DE19920113A1 - Method and device for heating up a furnace zone containing contaminated waste gases with residual oxygen content applies hot gases generated by fuel combustion to the waste gases - Google Patents

Abstract

A burner has a casing (1) that connects to a wall (2) in an appropriate furnace zone and houses a furnace port-end (3) operating as a gas-air port mixer. This is connected to a gas supply pipe (5) via a main gas pipe (4). Combustion air reaches the port-end via the casing connected to an air supply pipe (6) fed by a fan. The gas supply pipe has a regulator (8) that depends on the flow pressure in the air supply pipe.

Description

The invention relates to a method and a Vorrich device for heating a furnace space, the furnace space heat by burning a fuel, especially a gas shaped fuel is supplied.

In all combustion processes, the aim is set the efficiency as high as possible. Here in is also the object of the invention, namely in education improvement of efficiency.

To solve this problem is the Ver drive according to the invention characterized in that the Fuel at furnace chamber temperatures below a given limit value with the addition of combustion air is burned, the generated heating gases in the furnace chamber be introduced, and that the fuel at furnace room temperature temperatures above the specified limit without addition of combustion air is introduced into the furnace chamber.

The main field of application of the invention is thermal Treatment of contaminated exhaust gases. The invention lies based on the knowledge that the contaminated exhaust gases, such as thermal or regenerative post-combustion plants are supplied, still contain a high proportion of oxygen The invention makes use of this fact. As long as the exhaust gases are not sufficiently heated are, the fuel supplied is conventionally ver burns, d. that is, with the addition of combustion air and under Formation of a flame. Is the specified limit is sufficient, the addition of the combustion air is interrupted chen. The fuel goes directly into the exhaust gases, where it the oxygen present there reacts flamelessly. The essential energetic advantage is that the on there is no heating of the combustion air. The one in the exhaust contained oxygen is in contrast to that  Oxygen in the combustion air, already at a high temperature door. In particular, it is no longer necessary to heat the Atmospheric nitrogen, which is after all about 80% of the combustion air matters. The fuel control is preferably modu annoying.

The invention can be used wherever the furnace space to be heated contains residual oxygen.

It was found that the predetermined limit of Furnace temperatures above which the addition of Combustion air can be dispensed with at approx. 800 ° C lies.

By recording the oxygen content in the furnace chamber can be prevented in the absence of additional Combustion air for substoichiometric combustion is coming. It is then with partial combustion air supply worked.

The fuel can be liquid or from fluidisable ren solid particles exist. Natural gas is preferred used.

The device for heating an oven space on the the invention is also directed to a burner, whose hot gas outlet is connected to the furnace chamber, and with supply lines for fuel, especially gas shaped fuel, and provided for combustion air where for control devices belonging to the supply lines exhibit. In this respect, the device has a konven tional structure. However, it is already suitable for the Implementation of the method according to the invention since the Control devices provided in the supply lines depending on the temperature in the furnace chamber Allow the above the specified limit Supply of combustion air is switched off. The burner, which is a premix burner, preferably can act a muzzle-mixing burner then delivers only the desired amount of fuel in the furnace chamber.  

However, it is more advantageous to have a device for Introduce the fuel into the furnace space to provide that via a separate control device to the fuel ver supply line is connected. So there is no need Intervention in the conventional burner control. When over change to a driving style without the supply of combustion air the burner is switched off, whereupon the additional Facility goes into action and the furnace room with fuel provided.

This additional facility is pre preferably around a fuel introduced into the furnace chamber lance, which advantageously also integrated into the burner can be.

In a further development of the invention, it is proposed to provide a controller for actuating the regulating devices which detects the temperature in the furnace chamber, this controller preferably having an O ₂ probe which detects the oxygen content in the furnace chamber. Depending on the temperature in the furnace chamber, the control automatically switches the combustion air on or off, whereby the O ₂ probe prevents a substoichiometric driving style.

The invention also provides a burner for heating a furnace chamber, with a burner head for burning a Fuel-combustion air mixture and supply line conditions for fuel, in particular gaseous fuel, and for combustion air, with the supply lines belonging Rige control devices and this burner is characterized according to the invention by a fuel flange ze that to the burning via a separate control device material supply line is connected.

The fuel lance can be placed anywhere in the Introduce the furnace space and, for example, outside the burner rim be arranged. On the other hand, it is more advantageous to lay inside the burner and through the burner head through.  

The burner can be for liquid or particulate Fuels should be designed, but preferably for gas shaped fuels, especially natural gas. He can be as a pre mixing burners work. However, it preferably marks the fact that the burner head as a gas-air muzzle shear trained and via a central gas pipe to an in the fuel supply line arranged composite controller is connected and that the fuel lance under Zwi switching a controllable valve upstream of the ver federal regulator connected to the fuel supply line is. The compound controller works depending on Pressure in the combustion air supply line, the Power control takes place via the combustion air and the Compound controller the required for a constant air ratio Sets the amount of gas. As soon as there is no more combustion air this regulation is switched off. The Gaszu drove over the fuel lance upstream of the ver federal regulator connected to the fuel supply line sen, the amount of gas is greater than that of the fuel lance orderly valve is regulated.

Constructive particularly favorable conditions result differs in that the fuel lance through the central term gas pipe is passed.

It is also advantageous to have a flame on the burner head connecting protective tube and the fuel lance at least at least to the mouth of the flame protection tube. At the inlet end of the central gas pipe is preferred a distribution housing is arranged through which the fuel lance is led. The distribution housing ensures one uniform application of the uhd between the gas pipe Fuel lance formed annulus.

The control devices are preferably controlled se depending on temperature and oxygen content of the furnace chamber.

The invention is based on a preferred Embodiment in connection with the accompanying  Drawing explained in more detail. The drawing shows a schematic table representation of a burner for a furnace room for thermal treatment of contaminated exhaust gases.

The burner has a housing 1 which is connected to a wall 2 of the associated furnace space. The contaminated exhaust gases to be treated are passed through the furnace chamber.

The housing 1 of the burner contains a burner head 3 , which works as a gas-air mouth mixer. It is connected to a gas supply line 5 via a central gas pipe 4 . The combustion air is supplied to the burner head 3 via the housing 1 , which is connected to an air supply line 6 .

The air supply line 6 is supplied by a blower and contains a control device 7 in the form of a motor-operated air flap. The latter is used to regulate the output of the burner.

In det gas supply line 5 a Regeleinrich device 8 is arranged in the form of a compound controller, which works in dependence on the pressure in the air supply line 6 downstream of the control device 7 and ensures that the air ratio remains constant.

The burner is struck with combustion air and natural gas, a flame forming on the burner head 3 , which heats the exhaust gases to be treated, until the temperature in the combustion chamber has exceeded a predetermined limit, in the present case 800 ° C. The control devices 7 and 8 are then closed. For this purpose, a control device 9 opens, which is connected on the input side to the gas supply line 5 , and although current on the control device 8 . On the output side, the control device 9 is connected to a fuel lance 10 which extends centrally through the gas pipe 4 , penetrates the burner head 3 and opens into the furnace chamber. The furnace room is therefore only supplied with gas. This reacts flamelessly with the oxygen contained in the exhaust gases.

The energetic advantage is that the otherwise required heating of the. Combustion air is eliminated.

The connection of the gas supply line 5 to the gas pipe 4 takes place via a distributor housing 11 , which ensures that the annular space between the gas pipe 4 and the fuel lance 10 is applied uniformly.

The housing 1 forms a flame protection tube 12 downstream of the burner head 3 , and the fuel lance 10 is advanced to the mouth of the flame protection tube 12 . It conveys the gas directly into the free furnace space. The fuel lance can also end upstream of the mouth of the flame protection tube or extend beyond the mouth.

Within the scope of the invention, a wide variety of possibilities are given. Thus, the fuel lance 10 can be dispensed with, the change in the procedure being effected by switching off the air supply and controlling the gas supply via the control device 8 . Under these circumstances, the distribution housing 11 is superfluous. Alternatively, there is the possibility to arrange the fuel lance 10 on the outside of the housing 1 of the burner or to completely separate it from the burner. Instead of a muzzle-mixing burner, a premix burner can be used. Furthermore, the method can be automated, using a temperature-dependent and possibly oxygen-dependent control.

Claims (15)

1. A method for heating a furnace chamber, the furnace chamber heat is supplied by combustion of a fuel, in particular a gaseous fuel, characterized in that the fuel is burned at furnace chamber temperatures below a predetermined limit with the addition of combustion air, the hot gases generated be introduced into the furnace chamber, and that the fuel is introduced into the furnace chamber at furnace chamber temperatures above the predetermined limit value without the addition of combustion air. 2. The method according to claim 1, characterized in that that the predetermined limit of the furnace chamber temperatures at is about 800 ° C. 3. Device for heating a furnace space, with a burner, the hot gas outlet of which is connected to the furnace space, and with supply lines ( 5 , 6 ) for fuel, in particular gaseous fuel, and for combustion air, the supply lines belonging to regulating devices ( 7 , 8 ), characterized by a device connected to the fuel supply line ( 5 ) via a separate control device ( 9 ) for introducing the fuel into the furnace chamber. 4. The device according to claim 3, characterized in that the device connected via a separate control device ( 9 ) to the fuel supply line ( 5 ) is a fuel lance ( 10 ) leading into the furnace chamber. 5. The device according to claim 4, characterized in that the fuel lance ( 10 ) is integrated in the burner. 6. Device according to one of claims 3 to 5, characterized by a detection of the temperature in the furnace chamber de control for actuating the control devices ( 7 to 9 ). 7. The device according to claim 6, characterized in that the control has an oxygen content in the furnace chamber he grasping O ₂ probe. 8. Burner for heating an oven space, with a burner head ( 3 ) for burning a fuel-combustion air mixture and supply lines. ( 5 , 6 ) for fuel, in particular gaseous fuel, and for combustion air, the supply lines having associated control devices ( 7 , 8 ), characterized by a fuel lance ( 10 ) which is connected to the fuel via a separate control device ( 9 ). Supply line ( 5 ) is closed. 9. Burner according to claim 8, characterized in that the fuel lance ( 10 ) through the burner head ( 3 ) is passed. 10. Burner according to claim 8 or 9, characterized in that the burner head ( 3 ) is designed as a gas-air orifice mixer and is connected via a central gas pipe ( 4 ) to a composite controller arranged in the fuel supply line and that the fuel lance ( 10 ) with the interposition of a controllable valve upstream of the United regulator to the fuel supply line ( 5 ) is connected. 11. Burner according to claim 10, characterized in that the fuel lance ( 10 ) is guided centrally through the central gas tube ( 4 ). 12. Burner according to one of claims 9 to 11, characterized in that a flame protection tube ( 12 ) connects to the burner head ( 3 ) and that the fuel lance ( 10 ) is guided at least to the mouth of the flame protection tube. 13. Burner according to claim 11 or 12, characterized in that at the inlet of the central gas pipe ( 4 ) a United part housing ( 11 ) is arranged through which the fuel lance ( 10 ) is passed. 14. Burner according to one of claims 8 to 13, characterized by a temperature-dependent control for actuating the control devices ( 7-9 ). 15. Burner according to claim 14, characterized in that the control has an O ₂ probe.