IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0927221
(2004-08-27)
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등록번호 |
US-7323036
(2008-01-29)
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발명자
/ 주소 |
- Boyden,Scott A.
- Piche,Stephen
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출원인 / 주소 |
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대리인 / 주소 |
Antonelli, Terry, Stout & Kraus, LLP
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인용정보 |
피인용 횟수 :
17 인용 특허 :
30 |
초록
▼
A controller directs the operation of an air pollution control (APC) system having one or more controllable operating parameters and a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the APC system. An interface receives data representing a
A controller directs the operation of an air pollution control (APC) system having one or more controllable operating parameters and a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the APC system. An interface receives data representing a value of a regulatory credit available for emitting less of the pollutant than the regulatory limit on the allowed amount of pollutant. A control processor (i) determines a target set point for each of at least one of the one or more controllable operating parameters, which will maximize the regulatory credits earned, based on the received data and (ii) to directs control of each of the at least one controllable operating parameter based on the determined target set point for that parameter.
대표청구항
▼
The invention claimed is: 1. A controller for directing operation of an air pollution control (APC) system having one or more controllable operating parameters and a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the APC system, comprising
The invention claimed is: 1. A controller for directing operation of an air pollution control (APC) system having one or more controllable operating parameters and a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the APC system, comprising: an interface configured to receive data representing a value of a regulatory credit available for emitting less of the pollutant than the regulatory limit on the allowed amount of pollutant; and a control processor having logic (i) to determine a target set point for each of at least one of the one or more controllable operating parameters, which will maximize the regulatory credits earned, based on the received data and (ii) to direct control of each of the at least one controllable operating parameter based on the determined target set point for that parameter. 2. The controller according to claim 1, further comprising: one of a neural network process model and a non-neural network process model representing a relationship between each of the one or more controllable operating parameters and the emitted pollutant; wherein the control processor is configured with the further logic to determine the target set point for each of the at least one controllable operating parameter based also on the one model. 3. The controller according to claim 2, wherein: the one model includes one of a first principle model, a hybrid model, and a regression model. 4. The controller according to claim 1, wherein: the APC system has one or more other defined operating limits; and the directed control of the at least one controllable operating parameter results in a violation of either at least one of the one or more other defined operating limits, or the defined operating limit. 5. The controller according to claim 1, wherein: the control processor determines the target set point for each of the at least one controllable operating parameter by (i) predicting a value of regulatory credits to be earned by operating the APC system at each of multiple different target set points for that parameter, based on the value of the available regulatory credit, and (ii) selecting the target set point from the multiple different set points based on the predicted values of regulatory credits. 6. The controller according to claim 1, wherein: the control processor determines the target set point for each of the at least one controllable operating parameter to maximize the value of the regulatory credits to be earned in real time after either (i) receipt of the data representing the value of the available regulatory credit or (ii) receipt of a user instruction to maximize the value of the regulatory credits to be earned. 7. The controller according to claim 1, wherein: the APC system is a wet flue gas desulfurization (WFGD) system that receives SO2 laden wet flue gas, expends power to apply oxidation air and limestone slurry to remove SO2 from the received SO2 laden wet flue gas, and exhausts desulfurized flue gas; the pollutant is SO2; the one or more controllable operating parameters include a first parameter corresponding to an amount of the applied oxidation air and a second parameter corresponding to an amount of the applied limestone slurry; and the control processor determines the target set points for the first and the second parameters that will maximize removal of SO2 from the received SO2 laden wet flue gas, and thereby maximize the value of regulatory credits. 8. The controller according to claim 1, wherein: the APC system is a selective catalytic reduction (SCR) system that receives NOx laden flue gas, applies ammonia and dilution air to remove NOx from the received NOx laden flue gas, thereby controlling emissions of NOx, and exhausts reduced NOx flue gas; the pollutant is NOx; the one or more controllable operating parameters include a parameter corresponding to an amount of the ammonia applied; and the control processor determines the target set point for the parameter corresponding to an amount of the ammonia applied that will maximize removal of NOx from the received NOx laden flue gas, and thereby maximize the value of regulatory credits. 9. The controller according to claim 1, wherein: the control processor determines the target set point for each of the at least one controllable operating parameter based also on other data representing at least one of prior APC system operations and future APC system operations. 10. A method for directing control of an air pollution control (APC) process having one or more controllable operating parameters and a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the APC system, comprising: receiving data representing a value of a regulatory credit available for emitting less of the pollutant than the regulatory limit on the allowed amount of pollutant; determining a target set point for each of at least one of the one or more controllable operating parameters that will maximize regulatory credits earned, based on the received data; and directing control of each of the at least one controllable operating parameter based on the determined target set point for that parameter. 11. The controller according to claim 10, wherein: the target set point for each of the at least one controllable operating parameter is determined based also on one of a neural network process model and a non-neural network process; and the one model represents a relationship between each of the one or more controllable operating parameters and the emitted pollutant. 12. The controller according to claim 11, wherein: the one model includes one of a first principle model, a hybrid model, and a regression model. 13. The method according to claim 10, wherein: the APC process has one or more other defined operating limits; and the directed control of the at least one controllable operating parameter results in a violation of at least one of the one or more other defined operating limits, or the defined operating limit. 14. The method according to claim 10, wherein: the target set point for each of the at least one controllable operating parameter is determined by (i) predicting a value of regulatory credits to be earned with that parameter at each of multiple different set points, based on the value of the available regulatory credit, and (ii) selecting the target set point for that parameter from the multiple different set points based on the predicted values of regulatory credits. 15. The method according to claim 10, further comprising: receiving a user instruction to maximize the value of the regulatory credits to be earned; wherein the target set point for each of the at least one controllable operating parameter is determined in real time after either (i) receipt of the data representing the value of the available regulatory credit or (ii) receipt of the user instruction. 16. The method according to claim 10, wherein: the APC process is a wet flue gas desulfurization (WFGD) process that expends power to apply oxidation air and limestone slurry to remove SO2 from SO2 laden wet flue gas; the pollutant is SO2; the one or more controllable operating parameters include a first parameter corresponding to an amount of the applied oxidation air and a second parameter corresponding to an amount of the applied limestone slurry; and the target set point for the first and the second parameter is determined so as to maximize removal of SO2 and thereby maximize the value of regulatory credits earned. 17. The controller according to claim 10, wherein: the APC process is a selective catalytic reduction (SCR) process that applies ammonia and dilution air to remove NOx from NOx laden flue gas, thereby controlling emissions of NOx, and exhausts reduced NOx flue gas; the pollutant is NOx; the one or more controllable operating parameters include a parameter corresponding to an amount of the ammonia applied; and the target set point for the parameter corresponding to an amount of the ammonia applied is determined so as to maximize removal of NOx from the received NOx laden flue gas, and thereby maximize the value of regulatory credits. 18. The method according to claim 10, wherein: the target set point for each of the at least one controllable operating parameter is determined based also on other data representing at least one of prior APC process performance and future APC process performance. 19. A controller for directing operation of a pollution control (PC) system having one or more controllable operating parameters and one or more defined operating limits, including a defined operating limit representing a regulatory limit on an allowed amount of pollutant to be emitted by the PC system, comprising: an interface configured to receive data representing a value of a regulatory credit available for emitting less of the pollutant than the regulatory limit on the allowed amount of pollutant; and a control processor having logic (i) to determine a target set point for each of at least one of the one or more controllable operating parameters, which will adjust the regulatory credits earned, based on the received data and (ii) to direct control of each of the at least one controllable operating parameter based on the determined target set point for that parameter. 20. The controller according to claim 19, wherein: the one or more defined operating limits is more than one defined operating limits; the directed control of the at least one controllable operating parameter results in a violation of at least one of the more than one defined operating limits other than the defined operating limit representing the regulatory limit; and the control processor determines the target set point for each of the at least one controllable operating parameter by (i) predicting a value of regulatory credits to be earned by operating the PC system at each of multiple different target set points for that parameter, based on the value of the available regulatory credit, and (ii) selecting the target set point from the multiple different set points based on the predicted values of regulatory credits.
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