unit 4 burned, according to which the exhaust gases resulting from the burning of the waste or waste mixture, through the outlet 7 in the flue gas line 8th be dissipated. If the incinerator unit 4 a secondary combustion chamber 6 contains, may be in the secondary combustion chamber 6 an additional firing phase takes place to ensure ash separation and more complete combustion of the flue gases. Such an arrangement would provide a long gas retention time, resulting in a very clean combustion. The first section of the incinerator unit 4 and the secondary combustion chamber 6 are advantageously through the flue gas duct 5 connected. The flue gas line 8th is advantageously with a fan 9 provided to increase the efficiency of the flue gas delivery.

To the flue gas in the flue gas line 8th to cool effectively contains the Waste treatment plant 1 on the ship V a line cooling device 10 connected to the flue gas line 8th connected is. The line cooling device 10 includes a water injection device 11 with a water delivery nozzle 12 for directly supplying a water flow at a predetermined point A of the flue gas line 8th in the flue gas line 8th , The water injection device 11 is directly with a housing 81 the flue gas line 8th connected and installed there so that the water dispensing nozzle 12 inside the case 81 is arranged, whereby the water can be fed directly into the flue gas, which is in the flue gas duct 8th is discharged and flows therein.

The water injection device 11 takes pressurized tap water from a water source 13 aboard ship V, with the line pressure normally available on a ship being about 4 bar. Between the water injection device 11 and the water source 13 there is a flow control device 14 for adjusting and controlling the water flow volume.

Furthermore, the cooling arrangement 10 with a compressed air blowing device 16 provided for supplying compressed air into the water stream when the water from the water discharge nozzle 12 ( 1 and 2 ) is discharged into the water passing through the water injection device ( 3 and 4 ), or into the water after it comes out of the water dispensing nozzle 12 ( 5 and 6 ).

Compressed air becomes the compressed air injector 16 from a compressed air source 17 supplied on board the ship V. Between the compressed air source 17 and the compressed air blowing device 16 there is a pressure control unit 18 , The compressed air used in this cooling arrangement is the compressed air normally available in engine rooms on a seagoing ship.

The flue gas line 8th is with a temperature measuring unit 20 at a certain distance D from the outlet 7 the incinerator unit 4 Mistake. The specified distance is as mentioned above up to 2.5 m. The volume of the water flow is based on that of the temperature measuring unit 20 measured and adjusted temperature as indicated by the dashed lines in the 1 - 6 is indicated. The pressure of the compressed air is as indicated by the dashed lines in the 1 - 6 Shown based on the temperature controlled and adjusted by the temperature measuring unit 20 is measured. By optimizing the water flow volume and the pressure of the compressed air, the desired degree of cooling, ie, a flue gas temperature of not more than about 250 ° C in the flue gas line, can be achieved 8th at a certain distance of about 2.5 m from the outlet 7 the incinerator unit 4 be achieved.

In the embodiment of the 1 and 2 is the water injection device 11 with a channel for that from the water source 13 provided with incoming water flow, and with a surrounding double hollow jacket. The compressed air blowing device 16 is with the inside of the hollow shell of the water injection device 11 separated from the side of the water injection device 11 connected so that compressed air in the hollow shell and along the hollow shell and in the water discharge nozzle 12 is fed, causing compressed air in the water discharge nozzle 12 is initiated so that the compressed air meets the stream of water when it comes out of the water dispensing nozzle 12 in the in the flue gas line 8th flowing flue gas is discharged. The compressed air could be the water outlet nozzle 12 z. B. also be supplied by a separate hose.

In the embodiment of the 3 and 4 is the water injection device 11 provided with a channel for the water flow coming from the water source 13 and a surrounding coat comes. The compressed air blowing device 16 leads directly from the side of the water injection device 11 through the jacket into the water channel, whereby the compressed air is already introduced into the water stream while it flows in the water channel and before the water discharge nozzle 12 the water in the in the flue gas line 8th emits flowing flue gas.

In the embodiment of the 5 and 6 is the water injection device 11 with a channel for the water flow coming from the water source 13 comes, and provided a surrounding coat. In this embodiment, the compressed air blowing device 16 directly to the housing 81 the flue gas line 8th separate from the water injection device 11 connected and incorporated therein, so that the compressed air injector 16 partially located inside the housing. The compressed air blowing device 16 is next to the dispensing nozzle 12 the water injection device 11 appropriate. In this way, the compressed air is led directly into water after the water from the water delivery nozzle 12 was discharged into the flue gas in the flue gas line 8th flows.

In all three embodiments, the compressed air fed into the water stream atomizes the water in mist, which has a maximum surface area, around the flue gas at a certain distance of about 2.5 m as measured from the outlet 7 in the flue gas line of the incinerator unit 4 to cool. The flue gas is cooled to a temperature of about 250 ° C or less.

The drawings and the accompanying description are only for clarification of the basic idea of the invention. The invention may vary in detail within the scope of the appended claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1384948 B1 [0002]
• CN 102230627 [0004]
• CN 103644570 [0004]
• EP 1065444 B1 [0004]

Cited non-patent literature

• IMO Resolution MEPC 244 (66) [0009]

Claims (2)

In a seagoing ship (V) usable waste treatment device ( 1 ) containing at least one waste receiving unit ( 2 ), at least one waste conveyor unit ( 3 ), at least one with an outlet ( 7 ) provided incinerator unit ( 4 ) and at least one with the outlet ( 7 ) connected flue gas line ( 8th ), whereby the waste treatment plant usable in the seagoing ship ( 1 ) a line cooling ( 10 ) having a water injection device ( 11 ) with a water delivery nozzle ( 12 ) for supplying a flow of water directly into the flue gas duct ( 8th ) at a certain location (A) of the flue gas duct ( 8th ) and a compressed air blowing device ( 16 ) for supplying compressed air into the water flow, wherein the compressed air injection device ( 16 ) with the water injection device ( 11 ) is arranged so that it is arranged to supply compressed air into the water stream, before it leaves the water discharge nozzle ( 12 ), and wherein the flue gas line ( 8th ) with a temperature measuring unit ( 20 ), the water injection device ( 11 ) with a flow control device ( 14 ) for adjusting a flow volume of the water flow on the basis of one of the temperature measuring unit ( 20 ) measured temperature, and the compressed air blowing device ( 16 ) with a pressure control device ( 18 ) for adjusting a pressure of the compressed air on the basis of one of the temperature measuring unit ( 20 ) measured temperature, characterized in that the flue gas line ( 8th ) directly to the outlet ( 7 ) of the incinerator unit ( 4 ), the temperature measuring unit at a certain distance (D) of 2.5 m from the outlet ( 7 ) of the incinerator unit ( 4 ) in the flue gas line ( 8th ), and that the flue gas through the arrangement at a certain distance (D) from the outlet ( 7 ) has cooled to or below a predetermined temperature of 250 ° C. In a seaworthy ship (V) employable waste treatment apparatus according to claim 1, characterized in that the water injection device ( 11 ) directly with a housing ( 81 ) of the flue gas line ( 8th ) and incorporated therein.

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