Single shaft combined cycle power plant start-up method and single shaft combined cycle power plant
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-006/00
F02G-001/00
F02G-003/00
출원번호
US-0772556
(2010-05-03)
등록번호
US-8739509
(2014-06-03)
우선권정보
JP-2009-113610 (2009-05-08)
발명자
/ 주소
Asanaka, Toshitada
Tateishi, Manabu
Tobou, Masayuki
Kitaguchi, Kouichi
Ito, Masao
Matsushita, Takehiko
출원인 / 주소
Kabushiki Kaisha Toshiba
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
2인용 특허 :
3
초록▼
In a start-up method of a single shaft combined cycle power plant, during a time period from when the gas turbine is started up to when rotation speed of the gas turbine reaches a rotation speed allowing self-sustained operation using the combustion gas, auxiliary steam from the start-up boiler is f
In a start-up method of a single shaft combined cycle power plant, during a time period from when the gas turbine is started up to when rotation speed of the gas turbine reaches a rotation speed allowing self-sustained operation using the combustion gas, auxiliary steam from the start-up boiler is fed to the low-pressure steam turbine via the low-pressure turbine steam supply pipe by controlling valve opening degree of the auxiliary steam flow control valve. The low-pressure steam turbine generates a drive force. Speed-up control is performed in a unified manner for the gas turbine, the high-pressure steam turbine, the low-pressure steam turbine, and the power generator.
대표청구항▼
1. A single shaft combined cycle power plant comprising: a gas turbine that is driven by combustion gas and discharges exhaust gas;an exhaust heat recovery boiler that uses the exhaust gas from the gas turbine as a heat source and includes: a high-pressure drum for generating high-pressure steam;a l
1. A single shaft combined cycle power plant comprising: a gas turbine that is driven by combustion gas and discharges exhaust gas;an exhaust heat recovery boiler that uses the exhaust gas from the gas turbine as a heat source and includes: a high-pressure drum for generating high-pressure steam;a low-pressure drum for generating low-pressure steam having a pressure lower than that of the high-pressure steam;an intermediate-pressure drum that generates intermediate-pressure steam having a pressure lower than the pressure of the high-pressure steam and higher than the pressure of the low-pressure steam; anda reheater that generates high temperature reheated steam;a high-pressure steam turbine that is coaxially arranged with the gas turbine and driven by the high-pressure steam fed from the high-pressure drum via a high-pressure steam control valve;a low-pressure steam turbine that is coaxially arranged with the high-pressure steam turbine;a power generator that is coaxially arranged with the low-pressure steam turbine;an intermediate-pressure steam turbine that is coaxially arranged with the high-pressure steam turbine and the low-pressure steam turbine, and driven by the high temperature reheat steam from the reheater;a low-pressure turbine steam supply system that has a low-pressure main steam control valve and that feeds a mixture of steam from the low pressure drum through the low-pressure main steam control valve and steam that has been adiabatically expanded in the intermediate-pressure steam turbine;a start-up boiler that generates auxiliary steam;a start-up time auxiliary steam supply pipe that connects the start-up boiler with a low-pressure turbine steam supply pipe at an upstream side relative to the low-pressure main steam control valve and feeds the auxiliary steam at start-up time;an auxiliary steam flow control valve that controls a flow rate of steam fed from the start-up time auxiliary steam supply pipe to the low-pressure turbine steam supply pipe;a low temperature reheat system that feeds steam from the high-pressure steam turbine together with the intermediate-pressure steam from the intermediate-pressure drum to the reheater; anda controller that feeds the auxiliary steam from the start-up boiler to the low-pressure steam turbine via the low-pressure turbine steam supply pipe by controlling a valve opening degree of the auxiliary steam flow control valve to allow the low-pressure steam turbine to generate a drive force to thereby perform speed-up control in a unified manner for the gas turbine, the high-pressure steam turbine, the intermediate-pressure steam turbine, the low-pressure steam turbine, and the power generator during a time period from when the gas turbine is started up to when a rotation speed of the gas turbine reaches a rotation speed allowing self-sustained operation using the combustion gas. 2. The single shaft combined cycle power plant according to claim 1, wherein the auxiliary steam flow control valve is provided on the start-up time auxiliary steam supply pipe, andduring a time period from when the gas turbine is started up to when the rotation speed of the gas turbine reaches the rotation speed allowing self-sustained operation using the combustion gas, the controller feeds the auxiliary steam from the start-up boiler to the low-pressure steam turbine through the low-pressure turbine steam supply pipe by controlling valve opening degrees of the auxiliary steam flow control valve and the low-pressure main steam control valve to allow the low-pressure steam turbine to generate a drive force to thereby perform the speed-up control for the gas turbine, the high-pressure steam turbine, the intermediate-pressure steam turbine, the low-pressure steam turbine, and the power generator. 3. The single shaft combined cycle power plant according to claim 1, further comprising: a condenser that condenses exhaust steam from the low-pressure steam turbine; anda bypass pipe that connects the start-up time auxiliary steam supply pipe and the condenser, whereinthe auxiliary steam flow control valve is provided on the bypass pipe, andbefore a start of a speed-up of the gas turbine, the controller makes the start-up boiler generate a required flow rate of steam for the low-pressure steam turbine for a purpose of increasing a rotation speed of the shaft up to the rotation speed allowing the self-sustained operation of the gas turbine and allows the auxilliary steam generated from the start-up boiler to flow in the condenser through the bypass pipe and the auxiliary steam flow control valve; and during a speed-up phase, the controller controls the auxiliary steam flow control valve such that a flow rate of the steam fed to the low-pressure steam turbine through the low-pressure main steam control valve becomes equal to a flow rate of the steam required for increasing the rotation speed of the shaft up to the rotation speed allowing the self-sustained operation of the gas turbine. 4. The single shaft combined cycle power plant according to claim 1, further comprising: a start-up steam atmosphere discharge pipe that is connected to the start-up time auxiliary steam supply pipe and directly discharges steam to atmosphere, whereinthe auxiliary steam flow control valve and a silencer are disposed on the start-up steam atmosphere discharge pipe,the auxiliary steam flow control valve is provided on a bypass pipe, andbefore a start of a speed-up of the gas turbine, the controller makes the start-up boiler generate a required flow rate of steam for the low-pressure steam turbine for a purpose of increasing a rotation speed of the shaft up to the rotation speed allowing the self-sustained operation of the gas turbine and allows the auxiliary steam generated from the start-up boiler to be discharged to the atmosphere through the start-up steam atmosphere discharge pipe and the auxiliary steam flow control valve; and during a speed-up phase, the controller controls the auxiliary steam flow control valve such that a flow rate of the steam fed to the low-pressure steam turbine through the low-pressure main steam control valve becomes equal to a flow rate of the steam required for increasing the rotation speed of the shaft up to the rotation speed allowing the self-sustained operation of the gas turbine. 5. The single shaft combined cycle power plant according to claim 1, wherein the low temperature reheat system has cooling steam systems for cooling a high temperature part of the gas turbine. 6. The single shaft combined cycle power plant according to claim 1, wherein the controller makes the low-pressure main steam control valve open such that a valve opening degree of the low-pressure main steam control valve reaches a valve opening degree at which a required flow rate of auxiliary steam for the low-pressure steam turbine can be ensured after ignition of the gas turbine, before a time point at which a minimum required fuel flow rate for the gas turbine to hold a flame starts increasing. 7. The single shaft combined cycle power plant according to claim 1, wherein a flow rate of auxiliary steam required for the low-pressure steam turbine is a flow rate required for the low-pressure steam turbine to generate a maximum drive torque in a drive torque range required for a speed-up of the gas turbine. 8. The single shaft combined cycle power plant according to claim 1, wherein in order to increase the rotation speed of the gas turbine to the rotation speed allowing the self-sustained operation of the gas turbine using the combustion gas, the controller has an auxiliary steam pressure switch control section that switches pressure of the auxiliary steam to be fed from the start-up time auxiliary steam supply pipe to the low-pressure turbine steam supply pipe at least between two pressures of a predefined first pressure and a second pressure lower than the first pressure. 9. The single shaft combined cycle power plant according to claim 8, wherein the first pressure is set to a pressure value at which the low-pressure main steam control valve is not fully opened even when the auxiliary steam for the low-pressure steam turbine to generate a maximum drive torque required for a speed-up of the gas turbine flows in the low-pressure main steam control valve, andthe second pressure is set to a pressure value at which both the low-pressure steam and the auxiliary steam can be fed to the low-pressure steam turbine through the low-pressure main steam control valve. 10. The single shaft combined cycle power plant according to claim 8, wherein the auxiliary steam pressure switch control section sets a pressure of the auxiliary steam to the first pressure at a time of a fuel purge operation and an ignition of the gas turbine, and switches the pressure of the auxiliary steam from the first pressure to the second pressure during a time period in which the rotation speed of the gas turbine is higher than a rotation speed for the low-pressure steam turbine to generate a maximum drive torque required for a speed-up of the gas turbine and lower than the rotation speed allowing the self-sustained operation of the gas turbine using the combustion gas. 11. The single shaft combined cycle power plant according to claim 2, further comprising a switch means for selecting a non-ignition speed-up operation in which a shaft rotation speed is increased to a predetermined rotation speed without involving an ignition of the gas turbine. 12. A start-up method of a single shaft combined cycle power plant comprising: a gas turbine that is driven by combustion gas and discharges exhaust gas;an exhaust heat recovery boiler that uses the exhaust gas from the gas turbine as a heat source and includes: a high-pressure drum for generating high-pressure steam;a low-pressure drum for generating low-pressure steam having a pressure lower than that of the high-pressure steam;an intermediate-pressure drum that generates intermediate-pressure steam having a pressure lower than the pressure of the high-pressure steam and higher than the pressure of the low-pressure steam; anda reheater that generates high temperature reheated steam;a high-pressure steam turbine that is coaxially arranged with the gas turbine and driven by the high-pressure steam fed from the high-pressure drum via a high-pressure steam control valve;a low-pressure steam turbine that is coaxially arranged with the high-pressure steam turbine;a power generator that is coaxially arranged with the low-pressure steam turbine;an intermediate-pressure steam turbine that is coaxially arranged with the high-pressure steam turbine and the low-pressure steam turbine, and driven by the high temperature reheat steam from the reheater;a low-pressure turbine steam supply system that has a low-pressure main steam control valve and that feeds a mixture of steam from the low pressure drum through the low-pressure main steam control valve and steam that has been adiabatically expanded in the intermediate-pressure steam turbine;a start-up boiler that generates auxiliary steam;a start-up time auxiliary steam supply pipe that connects the start-up boiler with the low-pressure turbine steam supply pipe at an upstream side relative to the low-pressure main steam control valve and feeds the auxiliary steam at start-up time;an auxiliary steam flow control valve that controls a flow rate of steam fed from the start-up time auxiliary steam supply pipe to the low-pressure turbine steam supply pipe; anda low temperature reheat system that feeds steam from the high-pressure steam turbine together with the intermediate-pressure steam from the intermediate-pressure drum to the reheater, whereinduring a time period from when the gas turbine is started up to when a rotation speed of the gas turbine reaches a rotation speed allowing self-sustained operation using the combustion gas, the auxiliary steam from the start-up boiler is fed to the low-pressure steam turbine via the low-pressure turbine steam supply system by controlling a valve opening degree of the auxiliary steam flow control valve to allow the low-pressure steam turbine to generate a drive force to thereby perform speed-up control in a unified manner for the gas turbine, the high-pressure steam turbine, the intermediate-pressure steam turbine, the low-pressure steam turbine, and the power generator.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Ozono Jiro (Kanagawa JPX), Combined generating plant and its start-up control device and start-up control method.
Moore James H. (Schenectady NY) Kure-Jensen Jens (Schenectady NY) Rowen William I. (Schenectady NY), Control system for single shaft combined cycle gas and steam turbine unit.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.