Provided is a control method for a gas turbine plant having a first and a second combustors in series, such that combustion gases produced in the first combustor flows into the second combustor. The second combustor having a fuel lance with internal partitions, for injecting at least one fuel and a
Provided is a control method for a gas turbine plant having a first and a second combustors in series, such that combustion gases produced in the first combustor flows into the second combustor. The second combustor having a fuel lance with internal partitions, for injecting at least one fuel and a gas having a mixture of inert gas and support air into the second combustor. The partitions enable the gas to carry, and/or veil, at least one of the fuels as the fuel exits the lance. A variable of the second combustor is measured and the inert gas to support air mixture varies in response to variations of the variable so as to at least partially compensate for the operational effects of the variable on the operation of the second combustor.
대표청구항▼
1. A control method for a gas turbine plant, the control method comprising: supplying combustion gas from a first combustor of a gas turbine plant into a second combustor connected in series with the first combustor;injecting at least one fuel and a gas comprising a mixture of inert gas and support
1. A control method for a gas turbine plant, the control method comprising: supplying combustion gas from a first combustor of a gas turbine plant into a second combustor connected in series with the first combustor;injecting at least one fuel and a gas comprising a mixture of inert gas and support air into said second combustor using a fuel lance with internal partitions which enable said gas to carry, to veil, or to both carry and veil said at least one fuel as said at least one fuel exits said fuel lance;measuring a variable of said second combustor; andvarying a relative concentration of said inert gas and said support air in said mixture of inert gas and support air in response to variations in said variable so as to at least partially compensate for operational effects of said variable on the second combustor. 2. The method of claim 1, comprising: veiling the at least one fuel with the gas as said at least one fuel exits the fuel lance. 3. The method of claim 1, wherein said variable is a fuel composition of the at least one fuel. 4. The method of claim 3, comprising: measuring the fuel composition of the at least one fuel by an online analyzer; andvarying said mixture of inert gas and support air by an automated control loop using an output from said online analyzer as an input. 5. The method of claim 1, wherein said variable is a process gas temperature, the method comprising: varying the mixture of inert gas and support air by an automated control loop taking the process gas temperature as an input. 6. The method of claim 1, wherein the inert gas is steam. 7. The method of claim 6, comprising: pressurizing air for said first combustor and said fuel lance; andcooling said support air to said fuel lance, wherein said steam is sourced from a heat exchanger. 8. The method of claim 1, wherein the inert gas is steam and the variable is an NOx concentration in a process gas as it exits the second combustor, the method comprising; varying the steam to air mixture by an automated control loop based on said NOx concentration. 9. The method of claim 1, wherein the inert gas is steam and the variable is pulsation in process gas from said second combustor, the method comprising: varying the steam to air mixture by an automated control loop based on pulsation. 10. The method of claim 1, wherein said inert gas is nitrogen. 11. The method of claim 1, wherein said inert gas is CO2. 12. A gas turbine plant comprising: a first combustor;a second combustor connected in series with the first combustor to receive combustion gas flow from the first combustor, the second combustor having a fuel lance with internal partitions;at least one of a fuel supply and a supply of gas connected to the second combustor via the internal partitions of the fuel lance, the gas having a mixture of inert gas and supply air; anda control unit connected to the supply of gas for varying a relative concentration of said inert gas and said support air in said mixture of inert gas and support air in response to a measured variable of the second combustor to compensate for operational effects of the measured variable on the second combustor. 13. A gas turbine plant of claim 12, wherein said measured variable is a fuel composition of the at least one fuel. 14. A gas turbine plant of claim 13, comprising: measuring the fuel composition by an online analyzer; andvarying said mixture of inert gas and support air by an automated control loop using an output from said online analyzer as an input. 15. A gas turbine plant of claim 12, wherein said measured variable is a process gas temperature, the gas turbine plant comprising: an automated control loop for varying the mixture by taking the process gas temperature as an input. 16. A gas turbine plant of claim 12, wherein the inert gas is steam. 17. A gas turbine plant of claim 12, wherein the inert gas is steam and the measured variable is an NOx concentration in a process gas as it exits the second combustor, the gas turbine plant comprising; an automated control loop for varying the steam to air mixture based on said NOx concentration. 18. A gas turbine plant of claim 12, wherein the inert gas is steam and the measured variable is pulsation in process gas from said second combustor, the gas turbine plant comprising: an automated control loop for varying the steam to air mixture based on pulsation. 19. A gas turbine plant of claim 12, comprising: a heat exchanger for sourcing steam as the inert gas. 20. A gas turbine plant of claim 12, wherein the inert gas is one of nitrogen and CO2.
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이 특허에 인용된 특허 (9)
Althaus Rolf (Kobe JPX), Gas-turbine group with temperature controlled fuel auto-ignition.
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Dalla Betta, Ralph A.; Nickolas, Sarento G.; Caron, Timothy J.; McCarty, Jon G.; Spencer, Mark J.; Corr, II, Robert A., Process and apparatus for control of NOx in catalytic combustion systems.
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