EP0874196A2 - Method and device for removing deposits from supply nozzles or conduits of combustion installations - Google Patents

Abstract

A lance (27) is inserted inside a feeder nozzle (20) or pipe for recirculated flue gas belonging to a furnace. The front free end of the lance has a nozzle head (28) with adjustable spray angle. The feeder pipe (30) to the lance is used as a regulatable valve arrangement (29). It is used for opening and shutting the medium inflow, pressure and quantity and for adjusting opening periods and intervals between two opening phases with regulator (32).

Description

The invention relates to a method for removal of deposits in and on feed nozzles or feed pipes of combustion plants in which recirculated Exhaust gas that is fed back into a combustion chamber will fix these deposits, taking care of the deposits applied a liquid or vapor medium becomes. The invention also relates to a device for carrying it out of the procedure.

In combustion plants, especially those in which waste materials will be burned for various reasons Exhaust gas after a certain cooling (e.g. in a steam generator) or the exhaust gas from the appropriate areas Withdrawn from the combustion chamber and via feed nozzles or feed pipes fed back into the combustion chamber. The reasons for the recirculation of exhaust gas can in the pursuit a high thermal efficiency of the plant, in the generation particularly high turbulence in the area of the secondary combustion zone, in exploiting the still in the exhaust existing oxygen and for regulating the oxygen content be seen in the secondary combustion zone. Here the exhaust gas is preferably after one of the heat use downstream exhaust gas cleaning system, e.g. the dedusting device, deducted. But it can also be from the can be taken from the rear of the combustion chamber, in which there is already largely burnt out fuel and therefore the exhaust gases are still relatively high Have oxygen content.

With such an operating mode, it has now been found that the feed nozzles or feed pipes, which are also for the Supply of secondary air can serve in the area of their Outlet opening through deposits originating from the exhaust gas, be gradually added so that at certain time intervals these deposits need to be removed to keep the free Outlet cross section of the feed nozzles or feed pipes restore. So far, the removal of Deposits mechanically by knocking off or repelling them by means of appropriate poles, which is not only tedious and is time-consuming, but is therefore also unsatisfactory, because the extremely strongly adhering deposits only from the firebox forth can be completely removed what the parking and cooling of the affected system. This Deposits occur in the area of the mouth of the feed nozzles or feed pipes both inside these feed nozzles and feed pipes as well as on the immediate outer surfaces adjacent to the mouth. you will be caused by the strong heat radiation from the firebox, taking this heat radiation to a glazing of the deposits in the part of the furnace facing the furnace Baking and thus a particularly good adhesion and resistant structure that leads in a mechanical way is difficult to destroy.

Energie", 1951, Heft 1, ist es zur Reinigung von Kesselrohren bekannt, mittels einer Lanze Wasser auf Rohrflächen aufzuspritzen, bis diese abkühlen, wonach ein benachbarter Bereich bespritzt wird, um dann wieder zum ersten Bereich zurückzukehren, wenn sich dieser nach dem Abkühlen wieder erwärmt hat. Hier sollen Rissebildungen eintreten, die zu einem Abplatzen der Verschmutzungen führen. Weiterhin ist es aus dieser Zeitschrift bekannt, Heizflächen mittels eines Wasserdampf-Ammoniakdampf-Gemisches zu behandeln. Hierbei ist das Einführen der Zuführungsrohre in den Kessel erst nach einer gewissen Abkühlung desselben möglich, was eine entsprechende Betriebsunterbrechung erfordert. Außerdem sind chemische Zusätze zum Dampf wegen möglicher Korrosionsschäden bedenklich.From the DE magazine

Energie ", 1951, Issue 1, it is known for cleaning boiler tubes to spray water on tube surfaces by means of a lance until they cool, after which an adjacent area is sprayed, and then to return to the first area when it cools down again This is where cracks form, which lead to the chips flaking off. It is also known from this magazine to treat heating surfaces by means of a water vapor / ammonia vapor mixture. In this case, the feed pipes are only introduced into the boiler after it has cooled down to a certain extent possible, which requires a corresponding business interruption, and chemical additives to the steam are questionable because of possible corrosion damage.

From DE-PS 741 701 it is known to build up deposits Collect above the secondary air outlet nozzles to remove a water spray device in that cold Jets of water are sprayed onto the hot slag the hot slag as a result of the deterrence from the walls to remove. This type of slag removal is not very effective because of the deterrent effect only a few surface cracks arise, which is why this The process must be repeated frequently until the Slag can be obtained. The reason for this elaborate Measure is that it is in the deposits formed is slag glazed on the surface, that do not let water inside without crack formation. Only the frequent interaction between heating and quenching leads to crack formation and removal Deposits. This procedure also has the Disadvantage that a high voltage risk for boiler tube walls or the ceramic linings due to the mentioned Interactions exist.

The object of the invention is a method and an apparatus provide with the help of which it is possible to remove these deposits in a simple way during normal operation to remove the combustion system practically residue-free.

This object is achieved in that the liquid medium sprayed onto the deposits in droplet form is that the medium in the flow direction of the exhaust gases inside the feed nozzles or feed pipes starting with that in the flow direction of the exhaust gases within of the feed nozzles or the feed pipes leading edge the deposits are applied to them.

By introducing a liquid medium, in particular Water, into the feed nozzles or feed pipes by applying this medium to the deposits in the direction of flow of the exhaust gases within the feed nozzles or feed pipes, being with the application be started at the front edge of the deposits the deposits removed in a short time, after the Experiments carried out so far and the results obtained Knowledge of the cleaning effect arises in that in Inside the feed nozzles or feed pipes the liquid Medium quickly penetrates the inside of the deposits. By exposure to heat from the combustion chamber or from the circulated Gas flow evaporates this into the pores of the hygroscopic Deposits of water explosive. The deposits are blown up from the inside. This will not only remove the deposits on the inner wall the feed nozzles or the feed pipes removed, but also around the mouth area to the outside. This is because the water due to the from the inside of the feed nozzle or the feed pipe beginning to burst the deposits on rough and thus hits porous parts of the surface of the deposits Are inside the deposits already formed and thus are not glazed, as this is on the outer surface of the Outer periphery of the feed nozzles or feed pipes located Deposits that are directly exposed to heat radiation subject to the combustion chamber, which is the case. Thus, the Blasting effect starting from the inside of the feed nozzle or the feed pipe to the mouth and also around the mouth to the outside of the feed nozzles or the feed pipes. With each blast new rough and porous surfaces are created, so that the Removal of the deposits is also possible where the Surface is already glazed. After just a short treatment (a few seconds to a few minutes) can be almost metallic shiny surfaces in the Mouth area of the feed nozzles or feed pipes be restored. The task at the beginning can can also be solved in that the vaporous medium in Direction of flow of the exhaust gases within the feed nozzles or the feed pipes starting with that in the direction of flow the exhaust gases inside the supply nozzles or the feed pipes front edge of the deposits is applied to this. It is crucial indicates that the vaporous medium after its penetration a rapid increase in volume in the pores of the deposits learns what is the case when the vapor Medium is water vapor. When using water vapor Expect a longer treatment time (a few minutes up to about 1 hour) because of the increase in the specific volume when the temperature rises is significantly lower than, for example when using water.

The application of the medium in the direction of flow of the exhaust gases inside the feed nozzles and especially at the front Edge of the deposits has the advantage that the medium, preferably Water, deposits reached inside the Feed nozzle or the feed pipe and the still have a rough and porous surface because they are against the heat radiation from the combustion chamber through the feed nozzle or the feed pipe is better protected as deposits on the outside of the feed nozzle or of the feed pipe, where due to the strong heat glazing of these deposits occurs. The medium can therefore start at a point where it is still easy to get into the deposits can penetrate with the explained Explosives begin, which then move towards the Mouth of the feed nozzle or the feed pipe to to the outside of the feed nozzle or the feed pipe continues.

By supplying the liquid medium by means of a supply nozzle in droplet form, the droplets being so have a small size so that the medium is sprayed on, becomes a uniform wetting of the surface of the deposits achieved with relatively low media consumption. Excess medium will escape from the Feed nozzles or the feed pipes largely avoided, so that an impairment of the combustion in There is no combustion chamber due to excessively large quantities of medium escaping. It is particularly advantageous if the liquid medium in fine distribution as a droplet mist on the deposits is applied.

In order to achieve a uniform wetting of the deposits, it is appropriate that the medium is concentric with the feed nozzle or is fed to the feed pipe.

Experiments have shown that it is advantageous if the water is supplied in the form of a conical veil. The cone angle of the medium veil can range from 10 ° to Be adjustable by 180 °.

Due to the explosive effect that the liquid or vaporous medium or water or water vapor due to a very rapid increase in volume within the pores of the deposits is high Water or steam pressure, such as with pressure washers or by using that generated in the boiler Achieving high pressure steam is not necessary. It is therefore sufficient if the medium pressure, in particular the water pressure is the pressure of a public water supply network corresponds and is preferably 6 bar. It is beneficial when both the pressure and the amount as well the feeding time and the duration between two medium feeding phases are adjustable.

A device for carrying out the method is identified by a lance with a medium connection, into the interior of a feed nozzle or tube for recirculated exhaust gas from a combustion system can be used, the lance at its front free end carries a nozzle head.

The application of the invention requires in most cases no special additional effort, since existing ones Systems in the rear area of the feed nozzles or feed pipes lying in the axial direction of the same Have stubs for importing rods to help with these rods to remove the deposits. About these The lances can cut into the interior of the feed nozzles or feed lines are introduced. Training a nozzle head at the free end of the lance makes it possible Apply medium finely distributed on the deposits. Here it is again advantageous if the spray angle of the nozzle head is adjustable to adapt the trained Make medium veils to the present circumstances to be able to.

If in a further embodiment of the invention the lance inside the feed nozzle or the feed pipe in Is kept displaceable in the longitudinal direction, so is an adjustment of the medium outlet to the respective places where there are deposits. In particular, it is possible the medium emerging from the nozzle head of the advancing Track cleaning effect within the feed nozzle.

So that this cleaning process can be automated and thus according to the observed necessary time intervals can be used, it is advantageous if in Further development of the invention in the feed line for Lance a controllable valve device is provided for Opening and shutting off the medium supply to regulate the Medium pressure and the amount of medium and to regulate the Opening times and the intervals between two opening phases is connected to a control device. With this Valve device and a control device connected to this it is then possible to change the duration of the cleaning and the time intervals between two cleaning processes and the Pressure and the amount according to the respective requirements adjust.

Figur 1:

einen Schnitt durch eine schematisch dargestellte Feuerungsanlage mit Zuführdüsen für rezirkuliertes Abgas;

Figur 2:

einen vergrößerten Ausschnitt einer Wand eines Feuerraumes mit eingesetzten Zuführungsdüsen; und

Figur 3:

einen Schnitt durch eine Zuführungsdüse mit einer erfindungsgemäßen Reinigungsvorrichtung in vergrößertem Maßstab.

The invention is explained below with reference to an embodiment shown in the drawing. The drawing shows:

Figure 1:

a section through a schematically illustrated firing system with feed nozzles for recirculated exhaust gas;

Figure 2:

an enlarged section of a wall of a combustion chamber with inserted feed nozzles; and

Figure 3:

a section through a feed nozzle with a cleaning device according to the invention on an enlarged scale.

FIG. 1 shows a furnace with a feed hopper 1 with subsequent chute 2 for the task of Firing goods on a feed table 3, on the loading piston 4 are provided to the coming from the feed chute Put the firing material on a grate 5. Below the Firing grate 5 is a total designated 6 device provided for the supply of primary combustion air. There is a firebox 7 above the grate 5, which merges in the front part into an exhaust gas duct 8 to which a waste heat boiler 9 and an exhaust gas purification system from a reactor 10, i.e. a chemical gas cleaning device, and connect a filter 11.

After this emission control system, exhaust gas is re-introduced sucked into the firebox. For this is in the Outlet line of the filter 11, a suction opening 12 is provided, from which a suction line 13 extends into which a fan 14 is used. With the pressure side of the fan is a line 15 connected to the amount of exhaust gas extracted feeds a ring line 16 from the so-called secondary air nozzles 17 are fed via which the exhaust gas extracted is returned to the combustion chamber 7.

As can be seen from FIGS. 2 and 3, there is 18 in the wall the combustion chamber 7 within a niche 19 of the same Feed nozzle or a feed tube 20 is used, wherein the feed nozzle 20 via a flange connection 21 connected to a total of 22 designated manifold is. The manifold has an aligned one hand the feed nozzle 20 aligned tube 23 and another Tube 24 on that with the ring line 16 for the returned Exhaust gas is connected. At the end of the feed nozzle 20 aligned tube 23, a closure cover 25 is provided, in the center of a holding device 26 for a Lance 27 is provided. The holding device 26 is in the Able to receive the lance 27 displaceably in its longitudinal direction. At the front end of the lance 27 is a nozzle head 28 intended. On the one opposite the nozzle head 28 a valve device 29 is arranged at the rear end of the lance 27, to which a water supply line in the form of a Hose 30 is flanged. The valve device 29 stands via a line 31 to a control device 32 in connection, which is able to supply water to the lance 27 regulate in terms of pressure and quantity and also shut off and open the valve device 29, whereby also the time intervals between the opening phases and the Length of the opening phases set by the control device 32 can be.

The nozzle head 28 provided at the front end of the lance 27 allows water to be sprayed out in the form of a conical Water curtain, the cone angle is adjustable. This water curtain is in figure with dash-dotted lines 3 indicated and provided with the reference number 33. With dashed lines Lines 34 depict deposits that are both inside the feed nozzle as well as on the outside thereof occur when exhaust gas from the supply nozzle 20 is blown into the combustion chamber 7. The length of time in which Such deposits form depends on the composition of the exhaust gas and also depending on whether only exhaust gas or exhaust gas mixed with ambient air via the feed nozzles 20 is introduced into the combustion chamber 7.

To remove these deposits 34 is now on the Lance 27 water introduced, being in the direction of flow the exhaust gas front edge 35 of the deposits started becomes. The direction of flow of the exhaust gases is with arrow 36 featured. The sprayed water now penetrates the porous mass of the deposits 34 and is due to the strong heat radiation from the combustion chamber 7 into the feed nozzle penetrates, evaporated suddenly, so that the deposits 34 from the inside out of the wall of the feed nozzle 20 are blown off. In doing so, the blasting new rough, i.e. porous fracture areas created, into which the water can penetrate particularly well.

Claims (14)

Process for the removal of deposits in and on feed nozzles or feed pipes of combustion plants, in which these deposits settle from recirculated exhaust gas which is fed back into a combustion chamber, a liquid medium being applied to the deposits, characterized in that the liquid medium in A droplet is sprayed onto the deposits so that the medium is applied to the deposits in the flow direction of the exhaust gases within the feed nozzles or feed pipes, starting with the front edge of the deposits in the flow direction of the exhaust gases within the feed nozzles or feed pipes. A method according to claim 1, characterized in that the liquid medium is applied to the deposits in a fine distribution as a droplet mist. Process for the removal of deposits in and on feed nozzles or feed pipes of combustion plants, in which these deposits settle from recirculated exhaust gas which is fed back into a combustion chamber, a vaporous medium being applied to the deposits, characterized in that the vaporous medium in The direction of flow of the exhaust gases within the feed nozzles or the feed pipes is applied to the front edge of the deposits in the flow direction of the exhaust gases within the feed nozzles or the feed pipes. A method according to claim 1 or 2, characterized in that the liquid medium is water. A method according to claim 3, characterized in that the vaporous medium is water vapor. Method according to one of claims 1 to 5, characterized in that the medium is fed concentrically to the feed nozzle or to the feed pipe. Method according to one of claims 1 to 6, characterized in that the medium is supplied in the form of a conical veil. A method according to claim 7, characterized in that the cone angle of the medium veil is adjustable from 10 ° to 180 °. Method according to one of the preceding claims, characterized in that the pressure of the liquid medium corresponds to the pressure of a public water supply network and is preferably 6 bar. Method according to one of claims 1 to 9, characterized in that both the medium pressure and the medium quantity as well as the supply time and the duration between two medium supply phases can be regulated. Apparatus for carrying out the method according to one of claims 1 to 10, characterized by a lance (27) having a medium connection, which can be inserted into the interior of a feed nozzle (20) or a feed pipe for recirculated exhaust gas from a furnace, the lance (27) being on carries a nozzle head (28) at its front free end. Apparatus according to claim 11, characterized in that the spray angle of the nozzle head (28) is adjustable. Apparatus according to claim 11 or 12, characterized in that the lance (27) is held in the interior of the feed nozzle (20) or the feed tube so as to be displaceable (26) in the longitudinal direction. Device according to one of claims 11 to 13, characterized in that a controllable valve device (29) is provided in the feed line (30) to the lance (27), which is used to open and shut off the medium supply, to regulate the medium pressure and the quantity of medium as well as Regulation of the opening times and the intervals between two opening phases is connected to a control device (32).

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