CN208532354U - Clogging-proof overcritical water oxidization reactor and its preventing clogging up device - Google Patents

Abstract

The utility model relates to environmental protection and chemical fields, and in particular to a kind of clogging-proof overcritical water oxidization reactor and its preventing clogging up device.The overcritical water oxidization reactor including reactor cavity and is connected to the liquid phase pipeline of reactor cavity lower part, flushing pipe and Residue extraction pipeline；One end of the liquid phase pipeline is protruded into reactor cavity body and opening down by reactor cavity body sidewall, and the other end passes through pipeline with next technique unit, flushing pipe and Residue extraction pipeline respectively and is connected to；One end of the Residue extraction pipeline is connect with reactor cavity bottom, and the other end is for being discharged slag；One end of the flushing pipe is connected in reactor cavity body by reactor cavity body sidewall, and the other end is connected to liquid phase pipeline.The utility model thoroughly solves the problems, such as overcritical water oxidization reactor outlet obstruction.

Description

Clogging-proof overcritical water oxidization reactor and its preventing clogging up device

Technical field

The utility model relates to environmental protection and chemical fields, and in particular to a kind of clogging-proof overcritical water oxidization reactor and Its preventing clogging up device.

Background technique

Supercritical water (Supercritical Water, abbreviation SCW) refers to that temperature and pressure is above its critical point (T= 374.15 DEG C, P=22.12MPa) special state water.Supercritical water oxidation (Supercritical Water Oxidation, abbreviation SCWO) technology be it is a kind of can be achieved to a variety of debirs carry out deep oxidation processing technology, utilize The unique physicochemical properties of supercritical water, are dissolved completely in oxidant and organic matter in supercritical water, are with supercritical water Reaction medium, by homogeneous oxidation reaction, by organic matter quickly, be thoroughly converted into clean CO₂、H₂O、N₂With other nothings Evil small molecule, makes S, P etc. be converted into highest price salt stabilisation, and heavy metal oxidation stable solid phase is present in ash content.

When handling debirs using supercritical Water Oxidation Technology, the inorganic salts in sewage are easy water in the supercritical state It is precipitated, the blocking of reactor and outlet conduit may be easy to cause containing insoluble substances such as sludge, greasy filth in charging in addition. In traditional SCWO reactor, these insoluble media under the bottom deposit of reactor, be also easy to produce it is hardened, can not be successfully from Outlet discharge such as directly also be easy to cause outlet conduit to block, reactor is caused not transport normally continuously by outlet discharge Row.Therefore, the blockage problem of SCWO reactor is always equipment critical issue urgently to be solved in industrialization process.

Utility model content

For the blockage problem for solving overcritical water oxidization reactor, the utility model provides a kind of clogging-proof overcritical water Oxidation reactor and its preventing clogging up device thoroughly solve existing SCWO reactor outlet blockage problem, thus make containing The SCWO reactor of the insoluble medium such as greasy filth, inorganic salts can prolonged continuous work without blocking.

On the one hand, the utility model provides a kind of clogging-proof overcritical water oxidization reactor, which is characterized in that including anti- The liquid phase pipeline answered device cavity and be connected to the reactor cavity lower part, flushing pipe and Residue extraction pipeline；

Side wall of the reactor cavity close to bottom is equipped with liquid phase outlet and rinse mouth, and bottom is equipped with slag-drip opening； The position of the liquid phase outlet is higher than the rinse mouth, and the position of the rinse mouth is higher than the slag-drip opening；

One end of the liquid phase pipeline is protruded into the reactor cavity body by liquid phase outlet and the court that is open Under, the other end passes through pipeline with next technique unit, the flushing pipe and the Residue extraction pipeline respectively and is connected to；The liquid phase Pipeline is equipped with the 1st valve；

One end of the Residue extraction pipeline connects the slag-drip opening, and the other end is for being discharged slag；The Residue extraction pipeline is equipped with 2nd valve, and the position after the 2nd valve is connected to the liquid phase pipeline, the Residue extraction pipeline and the gas-liquid Pipeline between phase pipeline is equipped with the 4th valve；

One end of the flushing pipe connects the rinse mouth, and the other end is connected to the liquid phase pipeline；The flushing Pipeline is equipped with the 3rd valve；

Pipeline between the liquid phase pipeline and next technique unit is equipped with the 5th valve.

The overcritical water oxidization reactor of the utility model is arranged liquid phase on reactor cavity body sidewall and exports, gas-liquid Phase pipeline protrudes into inside reactor by liquid phase outlet, for exporting gas phase and liquid phase substance after reacting.Due to liquid phase Outlet is much higher than slag-drip opening, after the insoluble medium of solid can be made sufficiently to settle, then is discharged by liquid phase pipeline.The liquid phase pipe Road it is opening down, the liquids and gases after reaction can be discharged by liquid phase pipeline, and the insoluble medium of solid will not enter Liquid phase pipeline.Such a configuration obviates property media insoluble in infall process to be discharged by liquid phase pipeline, to effectively prevent Line clogging.The rinse mouth is arranged on reactor cavity body sidewall corresponding to the insoluble medium decanting zone of solid, position Higher than slag-drip opening.

The end of the liquid phase pipeline is divided into three groups of pipelines, in which: one group connects next technique unit；One group connects scum pipe On road, for rinsing Residue extraction pipeline, Residue extraction pipeline is avoided to block；Flushing pipe is connect there are also one group, for removing hardened reacting The deposit of device bottom.

When reactor works normally, and the insoluble medium contained in reaction medium in reactor is less, can periodically arrange Slag.By closing the 2nd valve, the 3rd valve and the 4th valve, the 1st valve and the 5th valve are opened, liquid phase pipeline can be made to be discharged Medium fully enters next technique unit after reaction.When deslagging, the 2nd valve is opened, closes the 1st valve, the 3rd valve, the 4th valve With the 5th valve, insoluble property medium is discharged by Residue extraction pipeline.When opening 2 valve, since solids flowability is poor, The 1st valve and the 4th valve can be opened simultaneously, the liquid wash Residue extraction pipeline being discharged with liquid phase pipeline is not easy Residue extraction pipeline Blocking, plays anti-blocking effect.When the solid insoluble substance of reactor cavity bottom deposit occurs hardened, the 1st valve is opened Door and the 3rd valve close the 2nd valve, the 4th valve and the 5th valve, and the liquid that liquid phase pipeline is discharged enters flushing pipe simultaneously Entered in reactor cavity body by rinse mouth, hardened substance is rinsed, can be discharged from slag-drip opening after dispersing it.

Preferably, the reactor cavity includes the cylinder on top and the reverse taper of lower part；Liquid phase outlet setting On the barrel of the cylinder；The rinse mouth is arranged in the cone wall of the reverse taper；Preferably, the slag-drip opening setting Minimum point in the reverse taper bottom.

Overcritical water oxidization reactor lower part uses inverted pyramidal structures, is conducive to the insoluble medium of solid quickly from slag-drip opening Discharge.In addition, rinse mouth is arranged in cone wall, fluid rinses hardened substance with angle obliquely, is conducive to break up back taper The deposit on internal surface.

Preferably, the liquid phase pipeline protrudes into the part in the reactor cavity body with length and height-adjustable function Energy.

Preferably, pressure-regulating device is set on the liquid phase pipeline, Residue extraction pipeline and flushing pipe.

Preferably, one end of the flushing pipe is protruded into inside overcritical water oxidization reactor and end can equipped with direction The spout of adjusting.

It preferably, further include blockage detector.

On the other hand, the utility model provides the preventing clogging up device for being used for overcritical water oxidization reactor, which is characterized in that Including liquid phase pipeline, flushing pipe and Residue extraction pipeline；

One end of the liquid phase pipeline is used to protrude by reactor cavity body sidewall in reactor cavity body and the court that is open Under, the other end passes through pipeline with next technique unit, the flushing pipe and the Residue extraction pipeline respectively and is connected to；The liquid phase Pipeline is equipped with the 1st valve；

One end of the Residue extraction pipeline with the reactor cavity bottom for connecting, and the other end is for being discharged slag；It is described Residue extraction pipeline is equipped with the 2nd valve, and the position after the 2nd valve is connected to the liquid phase pipeline；The deslagging Pipeline between pipeline and the liquid phase pipeline is equipped with the 4th valve；

One end of the flushing pipe be used for by reactor cavity body sidewall be connected to reactor cavity body in, the other end with it is described The connection of liquid phase pipeline；The flushing pipe is equipped with the 3rd valve；

Pipeline between the liquid phase pipeline and next technique unit is equipped with the 5th valve.

In yet a further aspect, the utility model provides a kind of method for preventing overcritical water oxidization reactor from blocking, special Sign is,

Make overcritical water oxidization reactor that there is liquid phase outlet and rinse mouth on the side wall close to bottom, has in bottom There is slag-drip opening；The position of the liquid phase outlet is higher than the rinse mouth, and the position of the rinse mouth is higher than the slag-drip opening；

The anti-clogging for overcritical water oxidization reactor is installed to fill on the overcritical water oxidization reactor It sets；One end of the liquid phase pipeline is protruded into reactor cavity body and opening down by liquid phase outlet；The row One end of slag pipeline is connect with the slag-drip opening；One end of the flushing pipe is connect with the rinse mouth；

It prevents or clears up by the switch of the 1st valve of control, the 2nd valve, the 3rd valve, the 4th valve and the 5th valve and is stifled Plug.

Preferably,

When carrying out supercritical water oxidation: closing the 2nd valve, the 3rd valve and the 4th valve, open the 1st valve and the 5th Valve；

When deslagging: opening the 2nd valve, close the 1st valve, the 3rd valve, the 4th valve and the 5th valve；

When clearing up the blocking in Residue extraction pipeline: opening the 1st valve, the 2nd valve and the 4th valve, close the 3rd valve and the 5th Valve；

When reactor bottom solid matter is hardened: open the 1st valve and the 3rd valve, close the 2nd valve, the 4th valve and 5th valve.

In yet a further aspect, the utility model provides the manufacturing method of any overcritical water oxidization reactor, packet Include following steps:

Liquid phase outlet and rinse mouth are set on side wall of the reactor cavity close to bottom, set in reactor cavity bottom Set slag-drip opening；The position of the liquid phase outlet is higher than the rinse mouth, and the position of the rinse mouth is higher than the slag-drip opening；

Liquid phase pipeline, flushing pipe and Residue extraction pipeline are installed on the reactor cavity, so that:

One end of the liquid phase pipeline protruded by liquid phase outlet it is in reactor cavity body and opening down, separately One end passes through pipeline with next technique unit, the flushing pipe and the Residue extraction pipeline respectively and is connected to；The liquid phase pipeline It is equipped with the 1st valve；

One end of the Residue extraction pipeline connects the slag-drip opening, and the other end is used for deslagging；The Residue extraction pipeline is equipped with the 2nd Valve, and the position after the 2nd valve is connected to the liquid phase pipeline, the Residue extraction pipeline and the liquid phase pipe Pipeline between road is equipped with the 4th valve；

One end of the flushing pipe connects the rinse mouth, and the other end is connected to the liquid phase pipeline；The flushing Pipeline is equipped with the 3rd valve；

Pipeline between the liquid phase pipeline and next technique unit is equipped with the 5th valve.

To sum up, compared with prior art, the utility model has the advantage that

Design it is brief, it is easy to operation: it is separately connected using liquid phase pipeline, flushing pipe and Residue extraction pipeline overcritical Liquid phase outlet, rinse mouth and slag-drip opening on water oxidation reactor can be realized by the switch of 5 valves on control pipeline Multiple functions (liquid phase export, deslagging rinse Residue extraction pipeline, rinse reactor bottom deposit), to effectively prevent comprehensively Blocking.

Without being additionally provided power and water source: it is reacted using the gas and liquid wash obtained after supercritical water oxidation The insoluble property medium of solid in device bottom or Residue extraction pipeline does not need in addition to provide flushing liquid；By controlling each valve Hydraulic pressure needed for the switch of door can provide flushing, does not need in addition to provide power.

Have both the function of preventing and remove blocking: the liquid phase outlet is much higher than slag-drip opening, can make the insoluble property of solid After medium sufficiently settles, then it is discharged by liquid phase pipeline；Liquid phase pipeline it is opening down, prevent in infall process solid not Dissolubility medium enters liquid phase pipeline, and this structure can effectively prevent liquid phase line clogging.When deslagging, can be opened simultaneously 1,2,4 valve, insoluble property medium enter Residue extraction pipeline from slag-drip opening under the effect of gravity, utilize gas derived from liquid phase pipeline Body and liquid wash Residue extraction pipeline improve the mobility of substance in pipeline, prevent Residue extraction pipeline from blocking.When Residue extraction pipeline blocks When, identical mode of operation can be used and remove blocking.When the deposit of reactor bottom occurs hardened, liquid phase pipeline is utilized Derived gas and liquid wash block slag-drip opening after preventing hardened object from constantly expanding.

Detailed description of the invention

The structural schematic diagram of overcritical water oxidization reactor in Fig. 1 the utility model exemplary embodiments；

Description of symbols: 1- reactor cavity, the outlet of 2- liquid phase, 3- rinse mouth, 4- slag-drip opening, 5- liquid phase pipe Road, 6- flushing pipe, 7- Residue extraction pipeline, the 1st valve of 8-, the 2nd valve of 9-, the 3rd valve of 10-, the 4th valve of 11-, the 5th valve of 12- Door.

Specific embodiment

The utility model is furtherd elucidate with reference to the accompanying drawings and examples, it should be understood that these embodiments are merely to illustrate this Utility model rather than limitation the scope of the utility model, after reading the utility model, those skilled in the art are to this The modification of the various equivalent forms of utility model each falls within the application range as defined in the appended claims.

The utility model provides a kind of clogging-proof overcritical water oxidization reactor, including reactor cavity 1 and connection Liquid phase pipeline 5 in 1 lower part of reactor cavity, flushing pipe 6 and Residue extraction pipeline 7；

Side wall of the reactor cavity 1 close to bottom is equipped with liquid phase outlet 2 and rinse mouth 3, and bottom is equipped with deslagging Mouth 4；The position of the liquid phase outlet 2 is higher than the rinse mouth 3, and the position of the rinse mouth 3 is higher than the slag-drip opening 4；

One end of the liquid phase pipeline 5 is protruded into the reactor cavity 1 and is open by liquid phase outlet 2 Downward, the other end is connected to by pipeline respectively with next technique unit, the flushing pipe 6 and the Residue extraction pipeline 7；The gas Liquid pipe 5 is equipped with the 1st valve 8；

One end of the Residue extraction pipeline 7 connects the slag-drip opening 4, and the other end is for being discharged slag；It is set on the Residue extraction pipeline 7 There is the 2nd valve 9, and the position after the 2nd valve 9 is connected to the liquid phase pipeline 5, the Residue extraction pipeline 7 and institute The pipeline stated between liquid phase pipeline 5 is equipped with the 4th valve 11；

One end of the flushing pipe 6 connects the rinse mouth 3, and the other end is connected to the liquid phase pipeline 5；The punching Pipeline 6 is washed equipped with the 3rd valve 10；

Pipeline between the liquid phase pipeline 5 and next technique unit is equipped with the 5th valve 12.

Gas and liquid after supercritical water oxidation primarily enter next technique unit and (it is single to refer specifically to waste heat recycling Member), it can be used for rinsing Residue extraction pipeline when needing deslagging, can be used for breaking up when the deposit of reactor bottom is hardened hardened Object.

In a preferred embodiment, the reactor cavity 1 includes the cylinder on top and the reverse taper of lower part；The liquid phase Outlet 2 is arranged on the barrel of the cylinder；The rinse mouth 3 is arranged in the cone wall of the reverse taper；Preferably, described The minimum point of the reverse taper bottom is arranged in slag-drip opening 4.

In some embodiments, the cylinder is cylindrical body, and the reverse taper is inverted cone.

In some embodiments, the liquid phase pipeline 5 protrudes into the part in the reactor cavity 1 with length and height Spend adjustable function.

In some embodiments, pressure is arranged on the liquid phase pipeline 5, Residue extraction pipeline 7 and flushing pipe 6 to adjust Device.

In some embodiments, overcritical water oxidization reactor inside and end are protruded into one end of the flushing pipe 6 Equipped with the adjustable spout in direction.

It in some embodiments, further include blockage detector.

The application method of the overcritical water oxidization reactor of the utility model, comprising:

When carrying out supercritical water oxidation: closing the 2nd valve 9, the 3rd valve 10 and the 4th valve 11, open the 1st valve 8 With the 5th valve 12；

When deslagging: opening the 2nd valve 9, close the 1st valve 8, the 3rd valve 10, the 4th valve 11 and the 5th valve 12；

When clearing up the blocking in Residue extraction pipeline: opening the 1st valve 8, the 2nd valve 9 and the 4th valve 11, close the 3rd valve 10 With the 5th valve 12；

When reactor bottom solid matter is hardened: opening the 1st valve 8 and the 3rd valve 10, close the 2nd valve 9, the 4th valve The 11 and the 5th valve 12 of door.

The utility model provides a kind of preventing clogging up device for overcritical water oxidization reactor, including liquid phase pipeline 5, Flushing pipe 6 and Residue extraction pipeline 7；

One end of the liquid phase pipeline 5 is used to protrude by reactor cavity body sidewall in reactor cavity body and the court that is open Under, the other end is connected to by pipeline respectively with next technique unit, the flushing pipe 6 and the Residue extraction pipeline 7；The gas-liquid Phase pipeline 5 is equipped with the 1st valve 8；

One end of the Residue extraction pipeline 7 with the reactor cavity bottom for connecting, and the other end is for being discharged slag；It is described Residue extraction pipeline 7 is equipped with the 2nd valve 9, and the position after the 2nd valve 9 is connected to the liquid phase pipeline 5；It is described Pipeline between Residue extraction pipeline 7 and the liquid phase pipeline 5 is equipped with the 4th valve 11；

One end of the flushing pipe 6 is used to be connected in reactor cavity body by reactor cavity body sidewall, the other end and institute State the connection of liquid phase pipeline 5；The flushing pipe 6 is equipped with the 3rd valve 10；

Pipeline between the liquid phase pipeline 5 and next technique unit is equipped with the 5th valve 12.

The utility model provides a kind of method for preventing overcritical water oxidization reactor from blocking, and makes supercritical water oxidation Device has liquid phase outlet 2 and rinse mouth 3 on the side wall close to bottom, has slag-drip opening 4 in bottom；The liquid phase outlet 2 position is higher than the rinse mouth 3, and the position of the rinse mouth 3 is higher than the slag-drip opening 4；

The anti-clogging for overcritical water oxidization reactor is installed to fill on the overcritical water oxidization reactor It sets；One end of the liquid phase pipeline 5 is protruded into reactor cavity body and opening down by liquid phase outlet 2；It is described One end of Residue extraction pipeline 7 is connect with the slag-drip opening 4；One end of the flushing pipe 6 is connect with the rinse mouth 3；

It is prevented by the switch of the 1st valve 8 of control, the 2nd valve 9, the 3rd valve 10, the 4th valve 11 and the 5th valve 12 Or cleaning blocking.

In some embodiments,

When carrying out supercritical water oxidation: closing the 2nd valve 9, the 3rd valve 10 and the 4th valve 11, open the 1st valve 8 With the 5th valve 12；

When deslagging: opening the 2nd valve 9, close the 1st valve 8, the 3rd valve 10, the 4th valve 11 and the 5th valve 12；

When clearing up the blocking in Residue extraction pipeline: opening the 1st valve 8, the 2nd valve 9 and the 4th valve 11, close the 3rd valve 10 With the 5th valve 12；

When reactor bottom solid matter is hardened: opening the 1st valve 8 and the 3rd valve 10, close the 2nd valve 9, the 4th valve The 11 and the 5th valve 12 of door.

The utility model also provides the manufacturing method of any overcritical water oxidization reactor, includes the following steps:

Liquid phase is set on side wall of the reactor cavity 1 close to bottom and exports 2 and rinse mouth 3, at 1 bottom of reactor cavity Slag-drip opening 4 is arranged in portion；The position of the liquid phase outlet 2 is higher than the rinse mouth 3, and the position of the rinse mouth 3 is higher than described Slag-drip opening 4；

Liquid phase pipeline 5, flushing pipe 6 and Residue extraction pipeline 7 are installed on the reactor cavity 1, so that:

One end of the liquid phase pipeline 5 is protruded into reactor cavity 1 by liquid phase outlet 2 and the court that is open Under, the other end is connected to by pipeline respectively with next technique unit, the flushing pipe 6 and the Residue extraction pipeline 7；The gas-liquid Phase pipeline 5 is equipped with the 1st valve 8；

One end of the Residue extraction pipeline 7 connects the slag-drip opening 4, and the other end is used for deslagging；The Residue extraction pipeline 7 is equipped with 2nd valve 9, and the position after the 2nd valve 9 is connected to the liquid phase pipeline 5, the Residue extraction pipeline 7 with it is described Pipeline between liquid phase pipeline 5 is equipped with the 4th valve 11；

One end of the flushing pipe 6 connects the rinse mouth 3, and the other end is connected to the liquid phase pipeline 5；The punching Pipeline 6 is washed equipped with the 3rd valve 10；

Pipeline between the liquid phase pipeline 5 and next technique unit is equipped with the 5th valve 12.

Claims (5)

1. being used for the preventing clogging up device of overcritical water oxidization reactor, which is characterized in that including liquid phase pipeline (5), flushing pipe Road (6) and Residue extraction pipeline (7)；

One end of the liquid phase pipeline (5) is used to protrude by reactor cavity body sidewall in reactor cavity body and the court that is open Under, the other end is connected to by pipeline respectively with next technique unit, the flushing pipe (6) and the Residue extraction pipeline (7)；It is described Liquid phase pipeline (5) is equipped with the 1st valve (8)；

One end of the Residue extraction pipeline (7) with the reactor cavity bottom for connecting, and the other end is for being discharged slag；The row Slag pipeline (7) is equipped with the 2nd valve (9), and the position after the 2nd valve is connected to the liquid phase pipeline (5)；The row Pipeline between slag pipeline (7) and the liquid phase pipeline (5) is equipped with the 4th valve (11)；

One end of the flushing pipe (6) be used for by reactor cavity body sidewall be connected to reactor cavity body in, the other end with it is described Liquid phase pipeline (5) connection；The flushing pipe (6) is equipped with the 3rd valve (10)；

Pipeline between the liquid phase pipeline (5) and next technique unit is equipped with the 5th valve (12).

2. preventing clogging up device according to claim 1, which is characterized in that the liquid phase pipeline (5) protrudes into reactor cavity Intracorporal part is set as length and height-adjustable.

3. preventing clogging up device according to claim 1, which is characterized in that in the liquid phase pipeline (5), Residue extraction pipeline (7) and on flushing pipe (6) pressure-regulating device is set.

4. preventing clogging up device according to claim 1, which is characterized in that the flushing pipe (6) protrudes into overcritical water oxygen The one end for changing inside reactor is equipped with the adjustable spout in direction.

5. clogging-proof overcritical water oxidization reactor, which is characterized in that including reactor cavity (1) and be connected to described anti- Answer the liquid phase pipeline (5) of device cavity (1) lower part, flushing pipe (6) and Residue extraction pipeline (7)；

Side wall of the reactor cavity (1) close to bottom is equipped with liquid phase outlet (2) and rinse mouth (3), and bottom is equipped with row Cinder notch (4)；The position of the liquid phase outlet (2) is higher than the rinse mouth (3), and the position of the rinse mouth (3) is higher than described Slag-drip opening (4)；

One end of the liquid phase pipeline (5) is protruded into the reactor cavity (1) and is opened by liquid phase outlet (2) Mouth down, the other end are connected to by pipeline respectively with next technique unit, the flushing pipe (6) and the Residue extraction pipeline (7)； The liquid phase pipeline (5) is equipped with the 1st valve (8)；

One end of the Residue extraction pipeline (7) connects the slag-drip opening (4), and the other end is for being discharged slag；On the Residue extraction pipeline (7) Equipped with the 2nd valve (9), and the position after the 2nd valve (9) is connected to the liquid phase pipeline (5), the scum pipe Pipeline between road (7) and the liquid phase pipeline (5) is equipped with the 4th valve (11)；

One end of the flushing pipe (6) connects the rinse mouth (3), and the other end is connected to the liquid phase pipeline (5)；It is described Flushing pipe (6) is equipped with the 3rd valve (10)；

Pipeline between the liquid phase pipeline (5) and next technique unit is equipped with the 5th valve (12)；

The reactor cavity (1) includes the cylinder on top and the reverse taper of lower part；The liquid phase outlet (2) is arranged described On the barrel of cylinder；The rinse mouth (3) is arranged in the cone wall of the reverse taper；The slag-drip opening (4) is arranged described The minimum point of reverse taper bottom；

The liquid phase pipeline (5) protrudes into the part in the reactor cavity (1) with length and height-adjustable function；

Pressure-regulating device is set on the liquid phase pipeline (5), Residue extraction pipeline (7) and flushing pipe (6)；

One end of the flushing pipe (6) is protruded into inside overcritical water oxidization reactor and end is equipped with the adjustable spray in direction Mouthful；

It further include jam detection equipment.