DE102020121934B3 - Gas burner device and method for operating a gas burner device - Google Patents

Abstract

The invention relates to a gas burner device and a method for operating a gas burner device, comprising a conveying device (1) for conveying a gaseous fuel to a burner (2) and a recirculation device (3) for returning to the burner (2) an amount of exhaust gas resulting from combustion of the fuel ). According to the invention, a sensor device (4) is provided for determining a composition of the fuel and the recirculation device (3) is designed to be controlled as a function of the composition of the fuel detected by the sensor device (4).

Description

The invention relates to a gas burner device according to the preamble of claim 1 and a method for operating a gas burner device according to the preamble of claim 8.

A gas burner device of the type mentioned is from the document US 2016/0146455 A1 known. This consists of a conveying device for conveying a gaseous fuel to a burner and a recirculation device for returning to the burner an amount of exhaust gas that has arisen during combustion of the fuel. In terms of the method, in this solution a gaseous fuel is conveyed to a burner with a conveying device and an amount of exhaust gas produced during combustion of the fuel is returned to the burner with a recirculation device. In this solution, a valve (see reference numerals 128 and 228 there) is provided on the recirculation device for setting the said amount of exhaust gas.

The invention is based on the object of improving a gas burner device of the type mentioned at the beginning and a method for operating such a gas burner device. In particular, a gas burner device that can be used more universally with regard to the gaseous fuel used, or a more universal method for its operation, is to be created.

This object is objectively achieved with a gas burner device of the type mentioned by the features listed in the characterizing part of claim 1. In terms of method, this object is achieved with a method for operating such a gas burner device by the features listed in the characterizing part of claim 8.

According to the present invention, therefore, a sensor device is provided for determining a composition of the fuel, the recirculation device being designed to be controlled as a function of the composition of the fuel detected by the sensor device.

According to the method, it is provided according to the invention that a composition of the fuel is determined with a sensor device and the recirculation device is controlled as a function of the composition of the fuel detected by the sensor device.

The term “controlled” used in the present context for the sake of simplicity includes the two terms “control” and “regulate” that are common in control engineering.

In other words, the gas burner device according to the invention or the method according to the invention for operating such a gas burner device is characterized in that the amount of exhaust gas returned to the burner is determined based on the composition of the fuel. As was unexpectedly found, this has the consequence that, with a single burner, both natural gas and liquefied gas, but even hydrogen, for example, can be burned without any further component changes or parameterizations.

The objective or procedural requirement that “a sensor device is provided for determining a composition of the fuel” or that “a composition of the fuel is determined using a sensor device” means in general that the sensor device is suitable for this, either directly or to draw indirect conclusions about the composition of the fuel. The sensor device can thus, as will be discussed in greater detail below, be designed, for example, as a gas chromatograph, but also as a temperature sensor for detecting the focal surface temperature. It is also possible, for example, to use a sensor device that measures UV light to detect the so-called OH and / or CH bands, which arise as an intermediate product during combustion and from which conclusions can be drawn about the composition of the fuel. capture. In short: the sensor device can be designed very differently; Ultimately, the point is that it should or can be used to determine the composition of the fuel used in order to determine on this basis the amount of exhaust gas actually to be returned for clean combustion.

Other advantageous developments of the gas burner device according to the invention or the method according to the invention emerge from the dependent claims.

For the sake of completeness, reference is made to the following documents.

From the patent specification DE 39 38 090 C1 a burner device with a conveying device and a recirculation device is also known. In this solution, which, moreover, does not have a sensor device for determining the composition of the fuel, the two impellers also sit on a common drive shaft and can therefore not be operated independently of one another.

From the document FR 2 711 224 A1 a burner device is also known in which the conveying device and the recirculation device are firmly connected to one another.

From the patent specification DE 693 12 226 T2 a boiler with two flue gas paths is known.

From the document WO 1995/023315 A1 a burner for burning hydrogen is known, in which, however, only a local recirculation in the area of the individual flame tongues (flame recirculation) is provided.

The gas burner device according to the invention or the method according to the invention for operating such a gas burner device is explained in more detail below with reference to the drawing of a preferred exemplary embodiment.

• 1 die erfindungsgemäße Gasbrennervorrichtung mit einer in Strömungsrichtung des Brennstoffs gesehen vor der Brennstoff-Luft-Mischeinrichtung angeordneten Sensoreinrichtung.

It shows schematically

• 1 the gas burner device according to the invention with a sensor device arranged in front of the fuel-air mixing device, viewed in the direction of flow of the fuel.

The gas burner device shown in the figure consists, in a known manner, first of all of a conveying device 1 for conveying a gaseous fuel to a burner 2 and a recirculation device 3 to recirculate an amount of exhaust gas resulting from combustion of the fuel to the burner 2 . The conveyor 1 preferably comprises a fan.

Expressed in terms of the method, a method for operating a gas burner device is accordingly provided, in which a gaseous fuel is provided with a conveying device 1 to a burner 2 promoted and an amount of exhaust gas resulting from a combustion of the fuel with a recirculation device 3 to the burner 2 is returned.

It is now essential for the gas burner device according to the invention that a sensor device 4th provided for determining a composition of the fuel and the recirculation device 3 depending on that of the sensor device 4th detected composition of the fuel is formed controlled.

In terms of the method, it is provided according to the invention that a composition of the fuel with a sensor device 4th determined and the recirculation device 3 depending on that of the sensor device 4th detected composition of the fuel is controlled.

Considered somewhat more precisely, it is particularly preferably provided that the sensor device 4th is optionally designed as a gas chromatograph, as a gas thermal conductivity sensor, as an ionization sensor, as a UV sensor, as an oxygen sensor and / or as a temperature sensor (in particular a flame temperature sensor).

The gas chromatograph and the gas thermal conductivity sensor are seen in the direction of flow of the fuel (i.e. in the area before combustion) and the ionization sensor, the UV sensor, the oxygen sensor and / or the temperature sensor are located after or on the burner 2 (i.e. in the area of combustion). The single figure shows schematically the option of a gas chromatograph or a gas thermal conductivity sensor on the fuel supply line. The other options are not shown separately because they can be easily imagined.

With regard to the above-mentioned UV sensor, it is particularly preferred that it be designed to detect OH bands in the wavelength range from 300 nm to 320 nm, preferably 308 nm, and CH bands in the wavelength range from 410 nm to 450 nm, preferably 430 nm (see also https://www.uni-due.de/ivg/rf/forschung/chemilumineszenz.php).

As explained at the beginning, each sensor device is in this case 4th suitable for determining the composition of the fuel used.

It is particularly preferred that hydrogen and / or natural gas are or will be used as the gaseous fuel.

It is further particularly preferred that when using pure hydrogen as fuel, a larger amount of exhaust gas is sent to the burner 2 than when using pure natural gas as fuel.

Furthermore, it is preferably provided that when using a mixture of hydrogen and natural gas as fuel, a smaller amount of exhaust gas than when using pure hydrogen and a greater amount of exhaust gas than when using pure natural gas for the burner 2 is returned.

Furthermore, it is preferably provided that the recirculation device 3 one preferably and optionally on the connecting line (to be explained) 3.3 arranged and / or with a control device 6th connected recirculation valve 3.1 includes. Or to put it procedurally: with one to the recirculation device 3 belonging recirculation valve 3.1 becomes a burner 2 recirculated exhaust gas controlled. The aforementioned control device 6th is in terms of data, as shown in the single figure by dotted line, optionally with the conveyor 1 , the sensor device 4th and / or (as just stated) with the recirculation device 3 or the (preferably electrically operated) recirculation valve 3.1 connected trained. The conveyor 1 and the recirculation device 3 are preferably each for themselves depending on the composition of the fuel (preferably on the control device 6th ) controlled.

Furthermore, it is particularly preferably provided that, viewed in the direction of flow of the fuel, upstream of the burner 2 , preferably, as shown, before the conveyor 1 , a fuel-air mixer 5 is arranged. Or in other words: a fuel-air mixing device provided for mixing the gaseous fuel with air 5 is preferably from the control device 6th controlled depending on the composition of the gaseous fuel. It is furthermore preferably provided that this, in addition to a fuel 5.1 and an air supply port 5.2 one with the recirculation device 3 connected exhaust gas supply connection 5.3 having.

Furthermore, it is preferably provided that the burner 2 (for example - as shown schematically - a cylinder burner) in a combustion chamber 2.1 with an exhaust gas discharge connection 2.2 arranged and the recirculation device 3 one with the exhaust gas discharge connection 2.2 connected exhaust gas connection 3.2 having. The exhaust connection 3.2 the recirculation device 3 is finally preferably via a connecting line 3.3 with the exhaust gas supply connection 5.3 the fuel-air mixing device 5 connected trained.

List of reference symbols

1

Conveyor

2

burner

2.1

Combustion chamber

2.2

Exhaust gas discharge connection

3

Recirculation device

3.1

Recirculation valve

3.2

Exhaust gas connection

3.3

Connecting line

4th

Sensor device

5

Fuel-air mixing device

5.1

Fuel supply connection

5.2

Air supply connection

5.3

Exhaust gas supply connection

6th

Control device

Claims (10)

Gas burner device, comprising a conveying device (1) for conveying a gaseous fuel to a burner (2) and a recirculation device (3) for returning to the burner (2) an amount of exhaust gas resulting from combustion of the fuel, characterized in that a sensor device (4) provided for determining a composition of the fuel and the recirculation device (3) is designed to be controlled as a function of the composition of the fuel detected by the sensor device (4). Gas burner device according to Claim 1 , characterized in that the sensor device (4) is optionally designed as a gas chromatograph, as a gas thermal conductivity sensor, as an ionization sensor, as a UV sensor, as an oxygen sensor and / or as a temperature sensor. Gas burner device according to Claim 1 or 2 , characterized in that the recirculation device (3) comprises a recirculation valve (3.1). Gas burner device according to one of the Claims 1 to 3 , characterized in that, viewed in the direction of flow of the fuel, a fuel-air mixing device (5) is arranged upstream of the burner (2). Gas burner device according to Claim 4 , characterized in that the fuel-air mixing device (5) has, in addition to a fuel (5.1) and an air supply connection (5.2), an exhaust gas supply connection (5.3) connected to the recirculation device (3). Gas burner device according to one of the Claims 1 to 5 , characterized in that the burner (2) is arranged in a combustion chamber (2.1) with an exhaust gas discharge connection (2.2) and the recirculation device (3) has an exhaust gas connection (3.2) connected to the exhaust gas discharge connection (2.2). Gas burner device according to the Claims 5 and 6th , characterized in that the exhaust gas connection (3.2) of the recirculation device (3) is designed to be connected to the exhaust gas supply connection (5.3) of the fuel-air mixing device (5) via a connecting line (3.3). Method for operating a gas burner device, in which a gaseous fuel is conveyed to a burner (2) by a conveying device (1) and an amount of exhaust gas resulting from combustion of the fuel is returned to the burner (2) with a recirculation device (3), characterized in that, that a composition of the fuel is determined with a sensor device (4) and the recirculation device (3) is controlled as a function of the composition of the fuel detected by the sensor device (4). Procedure according to Claim 8 , characterized in that the conveying device (1) and the recirculation device (3) are each controlled individually as a function of the composition of the fuel. Procedure according to Claim 8 or 9 , characterized in that either hydrogen and / or natural gas are or will be used as the gaseous fuel.

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