DE468196C - Process for the operation of oil or gas firing systems that work with excess pressure - Google Patents

Description

It is known that the pressure firing systems of steam boilers and Ovens of all kinds have a number of advantages over those that work by train. the Fans of the firing systems, which work with artificial drafts, suck in the warm flue gases away; since they have to suck off large volumes of gas, their dimensions and power requirements are large, as are their structural design difficult. In contrast, those used with pressurized furnaces deliver Low pressure air blowers cold or moderately preheated Air, so they have a much smaller volume than the flue gas blower.

¹ S mina, their training is easier, the dimensions and the power required are smaller. Furthermore, the adverse effect of the so-called wrong draft is prevented and the chimney structures, which are expensive to build, are eliminated. The purpose of the present invention is now to enable the introduction of pressure firing in any existing or to be built boiler and furnace system without major modifications, furthermore to give the furnace great adaptability and to meet the requirements of the various industries with regard to controllability of the combustion temperature and composition of the To match smoke gases.

The subject of the invention ¹ is a method for operating oil and gas firing systems working with overpressure for steam boilers and industrial furnaces, in which the overpressure of the exhausting flue gases, i.e. the volume thereof, is kept constant at a certain Fuchs cross-section by increasing the amount of combustion air to be introduced depending on the freely adjustable amount of the imported fuel is regulated by the overpressure of the exhausting flue gases. The amount of combustion air to be introduced can be regulated in such a way that the pressure of the exhausting flue gases acts on a pressure regulator which controls a flap built into the pressure line of the blower.

The method is carried out, for example, as follows: The free fox cross section is set according to the respective load on the boiler or furnace and at the same time the pressure regulator to a certain low overpressure of some Millimeters of water column of the evacuating smoke gases set on the slide. Well will the combustion air by means of a fan and by opening a fuel valve or The fuel is blown into the slide valve, whereby the pressure of the fuel supplied is higher must be kept than that of the combustion air. The automatic pressure regulator works on a flap arranged in the pressure line of the blower and only allows so much Air flow into the combustion chamber that the once set overpressure of the exhausting smoke gases at the smoke valve preserved. The carbon dioxide level is checked by an automatic carbon dioxide tester

stop of the smoke gases constantly detected. It turns out that the carbonic acid content is too small, d. H. the excess air is too great, the fuel valve is opened by the hand, opened more by a lever or the like, whereby more fuel gets into the boiler room and thus the excess pressure of the exhaust gases increases. The pressure regulator therefore acts on the flap of the Gebiases, reducing the amount of imported Air decreases. The free adjustment of the fuel valve according to the Display of the carbon dioxide tester makes the steady state very easy and convenient at which the greatest carbonic acid content is achieved. Should now be a change in load occur, the flue gas valve is opened more or less and the operation is as described above Way adapted to the respective load.

The great advantage of the present procedure consists in the fact that at a certain fox cross-section for setting and regulation only one means of combustion, namely the amount of fuel, can be freely regulated, whereby the corresponding amount of air adjusts itself automatically, while with the previous ones Method two means, d. i. the amount of air and fuel, independent of each other " had to be regulated. The process is suitable for steam boiler and industrial firing of all kinds, especially for the furnaces of the chemical industry and the Metallurgy, where other considerations are often decisive for the setting of the furnace are.

Are z. B. very specific low flame temperatures required, so it is Fuel valve throttled accordingly, thereby reducing the temperature required for low temperatures Automatically adjusts excess air. For example, if a reducing flame is required, so the fuel valve must be opened more. Must have certain heating speeds are adhered to, this can be easily achieved, since the volume of the exhaust gases according to the Procedure kept at a certain gate opening anyway at the same level and temperature control can be done very easily.

The drawing shows two exemplary embodiments of the present method, namely show

Fig. Ι an embodiment of a gas-fired steam boiler,

Fig. 2 shows a similar design for an oil-fired industrial furnace.

The combustion chamber 2 (Fig. 1) of an ordinary steam boiler 1 is through a front wall 3 completed. A generator gas line 5 provided with a gas valve 4 and an air line 6 open into this space. j The air is in the combustion chamber by means of a low pressure fan 7 via an in the air ι line 6 built-in flap 8 blown in. The flap 8 is controlled by a pressure regulator 9 ! operated, the bell 10 by means of line 11 j is influenced by the respective pressure of the exhaust gases at the slide 12.

A similar arrangement is shown in Fig. 2 for an industrial furnace 13. The one used The fuel here is oil, which passes through an oil line 14 into the air line 6 and from here Via an atomizer 15 together with the combustion air into the heating room 16 is introduced.

This arrangement can be easily and conveniently attached to any furnace without significant Attach costs and tags. Just make sure that the doors and close other openings tightly.

Claims (2)

Patent claims: 1. Procedure for operating oil or gas firing systems that operate with overpressure for steam boilers and industrial furnaces, characterized in that the excess pressure of the exhaust gases, that is, the volume of the same, kept constant for a certain Fuchs cross-section is by changing the amount of combustion air to be introduced depending on the freely adjustable amount of the introduced Fuel is regulated by the overpressure of the exhausting flue gases. 2. The method according to claim 1, characterized in that the pressure of the peeling Flue gases act on a pressure regulator, the one in the pressure line the air blower built-in flap controls. For this purpose ι sheet of drawings