Patent application number | Description | Published |
20090205310 | POWER GENERATION SYSTEM HAVING AN EXHAUST GAS ATTEMPERATING DEVICE AND SYSTEM FOR CONTROLLING A TEMPERATURE OF EXHAUST GASES - An exhaust gas attemperating device is provided. The exhaust gas attemperating device includes a conduit in fluid communication with a gas turbine. The conduit is configured to receive exhaust gases from the gas turbine and has one or more apertures extending therethrough. The exhaust gas attemperating device further includes one or more atomizing nozzles extending through the apertures of the conduit. The atomizing nozzle is configured to inject a liquid through the aperture into the conduit, such that the liquid evaporates and decreases a temperature and an oxygen concentration of the exhaust gases in the conduit. | 08-20-2009 |
20100077970 | INTER-STAGE ATTEMPERATION SYSTEM AND METHOD - Systems and methods for controlling exhaust steam temperatures from a finishing superheater are provided. In certain embodiments, the system includes a controller which includes control logic for predicting an exhaust temperature of steam from the finishing superheater using model-based predictive techniques (e.g., based on empirical data or thermodynamic calculations). Based on the predicted exhaust temperature of steam, the control logic may use feed-forward control techniques to control the operation of an inter-stage attemperation system upstream of the finishing superheater. The control logic may determine if attemperation is required based on whether the predicted exhaust temperature of steam from the finishing superheater exceeds a set point temperature as well as whether the inlet temperature of steam into the finishing superheater drops below a set point temperature of steam. The attemperation system may include a characterizing function to linearize the valve operation controlled by the control logic to inject cooled, high-pressure feedwater into the steam upstream of the finishing superheater, which may, in turn, control the exhaust temperature of steam from the finishing superheater. The disclosed embodiments may also be applied to any systems where an outlet temperature of a fluid from a heat transfer device may be controlled. | 04-01-2010 |
20100229553 | CONDENSER FOR POWER PLANT - A condenser is provided and includes a body into and through which steam turbine discharge is able to flow, and first and second cooling members disposed in the body, wherein the first and second cooling members are each independently receptive of first and second coolant, respectively, the first cooling member, being receptive of the first coolant, is configured to cool the discharge during at least a first cooling operation, and the second cooling member, being receptive of the second coolant, is configured to cool the discharge during a second cooling operation. | 09-16-2010 |
20100251699 | SYSTEM AND METHOD FOR OBTAINING AN OPTIMAL ESTIMATE OF NOx EMISSIONS - A control system for providing an optimal estimate of NOx emission in an exhaust during a selective catalytic reduction process is provided. The control system includes a continuous emission monitoring sensor configured to generate a responsive signal representing a first estimate of NOx emission; wherein the responsive signal has a first time lag between a time of measurement of NOx emission and the time when the corresponding responsive signal is made available by the continuous emission monitoring sensor, and the continuous emission monitoring sensor has a first time constant. The control system also includes a virtual sensor configured to generate a relatively faster responsive signal representing a second estimate of NOx emission. The control system further includes a processor that includes a time delay compensation circuit configured to introduce a second time lag in the relatively faster responsive signal, wherein the second time lag matches the first time lag. The processor also includes a low pass filter circuit coupled to the time delay compensating circuit, wherein the low pass filter circuit has a second time constant matching the first time constant to generate a time delayed signal representing a third estimate of NOx emission. The processor is further configured to subtract the time delayed signal from the summation of the responsive signal and the relatively faster responsive signal to generate the optimal estimate of the NOx emission, wherein the optimal estimate is fed as a feedforward signal into an injection system in the selective catalytic reduction process. | 10-07-2010 |
20100263376 | SYSTEMS AND METHODS INVOLVING COMBINED CYCLE PLANTS - A system comprises a first heat recovery steam generator (HRSG) operative to receive steam from a source of steam and output water to the source of steam, a second HRSG operative to receive steam from the source of steam and output water to the source of steam, a first water flow control valve operative to regulate a flow of the water output from the first HRSG to the source of steam, and a second water flow control valve operative to regulate a flow of the water output from the second HRSG to the source of steam. | 10-21-2010 |
20110099972 | METHOD OF INCREASING POWER OUTPUT OF A COMBINED CYCLE POWER PLANT DURING SELECT OPERATING PERIODS - A method of increasing output of a combined cycle power plant with supplemental duct firing from a heat recovery steam generator (HRSG) during select periods includes guiding a reheat steam flow to at least one reheat attemperator fluidly connected to the HRSG during the select period. The method further includes increasing reheat attemperation water flow through the at least one reheat attemperator, decreasing a set point temperature of the at least one reheat attemperator for the select period to a lower set point temperature, and raising power output of the combined cycle power plant during the select period. | 05-05-2011 |
20120260621 | Combined Cycle Power Plant - A combined cycle power plant is provided and includes a gas turbine engine to generate power from combustion of a fuel and air mixture, a heat recovery steam generator (HRSG) disposed downstream from the gas turbine engine to receive heat energy from the gas turbine engine from which steam is produced, the HRSG including a superheating element and a drum element, and a steam turbine engine to be receptive of the steam produced in the HRSG and to generate power from the received steam, the HRSG further including a valve operably disposed to isolate the superheating element from the drum element when a risk of condensate formation in the HRSG exists. | 10-18-2012 |
20130318965 | Supercharged Combined Cycle System With Air Flow Bypass To HRSG And Hydraulically Coupled Fan - A supercharging system for a gas turbine system having a compressor, a combustor, a turbine and a shaft includes a prime mover and a fan assembly that provides an air stream at an air stream flow rate. A hydraulic coupler is coupled to the prime mover and the fan assembly and a second torque converter may couple the supercharger prime mover to an electrical generator. The supercharging system also includes a subsystem for conveying a first portion of the air stream to the compressor, and a bypass subsystem for optionally conveying a second portion of the air stream to other uses. | 12-05-2013 |
20140150447 | LOAD RAMP AND START-UP SYSTEM FOR COMBINED CYCLE POWER PLANT AND METHOD OF OPERATION - The disclosure includes a load ramp system for a heat recovery steam generator (HRSG) of a combined cycle power plant and a method of increasing the rate of the load ramp process of a gas turbine system of the combined cycle power plant. In one embodiment, the load ramp system for the HRSG of the combined cycle power plant includes a conduit in fluid communication with a supercharger positioned upstream of a compressor of a gas turbine system in the combined cycle power plant. The conduit of the load ramp system is configured to direct a portion of supercharged air for use in cooling the HRSG during a load ramp process of the gas turbine system in the combined cycle power plant. | 06-05-2014 |