US2009037029A1PendingUtilityA1

Method for operating a firing plant

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Assignee: GARAY MAURICIOPriority: Jan 11, 2006Filed: Jul 10, 2008Published: Feb 5, 2009
Est. expiryJan 11, 2026(expired)· nominal 20-yr term from priority
F23N 2237/02F23N 2223/48F23N 5/16F23C 2900/06042F02C 9/26F23R 3/34F23N 1/002
37
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Claims

Abstract

A method for operating a firing plant with at least one combustion chamber and with at least one burner for producing hot gas, especially a gas turbine, preferably of a power generating plant, includes an operating characteristic for operating the combustion chamber close to the lean extinction limit defined in the form of a burner group staging ratio (BGV Rich ). The pressure pulsations (Puls Actual ) which are measured in the combustion chamber are processed by a filter device ( 2 ) and converted into corresponding signals (Puls Actual,Filter (t)). An exceeding/falling short of at least one pulsation limiting value (Puls Limit ) is monitored by a monitoring device ( 3 ) and adapts a pulsation reference value (Puls Ref ) in dependence upon the monitoring. The processed pressure pulsations (Puls Actual,Filter (t)) are then compared with the adapted pulsation reference value (Puls Ref,adapt ), and, from this, a correction value ΔBGV is determined, by which the burner group staging ratio (BGV Rich ) is corrected, and as a result operation of the firing plant close to the lean extinction limit is realized.

Claims

exact text as granted — not AI-modified
1 . A method for operating a firing plant having at least one combustion chamber and at least one burner, the firing plant for producing hot gas, the method comprising:
 defining an operating characteristic for operating the combustion chamber close to the lean extinction limit, in the form of a burner group staging ratio (BGV Rich );   measuring, in the combustion chamber, pressure pulsations (Puls Actual (t));   converting said measured pressure pulsations (Puls Actual (t)) into corresponding signals;   monitoring exceeding or falling short of at least one pulsation limiting value (Puls Limit );   adapting a pulsation reference value (Puls Ref ) in dependence upon said monitoring to form an adapted pulsation reference value (Puls Ref,adapt );   processing said corresponding signals by a filter device to produce processed pressure pulsations (Puls Actual,Filter (t));   comparing the processed pressure pulsations (Puls Actual,Filter (t)) to the adapted pulsation reference value (Puls Ref,adapt );   determining a correction value (ΔBGV) from said comparing; and   correcting the burner group staging ratio (BGV Rich ) based on said correction value (ΔBGV).   
   
   
       2 . The method as claimed in  claim 1 , wherein
 said determining the correction value (ΔBGV) further comprises determining in dependence upon at least one amplification factor (K PI ), upon at least one time constant (T PI ), or upon both; or   the pulsation reference value (Puls Ref ), or the amplification factor (K PI ), or the time constant (T PI ), or combinations thereof, is dependent upon load; or   different amplification factors (K PI ) and/or time constants (T PI ) are taken into consideration for constant load cases and for transient load cases; or   combinations thereof.   
   
   
       3 . The method as claimed in  claim 2 , further comprising:
 determining different amplification factors (K PI ), or time constants (T PI ), or both, for constant load cases and for transient load cases.   
   
   
       4 . The method as claimed in  claim 1 , further comprising:
 establishing a load-dependent pulsation reference value (Puls Ref ); and   decreasing or increasing, by a predetermined quantity, the load-dependent pulsation reference value (Puls Ref ) when a predetermined number of pulsation values lie above or below the predetermined pulsation limiting value (Puls Limit ) within a predefined time period.   
   
   
       5 . The method as claimed in  claim 1 , comprising performing said method in a closed-loop control circuit. 
   
   
       6 . The method as claimed in  claim 1 , wherein the firing plant comprises a gas turbine. 
   
   
       7 . The method as claimed in  claim 6 , wherein the gas turbine comprises a turbine of a power generating plant. 
   
   
       8 . A firing plant comprising:
 at least one combustion chamber;   at least one burner for producing hot gas;   wherein a burner group staging ratio (BGV Rich ) is defined for operating the combustion chamber close to the lean extinction limit;   a measuring device configured and arranged to measure pressure pulsations (Puls Actual (t)) in the combustion chamber;   a monitoring device configured and arranged to monitor the level of at least one pulsation limiting value (Puls Limit ), to adapt a pulsation reference value (Puls Ref ) in dependence upon the level to form an adapted pulsation reference value (Puls Ref,adapt ), and to generate at least one signal corresponding to the measured pressure pulsations (Puls Ref (t));   a filter device configured and arranged to process the at least one signal corresponding to the measured pressure pulsations (Puls Ref (t)) and generate processed pressure pulsations (Puls Actual,Filter (t)); and   a control unit configured and arranged to compare the processed pressure pulsations (Puls Actual,Filter (t)) with the adapted pulsation reference value (Puls Ref,adapt ) and determine a correction value (ΔBGV) by which the burner group staging ratio (BGV Rich ) can be corrected.   
   
   
       9 . The device as claimed in  claim 8 , wherein the filter device comprises a first order filter. 
   
   
       10 . The device as claimed in  claim 8 , wherein the monitoring device is further configured and arranged change the pulsation reference value (Puls Ref ) by a predetermined quantity when, within a defined time period, a predetermined number of pulsation values are outside the at least one pulsation limiting value (Puls Limit ). 
   
   
       11 . The device as claimed in  claim 8 , wherein the control unit comprises a proportional/integral controller, a proportional controller, or an integral controller. 
   
   
       12 . A gas turbine comprising a firing plant as claimed in  claim 8 . 
   
   
       13 . A power generating plant comprising a gas turbine according to  claim 12 .

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