DE7515483U - HEATING DEVICE WITH COMBUSTION CHAMBER - Google Patents

Description

Heating device

The invention relates to a directly fired heating device with a combustion chamber and at least one Burner.

Known atmospheric burners or burners with natural draft for directly fired heating devices have air inlet organs through which combustion air is fed to the combustion chamber of the heating device. Noises generated in the combustion chamber reach the outside through the air inlet organs, with the passage of the combustion air, additional noises are generated by the air inlet organs. These additional noises also get out. In addition, they are the ones with atmospheric burners Organs emitting fuel are unprotected and emit additional noises, which are also transmitted to the outside reach the heater.

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Environmental protection requirements make it necessary that natural draft burners with sound absorbing devices be provided in order to limit the sound propagation in this way. The for this known devices actually limit the propagation of sound but cannot be used for any other purpose and thus cause additional costs without, for example, the thermal efficiency is improved.

In refineries and petrochemical processing plants Fuels used often contain so much sulfur that corrosion problems arise. An effective way To avoid sulfur corrosion inside the heating device, this is done with a wall temperature operate above the H ^ SO ^ / HpSO ^ -Kondensationsbereiches lies. Such an operation, however, has high heat losses from the heating device in relation to the surroundings and cannot be sustained under all environmental conditions.

It is therefore the object of the present invention to eliminate these disadvantages.

This is achieved according to the invention in that the combustion chamber is arranged within an inner housing is, which has the burner or the burner on an end face, and an outer housing is provided which is under a Distance from the end wall is arranged and one

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Flow channel between those exposed to the atmosphere Forms outside of the device and the burner.

The invention solves the problems that arise with regard to the propagation of noise and the Sulfur corrosion result. The heating device has the inner housing, which is at least one atmospheric Enclosing burner, which protrudes into the housing, and an outer housing, which is spaced from the inner Housing is arranged and forms a flow channel that communicates with the ambient air of the burner stands. The measurement channel advantageously has one with sound-absorbing material for noise dampening provided inner surface. According to the invention, in particular, high-frequency noises are limited that result from the Combustion chamber and proceed from the burner.

Furthermore, an increase in the wall temperature of the inner housing is made possible by increasing the strength and density its inner insulating liner is appropriately selected. Due to the double-walled design of the housing are numerous external influences that affect the wall temperature of the inner housing, turned off, so that it is entirely possible to ensure a wall temperature in the inner housing that is above the condensate range of sulfur, for everyone with the exception of the lowest ambient temperatures. The higher wall temperature is common

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achievable by using heat-resistant material of higher density, which at the same time has a higher resistance against peeling, has a higher strength and a lower porosity. The heat-resistant material of higher Density is less gas permeable and prevents corrosive gases from passing through the wall and themselves enough gas could accumulate or acid could condense, so that when the heater is switched off, the Wall could be attacked. As a direct thermal insulation of the wall of the inner housing according to the invention is dispensable, it does not even need a heat-resistant, low-density material or a two-component material. This will reduce costs. This inventive feature reduces the overall Requirements related to the refractory material.

Another advantage of the invention is the arrangement of the flow channel between the inner and outer Housing with a sound-absorbing surface. The inside of the outer housing can be thermally insulating and sound-absorbing material, which among other things creates a particularly favorable heat and sound trap is formed, which can be divided into individual chambers in order to provide sound insulation by absorbing fragmentation to obtain. Since the outer casing usually encloses the inner casing, the combustion chamber is passed through the Sound emerging from the wall of the inner housing is absorbed in the lining of the outer housing. Farther

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heat losses on the wall of the inner housing are compensated for by preheating the combustion air, which passes through the flow channel between the inner and outer housings.

The wall of the inner housing is resistant to all external influences, with the exception of the wind temperature, i.e. wind speed, Precipitation and the like .. shielded so that the temperature of the wall of the inner housing is better controlled can be. The burners do not need to be provided with sound-absorbing devices. The combustion air is preheated so that the fuel requirements can be reduced. the thermal efficiency of the heater is improved.

Another advantage of the invention is that the heating device using inexpensive materials can be created, has a simple structure, easy to create and maintain and the desired operating conditions is customizable.

In the drawing, exemplary embodiments of the invention are shown based on the following description are explained in more detail. It shows:

Fig. 1 is a side view of a vertical,

cylindrical heater according to the invention,

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Flg. 2 shows a side view of the device according to FIG

Flg.1 on an enlarged scale and with individual Breaks away,

Fig. 3 shows a cross section along line 3-3 in Flg. 2,

Fig. 4 is a side view of a box-shaped heating device according to the invention,

FIG. 5 shows a side view of the heating device according to FIG. 4 on an enlarged scale with individual elements Breakouts, and

6 shows a cross section along line 6-6 in FIG. 5.

As can be seen from FIGS. 2 and 5, the heating device consists of a vertical inner housing 11, which according to FIG is cylindrical and box-shaped as shown in FIG. The housing 11 is provided with a bottom 12 and a ceiling 13, which together enclose a combustion chamber 14. The heating devices are mounted on connecting pieces 15 by means of components 16 and with suitable platforms and ladders or stairs, which are not shown. Burner 17 reach through the Bottom 12 into the combustion chamber 14. A convection housing 18 is arranged above the ceiling 13 and a smoke pipe 19 is located above the housing 18, so that hot combustion gases pass from the combustion chamber 14 through the convection housing 18 and then the smoke pipe 19. A or more working fluids are essentially passed through the heating device in a countercurrent process in order to achieve a non-contact heat exchange with the hot To achieve combustion gases. The working fluid expediently flows through the convection tube bundle 22 and then through the radiation tubes 23 within the Combustion chamber 14.

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At a distance from the bottom 12 and the inner housing 11, an outer housing 24 is arranged, which forms a flow channel 26 which flows between the atmosphere 27 and the burners 17 is arranged. Fantastic the outer housing 24 extends into the area of the ceiling 13 of the combustion chamber 14 and has an opening 28, is sucked in by the ambient air. As can be seen most clearly from FIGS. 2 and 5, the burners 17 are connected to a Appropriate fuel line 29 are connected and have orifices that feed the fuel through blocks 33 lead out ceramic material. The air inlet organs for the combustion air control the air supply to the Burners 17 in a known manner.

The outer wall 25 of the inner housing 11 is on its after inside facing surface is provided with heat-resistant material 36 in the form of a cast-on insulating material layer. In order to protect the housing 11 against sulfur corrosion, it is desirable to keep the temperature of the housing 11 above to keep the condensation range for sulfur oxides. The density and strength of the fire-resistant insulation 36 and / or a refractory brick lining 39 are selected with this requirement in mind. Such Isolations are known.

The sound emission from the combustion chamber 14 and from the burners 17 can be controlled in that the access of the Air to the burners 17 through the flow channel 26 and the opening 28 is controlled or closed. To this In this way, silencers are practically unnecessary. The after

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Inwardly facing surface 37 of the outer housing 24 is expediently provided with a sound- and / or heat-insulating lining 38. Glass fibers a density of 0 _f 048G / cc or mineral wool a density of 0.096 g / cc are suitable for the lining 38 because they are a long-fiber material of low density, good insulating properties has and withstands high air speeds that they face in the flow channel 26 are.

• Expectations -

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Claims (8)

- 9 -claims s 1. Directly fired heating device with a combustion chamber and at least one burner, characterized in that the combustion chamber (14) within an inner housing (11) is arranged, which has the burner or burners (17) on one end face (12), and an outer housing (24) is provided which is spaced from at least the end wall (12) is arranged and a flow channel (26) between the exposed to the atmosphere outside (27) of the device and the burner (17) forms. 2. Apparatus according to claim 1, characterized in that the flow channel (26) has a sound-absorbing wall (37). 3. Apparatus according to claim 1, characterized in that the flow channel (26) has a sound and heat insulating has equipped wall (37). 4. Device according to one of claims 1 to 3, characterized in that the inner housing (11) is constructed from metal plates, the inwardly facing surfaces are provided with heat-resistant insulation. 5. Apparatus according to claim 4, characterized in that the inner housing (11) is arranged vertically and has a bottom (12) and that the outer housing (24) encloses the bottom (12) of the inner housing (11) and itself along the side walls of the inner housing (11). 7515433 1/15/76 6. Apparatus according to claim 5 »characterized in that the inner housing (11) has a cover (13) and that the outer housing (24) extends into the region of the ceiling (13). 7. Apparatus according to claim 6, characterized in that the burner (17) is provided with an air inlet member, which is provided between the flow channel (26) and the combustion chamber (14). 8. Apparatus according to claim 7, characterized in that the inner housing (11) is cylindrical. 7515 ^ 3 1/15/76