FR2530793A1 - High-temperature furnace provided with an improved internal lining. - Google Patents

Abstract

High-temperature furnace having a shell intended to be placed in a vertical position, the said furnace being equipped with a temperature-resistant lining and being covered by a dome at its upper end. The lining of the furnace comprises at least one layer 21 of a first insulating means which, housed within the shell 11, supports the dome 20, and a second insulating means 29 which is arranged against the inner face of the first insulating means and which is independent of the inner face of the bottom or base of the dome 20, it being possible for this second insulating means to expand without exerting any rising thrust on the dome. Application to the gasification of coal.

Description

 The present invention relates, in general, to ~ a high temperature oven structure. More specifically, the invention relates to an improvement made to the internal structure of a high temperature oven of the type used as a generator in a coal gasification process.

In an oven of the type used in the gasification of coal or the like, the internal structure of the generator, that is to say of the oven, comprises a steel casing and its interior consists of walls of refractory brigades. These walls are held in place using insulating cement and by means of insulation from casting. The geometrical structure of the walls or columns of brigades presents at its top a dome intended to marry the hemispherical configuration of the tank itself. Such a generator is subjected to a strong wear because the internal temperatures provoked by the gasification process are extremely high and that the production of liquid slag tends to erode the internal faces of the walls This erosion is particularly strong from top to bottom on the side walls below the dome. Consequently the lifetime of such an oven is limited and - it requires the preparation and repair of the antenna structure of the walls, long and expensive operations
Many internal structures of oven walls have been proposed in the prior art, for example in US patents 1,463,053 (Liptak), 1,806,793 (Dobie),
2,114,960 (Beall), 2,548,908 (Pollen), 2,818,035 (Nygaard), 3,315,950 (Potocnit et al) and 4,130,391 (Boggum et al). None of these patents relates to a basic object of the present invention, which relates to the possibility of replacing an internal wall of refractory bricks without touching the remaining part of the structure of the walls of the furnace. This remaining part consists in dome whose lower edges must be supported.

 The present invention therefore aims to provide a high temperature oven structure equipped with an internal wall at high surface temperature, or coating of refractory bricks capable of expanding without lifting the dome from inside the oven.

 The invention also aims to provide a high temperature oven with a high surface temperature wall or column consisting of an internal coating which can be easily replaced independently of the support of the dome inside the oven.

 Another object of the invention consists in proposing a wall or column of bricks with a high surface temperature which can withstand the high temperatures prevailing in an oven serving as a gasification generator, without having to have sufficient crushing resistance to support the dome. from such an oven.

 In summary, the invention applies to a high temperature oven provided with a casing and intended to be placed in a vertical position. This oven has a temperature resistant resale, the upper end of which has a dome. Said coating comprises at least one layer of a first insulating means housed in the envelope and supporting the dome. This oven also includes a second insulating means placed against the internal face of said first insulating means. This second insulating means is independent and applied against the internal face of the bottom or base of the dome without exerting any upward thrust on this dome.

 Furthermore, the invention applies to a high temperature oven comprising an envelope and designed to be mounted in a vertical position. This oven has a temperature-resistant coating which includes a dome made of refractory bricks and, at the upper end of said coating, a first layer of refractory bricks whose strength is sufficient to support said dome, which rests on this layer.

Said coating further comprises a layer of insulating cement contiguous to the internal face of the wall of the envelope, as well as several layers of refractory bricks between this cement and said first layer of bricks. In addition, this coating has a second layer of independent refractory bricks placed on the internal face of said first layer in order to resist the aforementioned high temperatures. This second layer consists of replaceable bricks and it extends vertically above the base of the dome, which allows it to expand without exerting any push from bottom to top on said dome. In addition, the temperature-resistant coating includes insulation from casting, which fills the cavities.

between the layer of insulating cement, the dome and the other layers of bricks.

 Furthermore, the invention relates to a high temperature furnace for the gasification of coal and the like, which comprises a combustion chamber making it possible to carry out said gasification of coal and pierced with an inlet orifice at its top and of an exhaust port in its bottom. This oven also has a dome which surrounds said inlet orifice and which is constructed of bricks at high surface temperatures to resist the gasification process, as well as a first side wall which, supporting this dome, consists of insulating bricks, of which the crush resistance is sufficient at temperatures lower than those of gasification.

This oven also has, on the internal face of said first side wall, a second side wall composed of bricks at high surface temperatures which resist the gasification process without supporting said dome.

The invention will now be described in more detail with reference to the attached drawing by way of nonlimiting example and in which
Figure 1 is a schematic longitudinal section showing an oven according to the invention; and
FIG. 2 is a fragmentary cross-section on an enlarged scale along line 2-2 of FIG. 1, illustrating the plain of the side walls of the furnace of this FIG. 1.

 In coal gasification and similar processes, it is necessary to build a generator which, in fact, consists of an oven inside which this gasification takes place. Such a generator, moreover, consists of an oven provided with a steel casing which must be coated with refractory materials in order to resist the high temperatures caused by combustion during gasification carried out inside this oven. In addition, the gasification of solid bodies results in the production of high-temperature liquid slag which tends to seep down along the walls of the furnace and which exert highly corrosive effects on the internal faces of these walls. I1 results from this that the longevity of the internal coating is very short and that its replacement becomes very expensive. This is particularly so since the conventional embodiment comprises, at the top of the furnace, a dome consisting of refractory bricks resistant to high temperatures and supported by underlying vertical side walls formed by similar refractory bricks.

However, the corrosive effects are much stronger below the dome, so that c1 is the lower part of the wall which requires replacement while the dome itself remains essentially intact. However, prior to the present invention, when the support walls had to be replaced, it was also necessary to remove the dome since the underlying walls which support it were dismantled for replacement.

 The internal structure of an oven in accordance with the present invention makes it possible to replace the internal layer of the wall of the oven independently of the support of the dome.

Another advantage obtained- lies in the fact that the walls supporting the e dome can be made of stronger bricks since they will not be exposed to the high temperatures or to the erosion to which the other internal surfaces of the oven will be subjected. . Thus, an internal layer made of bricks at high surface temperatures can expand independently of the support structure of the dome. It is therefore relieved of any support load or any pressure resulting from expansion phenomena.

It will be observed that, within the framework of this thesis, the use of the expression 11 refractory bricks9 ′ is supposed to relate in particular to bricks which can withstand excessive temperatures and resist the surface heat which affects the internal coating of the chamber of a furnace. moreover, the expression "brick at high surface temperature" is intended to designate a brick which, resisting relatively well at a high temperature, can however be designed to have a better crushing resistance than bricks qualified as "refractory bricks".
Referring to the drawing, it can be seen that the latter schematically illustrates a generator for the gasification of coal which is constituted by the high temperature furnace according to the present invention. This oven has an envelope 11 which can be made of any suitable material, such as steel or the like. This envelope is intended to be placed in a vertical position, as shown in Figure 1. This is why the bottom of this envelope 11 has a sole 12. Inside the envelope 11, there is a combustion 15 where the reaction takes place during gasification, and the top and bottom of this chamber 15 are pierced with an inlet port 16 and an exhaust port 17, respectively.

 A heat-resistant coating, placed inside the envelope 11, comprises a form 20 which, made of refractory bricks, is arranged as illustrated at the upper end of the lining of the furnace. In addition, a first layer 21 of bricks at high surface temperatures has sufficient strength to support the doAme 20. The base of this dome 20 rests on the top of the wall or column of the bricks of this layer 21. A layer 24 of cement insulation is contiguous to the internal face of the wall of the envelope 11. In addition, several layers 25 and 26 of bricks at high surface temperatures are interposed between the layer 24 of cement and the first layer of bricks 21.

 A second independent layer 29 of refractory bricks is placed against the internal face of the first layer 21 and it acts as a layer of bricks at high surface temperatures to resist the high temperatures prevailing inside the chamber 15.

This layer 29 is composed of replaceable bricks and it extends vertically beyond the bottom or base of the dome 20, which allows expansion of the wall or column of bricks of this layer 29 without exerting a push from the bottom up or no support load on said dôm 20.

 The remaining spaces inside the envelope 11 are filled with the aid of an insulation provided by casting, that is to say an insulating layer 30 near the bottom of the furnace and insulating layers 31 and 32 near its summit. It should also be noted that the base of the layer 21 is supported on an angle 35, while the independent layer 29 is supported by another angle 36. It will be noted that the exhaust orifice 17 can be aligned with a layer 39 of refractory bricks, including a frustoconical upper region 40 joining the base of the layer 29.

 As mentioned above, it is obvious that a primary advantage of the structure of the oven according to the present invention consists in the possibility, for the internal layer 29, of expanding without lifting the dome 20 or imposing any excessive compression load on the columns of this layer 29. In addition, the bricks of this layer 29 can be replaced easily without harming the support of the dome 20, since the latter is kept supported vertically by the other brick columns of the layer 21. Another advantage of this embodiment resides in the fact that the bricks of the columns of the layer 29 are made of materials which do not necessarily have to have an excellent resistance to support the dome 20.

As a result, these bricks can be more effective in withstanding high temperatures and they can also be more economical.

 It goes without saying that numerous modifications can be made to the oven described and shown, without going beyond the ambit of the invention.

Claims (9)

 1. High temperature oven having an envelope intended to be placed in a vertical position, said oven being provided with a temperature resistant coating and capped by a dome at its upper end, oven characterized in that the coating comprises at at least one layer (21) of a first insulating means, which, housed inside the envelope (11), supports the dome (203), as well as a second insulating means (29) which is disposed against the internal face of the first insulating means and which is independent of the internal face of the bottom or base of the dome (203, this second insulating means being able to expand without exerting any upward thrust on the dome.  2, Oven according to claim 1, characterized in that the second insulating means consists of a layer (29) of refractory material to withstand high temperatures.  3. Oven according to claim 2, characterized in that the layer forming the second insulating means consists of replaceable bricks.  4. Oven according to claim 3, characterized in that the layer forming the second insulating means extends vertically above the bottom or base of the dome (20).  5. Oven according to claim 4, characterized in that the first insulating means consists of a layer (21) of bricks at high surface temperatures having sufficient strength to support the dome; and by the fact that said dome (20) is made of refractory bricks and rests on the top of the first insulating layer (21) of bricks at high surface temperatures.  6. Oven according to claim 5, characterized in that its coating further comprises a layer (24) of insulating cement contiguous to the envelope (11), as well as at least one layer (25; 26) of bricks to high surface temperatures placed against the external face of the first layer of insulating means.  7 High-temperature oven with an envelope and intended to be placed in a vertical position, this oven being provided with a temperature-resistant coating, which comprises a dome made of refractory bricks and placed at the upper end of said rev ' etement, oven characterized in that it comprises a first layer (21) of bricks at high temperatures super-surface- them having sufficient strength to support the lady (20), which rests on said layer, a layer (24) of insulating cement contiguous to the internal face of said envelope, several layers (25, 26) of bricks at high surface temperatures interposed between said layer of cement and said first layer of bricks, as well as a second independent layer (29) of bricks refractories, placed against the internal face of said first layer (to withstand the aforementioned high temperatures; by the fact that said second layer consists of replaceable bricks and extends vertically above the bottom or base of said dome (20) so as to be able to expand without exerting an upward push on said dome; and by the fact that an insulation from casting fills the spaces between said layer of insulating cement, said dome and said other layers of bricks.  8. High temperature oven for the gasification of coal and other similar processes, comprising a combustion chamber in which the said gasification takes place and which has an inlet orifice at its top and an exhaust orifice at its bottom, a dome which, surrounding said inlet, is made of bricks at high surface temperatures to be exposed to the phenomena of said carbonation of coal, oven characterized in that it comprises a first side wall (21) for supporting said dome ( 20), made of insulating bricks having sufficient crushing resistance at temperatures below the temperature of said gasification; as well as a second side wall (25) which, applied against the internal face of said first side wall (21), is made of bricks at high surface temperatures with a view to being exposed to the temperature of said coal gasification, without providing any support for said dome (20).  9. High temperature oven according to claim 8, characterized in that it comprises an envelope (11) in which is located the combustion chamber.