DE102006022626B4 - Method of operating a coal-fired steam generator - Google Patents

Abstract

A method of operating a coal-fired steam generator, wherein comminuted coal is supplied to the combustion air boiler via dust burners, the method comprising controlling the combustion air supply such that a NOx-emission forecast of the steam generator is established based on a knowledge-based computational model, that based on the predicted NOx output as a control variable, a control of the combustion air supply takes place, whereby a fixed distance to a NOx limit value is maintained and wherein the combustion is conducted so that the air ratio in the burner zone of the steam generator λ ≥ 1.

Description

The The invention relates to a method of operating a coal fired furnace Steam generator.

When designing a steam generator, it is important to achieve the highest possible firing efficiency with minimized pollutant exchange. In particular, the proportion of carbon monoxide and nitrogen oxides in the exhaust gases of a steam generator should be relatively low. It is also important to reduce CO ₂ emissions. The latter can be achieved in particular by improving the efficiency of the combustion process.

at Steam generators fired with brown coal dust is a decisive criterion for the economy of the steam generation process the availability of the steam generator. Solid fuels with high levels of alkalis (Potassium, sodium), iron, clay and Sulfur levels cause dust in steam-fired steam generators fast soiling on the heating surfaces. Dirt on the heating surfaces can while the operation of the steam generator are cleaned by steam blowers, the Dirt in the combustion chamber itself usually become with water lancet blowers cleaned.

Stubborn caking and incrustations of the heating surfaces have to however partially removed manually. For this it is necessary the steam generator except To operate.

Certain Solid fuels generate so much dirt on the heating surfaces that the Travel time of the steam generator is correspondingly short, what the economy the operation of the steam generator significantly affected.

From the EP 0 576 955 B1 are known a method for controlling the combustion of fuel on a grate of a furnace and a device for carrying out the method, wherein according to the EP 0 576 955 B1 is provided by the detection of the composition of the exhaust gas by means of fuzzy logic to regulate the amount of individual combustion air flows in order to further improve the regulation in terms of pollutant emissions.

From the EP 0 815 397 B2 Method and apparatus for firing control of a steam generator system are known, in which method the composition of the combustion process supplied to the reaction mixture is controlled depending on the spatial temperature distribution and the concentration profile in the combustion chamber by means of at least one setpoint, wherein the setpoint by fuzzy or neuro-fuzzy logic was determined. The setpoints determined by fuzzy logic are then fed to a subordinate conventional control.

In Tigges, Leisse, Lasthaus and Streffing "Development of low-emission dust combustion systems", VGB Kraftwerkstechnik 76 (1996), No. 5, pages 388-393 describes ways to low NO _x coal firing using round steel burners, the design requirements for a NO meet _x and low CO ₂ combustion. The document is basically concerned with the minimization of NO _x emissions, which mentions in the article that previously firing with air numbers at the burner below λ 1.0 were built and the required total number of firing was controlled by means of upper air system. As is known, nitrogen oxides are formed only in the case of superstoichiometric combustion (λ> 1).

The publication K. Pflipsen et al. "Optimization of firing with neural networks and fuzzy logic on a lignite boiler", VGB conference "Milling and furnaces 1999", Kassel 24. to 25.11.1999 also shows possibilities for the reduction of NO _x emissions, whereby the authors of this technical essay as far as possible date usual flue gas recirculation because of a higher energy demand and a low efficiency would like to avoid. Even after this publication, a combustion management is proposed with unteroichometric conditions in the burner zone.

Of the The invention is therefore based on the object, a method for operation to provide a steam generator fired with coal, especially lignite, in which the travel time of the steam generator while minimizing the pollutant emissions extended so that in particular solid fuels that contribute to the formation of slag tend to be easily used.

Therefore, according to the invention a method of operating a coal-fired steam generator provided, in which dried and crushed coal on Staubbrenner the boiler is supplied with the combustion air, the method the regulation of the combustion air supply comprises such that due a knowledge-based calculation model, a forecast for the NOx output of the steam generator is created based on the predicted NOx emissions as a leader one Regulation of the combustion air supply takes place, with a fixed distance to a NOx limit and where the combustion is so guided is that the air ratio in the burner zone of the steam generator λ ≥ 1.

Under limit in the meaning of the invention is understood, as is customary in power plant technology, a mean value over a given period. For the purposes of the invention, burner zone means only the zone of the steam generator in which the burners open. The mentioned air ratio therefore relates only to the stoichiometry of the combustion up to the end of the burner zone height of the steam generator, but not to the total stoichiometry in the steam generator.

opposite the previously practiced procedure to reduce NOx emissions in the Burn burner zone under oxygen deficiency (air ratio λ <1), is now provided according to the invention, in the burner zone with excess air or Excess oxygen to burn. In the previously known procedure, the combustion with an air ratio λ <1, was it requires the accumulating carbon monoxide in a post-combustion zone to oxidize.

Surprisingly, it has been found that combustion with an air ratio of λ ≥ 1 is possible by the inventive control with a fixed distance to a NOx limit. With such an optimized combustion guide, the combustion of the fuel increases and the total excess air (relative to the entire steam generator) is reduced, which results in an improvement in efficiency and thus a reduction in CO ₂ emissions.

One Another advantage of the method according to the invention is to see that by burning at optimal stoichiometry or at slight Air or oxygen excess Ash and / or slag caking on the heating surfaces occur, the one porous Structure and are easy to clean. In substoichiometric driving The burner is produced when using alkali and sulfur rich Fuel a glassy amorphous or crystalline slag that hard from the heating surfaces is to be cleaned up. About that In addition, a frequent strained and "hard" cleaning the heating surfaces their material. Since slag is known to be abrasive, cleaning is required the heating surfaces too wear sourcing. In so far contributes the inventive method to increase the travel time of the steam generator and to an increase in efficiency because of lower internal steam demand.

at a preferred embodiment of the method according to the invention it is envisaged that the regulation of combustion by means of an artificial neural network or by means of a fuzzy network, which depicts the steam generation process. About the large number of input variables of a such artificial neural network to make an exact forecast of NOx emissions, based on which the regulation of the combustion air supply to the burners takes place.

Conveniently, be at least the material flows of fuel, air, waste gas and ash, the temperatures of the material flows and the load conditions of the steam generator considered as input variables in the scheme.

at a particularly preferred variant of the method according to the invention the fuel composition becomes the input of the control used. A continuous calorific value analysis as well as the analysis of the chemical constituents of the fuel used, for example of lignite, may be included in the scheme, making a change the fuel quality directly affect the scheme. When using lignite are next to the calorific value for the combustion management the information about Sodium, sulfur and silicon content important.

Preferably Combustion of the coal takes place via rotary burners with primary air dust mixture and secondary air twisting.

Claims (7)

Method of operating a coal-fired Steam generator, where crushed coal through dust burner the boiler supplied with the combustion air The method is the regulation of the combustion air supply such that, on the basis of a knowledge-based computational model a forecast for the NOx output of the steam generator is created based on the predicted NOx emissions as a leader one Regulation of the combustion air supply takes place, with a fixed distance to a NOx limit is met and where the combustion so led is that the air ratio in the burner zone of the steam generator λ ≥ 1. Method according to claim 1, characterized in that that the regulation of combustion by means of an artificial neural network or by means of a fuzzy network, which depicts the steam generation process. Method according to claim 1 or 2, characterized that at least the streams of Fuel, air, exhaust and dust, the temperatures of the material flows and the load conditions of the steam generator considered as input variables in the scheme become. Method according to one of claims 1 to 3, characterized that the fuel composition as an input of the scheme is used. Method according to one of claims 1 to 4, characterized that the combustion of the coal takes place by means of omnidirectional burners. Method according to claim 5, characterized in that that omnidirectional burner with Primärluftstaubverdrallung Find application. Method according to one of claims 5 or 6, characterized that round jet burner with secondary air twist application Find.