DE1930972A1 - Chimney with draft control - Google Patents

Description

Pilkington Brothers Limited, 201-211 Martins Bank Building, Water Street, Liverpool 2, Lancashire, England

Chimney with draft control

The invention relates to a chimney with draft control ,,

In the case of chimney stones equipped with a flue gas preheater, the heat is extracted through heat exchange between the heating gases and fresh air and there is a draft control vibliGh, in which air is introduced down into the chimney o This is done by nozzles arranged in the inner wall at an even distance from one another in the area of the chimney top _o By regulating the air supply to the nozzles, the draft of the connected stove can be regulated to a certain extent. However, this control is not entirely satisfactory, since it is extremely dependent on the arrangement of the parts on the chimney crown, and furthermore, condensate accumulates in this area during operation, which reduces the quality of the control.

The invention is based on the object of an improved control of the pressure in the furnace by means of a draft control by introducing air into the chimney. ,,.

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This object is [solved by the invention that the chimney an inwardly directed Plansch! for deflecting the heating gases flowing outwardly on its jacket in the direction of its axis; and a single air nozzle is directed in the axial direction of the chimney, from which air exits through the cross-section in the region of the flange at sufficient speed to penetrate far enough behind the flange and cause the heating gases to circulate upstream of the flange ,,

This training of the tension control means that the | Regulation of the pressure in the furnace, the extraction of heat in the flue gas preheater and thus the efficiency of the system improved considerably

In a further embodiment of the invention it is provided that the flange is located on the crown of the chimney and the air nozzle is arranged on this in the axis o Here it is useful if a windshield surrounding the air nozzle and the crown is placed on the crown of the chimney isto placed j Further, it is expedient if the opening of the air nozzle is located above the flange "Moreover, it is advantageous-f way, when a economizer upstream of the flange j associated with the chimney _e ■

In the case of chimneys for stoves, it is provided that the air nozzle is assigned the flow-regulating devices which can be actuated as a function of the pressure in the furnace. Hierj it is useful if a pressure sensor is installed in the furnace.

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is ordered, which supplies a signal indicating the pressure, which an actuator for the air supply to the air nozzle controlling Valve actuated

According to a further feature of the invention is provided that is provided in a glass melting furnace of DruckabfuhLeB in the vicinity of its spout ₀

The invention also relates to a method for operating a stove with a chimney with draft control. This consists in the fact that heating gases rising along the casing of the chimney are deflected in the direction of its axis and air in the axis is directed down the chimney at such a speed that one cycle the hot gases enter upstream of the point at which the deflection takes place inwards. In a further refinement of this The method provides that the redirection of the heating gases takes place inwards at the crown of the chimney, so that the circulation the heating gases through the air supplied in the upper part of the Chimney. It is also provided that in a glass melting furnace, the pressure in the space above the molten Glass is sensed and the supply of air to the chimney depends on changes in this pressure in the sense of »keeping it constant the pressure in the space above the molten glass is controlled ",

In the drawing, exemplary embodiments of the invention are shown «In the drawing

. Pig «1 a schematic, partly cut

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; ■. Side view of a chimney with

■ a tension control according to the invention,

2 shows a partial side view of a modified

The third embodiment: Figo 3 shows a plan view of Fig. 2 and

Fig. 4 is a schematic representation of a

Glass melting furnace with a draft control according to dex invention,

In Fig. 1 is a substantially cylindrical!

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Chimney / J to which a flue gas preheater is assigned is shown «, At the crown of the chimney an inwardly directed horizontal flange 2 is formed, which extends along the Mantle of the chimney deflects rising hot gases 3 on its axis. In a collar 5, which is supported by struts 6 is attached to the crown of the chimney, an air nozzle 4 is held above the crown and in the axis of the chimney, whose mouth 7 is directed essentially in the axis of the chimney in, this.

From a supply line 8, controlled by a flap valve 9, air is directed to the air nozzle 4, which flows out through the mouth 7 of the air nozzle at such a speed that, as indicated by the arrows 10, it essentially penetrates into the interior of the chimney and together ', " with the deflecting effect of the flange in the upper part of the chimney causes a circulation of the heating gases, which is indicated by the arrows

j 1i is indicated. The gases flowing in from the flue gas preheater

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flow, as the arrows 12 show, in the axial direction of the chimney 1 “The pressure in the furnace is controlled by the speed pressure of the air 10 introduced through the air nozzle 4 « A desired change in the pressure in the furnace can therefore be made by adjusting the valve 9, whereby a certain Changes in the volume of the air introduced took place in this way Getting corrected. Experience has shown that this regulation is not only reliable but also very effective »

In the embodiment according to FIG. 1, the mouth 7 of the air nozzle 4 lies essentially in the plane Flange 2 on the crown of the chimney “It was, however found that an improvement in the regulation can be achieved if the mouth 7 of the air nozzle is above the crown and above of the flange 2 is, as is the case with the embodiment according to FIG and 3 showed

The optimal position of the mouth of the air nozzle is determined by the special conditions of the system. Typically, a conduit 13 leads, as shown _e in Figure 2, by a flap valve 14 to the air nozzle 4 to supply this represented by a nichi feed line. The line contains sections which can be displaced telescopically with respect to one another and which facilitate the adjustment of the air nozzle 4 and at the same time enable the part carrying the air nozzle to be aligned.

In this embodiment, in which the air nozzle is above the crown of the chimney, it is advantageous

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the air exiting the air nozzle is subject to the influence of the!

To withdraw from the wind. For this purpose, a windshield ± m before- j

seen, which has a bottom 16 on rings 17 on the outside - i

wall of the chimney 1 is fixed and a jacket 18 has, the height of which corresponds at least to the distance between the mouth 7 of the air nozzle 4 above the Biden 16. In special wind conditions the coat can be chosen higher. In the exemplary embodiment, the windshield has a square cross-section; but this could also have a different shape, such as, for example, the shape of an octagon. ■

In order to obtain optimal control under given operating conditions, the dimensions of the individual parts must and the speed of the air introduced can be selected. In the system shown in FIGS. 2 and 3, z «B. the diameter of the chimney 915 mm, and the mouth 7 of the Air nozzle 4 has a diameter of 100 mm. The air nozzle 4 a blower feeds air at a pressure of 203 mm water column in an amount of 68 m per minute. By setting of the valve 14, the incoming air flow can be regulated, for example, by a computer that depends on the valve actuated by a signal indicating the pressure in the oven, as will be described in FIG. 4.

It was found that when a flange 2 of 152 mm wide was arranged, this was formed by the arrangement of a cover plate with a hole of 610 mm in diameter, and when setting the mouth 7 of the air nozzle 762 mm above

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the crown of the chimney deviations of 0.178 mm WS at ^:

occurred at a mean pressure in the furnace of 1.65 mm water column, where! the flap valve 14 was open about $ 50 _e when the

Distance of the mouth 7 from the crown of the chimney to j 914 mm, the deviation decreased to 0.126 mm WS

an opening of the valve 14 between 47 and 54 $. At a ; "further Improvement of the distance of the mouth 7 above the crown!

the deviation increased to 1066 mm. '

ι The values just mentioned were essentially *

borrowed wind conditions with not excessively strong wind determined. Tests were carried out under the same wind conditions with
a cover plate with an opening of 508 mm diameter, with which a plan width of 203 mm is formed '
would. At a distance of the opening 7 of the air nozzle of 762 mm above the crown, the deviation was 1.254 mm water column with a mean pressure in the furnace of 1.65 mm water column, with the valve
14 was open a little less than $ 20. When using a
Cover plate with an opening of 711 mm diameter, that is to say a flange width of 102 mm and the same arrangement of the air nozzle 4. the pressure in the furnace did not rise above 0.76 mm WS ₀

In these attempts the windshield had

a height that the jacket 18 meets the mouth 7 of the air nozzle 4
mn protruded 305 mm.

From these results it can be seen that under j normal wind conditions the most advantageous arrangement is
50 opening of the valve the one with a cover plate!

with an opening of 610 mm and 914 mm above the crown

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Mouth 7 is. In gusty winds with suddenly changing direction, it was found that temporary changes of the pressure in the furnace that can occur, but quickly the normal regulation is achieved again.

In a stormy wind, with the valve 14 fully open, the mouth 7 of the air nozzle was at a height of 762 mm set above the crown of the chimney and the feed the air by an additional fan upstream of the main fan supports. It was found that under these conditions a cover plate with an opening of 508 mm diameter It is advantageous »The flap valve 14 was here to maintain a mean pressure in the furnace of 1.65 mm water column open about $ 20. This normal opening close to the closed position the valve was not detrimental as a scheme was on yet smaller opening is less necessary and on the other hand one wide control range is available in the opening sense, i.e. a larger volume of air can be controlled towards the chimney can.

The arrangement of the flange 2 and the air nozzle 4 can also be arranged below the crown in the case of high chimneys. be massive in order to have a suitable sensitivity in the regulation of the pressure in the furnace.

It was in the inventive training

also found that a disruptive accumulation of condensate

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sat in the area of the Flalg / nches 2 and the air nozzle 4 does not enter and. thus the regulation is not adversely affected by this

can be"

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A glass melting furnace 19 is shown schematically in FIG. 4, which supplies molten glass to a forehearth 20, that is fed to the drawing nozzles for the known production of glass fibers «. The stove has a chimney 21 with a associated flue gas preheater 22, in which a heat exchange between the heating gases rising in the chimney 2t and the fresh air supplied via the preheater takes place, the with fuel gases mixed flows towards the burners of the furnace. A tension control 23 of the previously described construction is on the crown of the chimney 21 is provided, the air is fed via a fan 24 controlled by a flap valve 25 «

In a wall 27 of the glass melting furnace 19, near its spout, a pressure sensor 26 is arranged, which detects the pressure in the space above the molten glass. and supplies a signal indicating the pressure. A pressure sensor 29 for the outside air pressure is arranged at the same height outside the furnace and supplies a signal indicating the outside pressure. Both signals are fed to a control unit 28. _E, the control unit 28 compares the signal for the pressure in the oven with a desired value, taking into account the external pressure, and provides an output 25 of the suction control actuates the valve so that the pressure in the furnace to the adjusted set value regulated This regulation takes place with great accuracy automatically.

The signal supplied by the pressure sensor 28 can, instead of the valve 25, also be used to regulate the fan can be used to control the air supply for draft control.

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However, it is preferable to regulate the valve 25 because ι

this is easier and cheaper to carry out, '

-11 «

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Claims (1)

Claim. 1 «chimney with draft control, thereby g e k e η η ζ e "~ iT c h η e t that the chimney (1) has a inwardly directed flange (2) for deflecting the heating gases flowing upwards on its jacket in the direction of its i Has AEhse, and a single air nozzle (4) is directed in the axial direction of the chimney in this, from the air ± ■ (/ ÜO) through the cross-section in the area of the Flaaaches with sufficient Speed emerges to penetrate far enough behind the flange and a circulation of the heating gases upstream effect of the flange, 2. Chimney according to claim 1, characterized by »* draws that the flange (2) on the crown of the chimney (1) is formed, and the air nozzle (4) i is arranged on this in the axis. i 3 «chimney according to claim 2, characterized in that j I characterized in that the crown of the chimney a Luftiüse the \ (4) and the windshield (18) surrounding the crown is attached. - _t 4 »Chimney according to one of claims 1 to 3, characterized in that the mouth (7) of the air nozzle (4) lies above the flange (t). 5β chimney after one of the preceding Claims, characterized in that the chimney (1) is assigned a flue gas preheater upstream of the flange (2) is. 909882/1 2-83 6. Chimney according to one of claims 1 to for stoves, characterized in that the air nozzle (4) the Flow regulating devices (9, 14, 25) are assigned. which can be activated depending on the pressure in the furnace * ; 7e chimney according to claim 6, characterized ge * "* ^v indicates that in the furnace (19) Druckabfühler (26) is arranged which provides a pressure signal indicative of dal control an actuator for a air supply to the Luftdtise (4) ·. j of the valve (25) is actuated. 8. Chimney according to claim 7, characterized in that in a glass melting furnace (19) the Druckabfühlea (26) is provided near its spout ! 9. Method of operating a furnace with a Chimney with draft control according to claim 1, characterized in that ascending along the jacket of the chimney Heating gases are deflected in the direction of its axis, and air in the axis with such speed in the Sehorn- stone is directed downwards that a circulation of the heating gases occurs upstream of the point at which the deflection after done inside * 10, method according to claim 9 »characterized in that that the redirection of the heating gases inwards takes place at the crown of the chimney, so that the circulation of the heating gases due to the air supplied in the upper part of the chimney a ·· occurs. -13- 9 09882/12 83 11o "Method according to claim 9 or 10, characterized characterized in that the pressure in a glass melting furnace laum above "the molten grass. is sensed and the Supply of air to the chimney depending on changes in this Pressure in the sense of keeping the pressure constant in the room is controlled above the molten grass " 909882/1283 L..rfU