Liquid level control system for vapor generator
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05B-015/02
H02P-009/04
F01B-025/00
F02N-011/06
출원번호
US-0500759
(1983-06-03)
발명자
/ 주소
Singh, Gurdip
출원인 / 주소
Combustion Engineering, Inc.
대리인 / 주소
Snyder, Troxell K.
인용정보
피인용 횟수 :
6인용 특허 :
8
초록▼
A system for regulating the liquid level (20) in a vapor generator (10), in which the incoming flow of feed liquid (54) is regulated (48) in response to the difference between the measured liquid level (76) and a reference level (80), the difference between the exiting vapor mass flow rate (64) and
A system for regulating the liquid level (20) in a vapor generator (10), in which the incoming flow of feed liquid (54) is regulated (48) in response to the difference between the measured liquid level (76) and a reference level (80), the difference between the exiting vapor mass flow rate (64) and the incoming liquid mass flow rate (56), and a function of the measured incoming liquid temperature (92). The temperature function produces a gain value (98), which increases in response to decreasing incoming liquid temperature.
대표청구항▼
1. A method for controlling a flowing liquid entering a vapor generator, the entering liquid having a mass flow rate and a current temperature, and the vapor generator having a current level of liquid therewithin, a flow of a vapor exiting therefrom, including a mass flow rate of the vapor, a rate o
1. A method for controlling a flowing liquid entering a vapor generator, the entering liquid having a mass flow rate and a current temperature, and the vapor generator having a current level of liquid therewithin, a flow of a vapor exiting therefrom, including a mass flow rate of the vapor, a rate of liquid mass accumulation or depletion within said vapor generator, and a difference between the entering and exiting mass flow rates, comprising the steps of: measuring the current level of liquid in said vapor generator; comparing the measured liquid level with a reference level for generating a liquid level error value; determining the rate of mass accumulation or depletion within said vapor generator; measuring the current temperature of the entering liquid; generating a temperature gain value, responsive to the incoming liquid temperature, said gain value having a value of unity for measured liquid temperatures greater than or equal to a reference temperature and increasing linearly with decreasing measured liquid temperatures below the reference temperature; multiplying the determined rate of mass accumulation or depletion by said temperature gain value for generating a temperature compensated mass flow correction value; modifying the liquid level error value by the temperature compensated mass flow correction value for generating a liquid flow error value; and regulating a device in response to the liquid flow error value for controlling the mass flow rate of the liquid flowing into said vapor generator. 2. The method as recited in claim 1, wherein the step of determining the rate of mass accumulation or depletion within said vapor generator includes the steps of: measuring the mass flow rate of liquid entering said vapor generator; measuring the mass flow rate of vapor exiting said vapor generator; and determining the difference between the entering liquid mass flow rate and the exiting vapor mass flow rate. 3. A four variable control system for controlling a flow of a liquid into a vapor generator, the flow of liquid having a current mass flow rate and a current temperature, and the vapor generator having a current mass flow rate of vapor exiting therefrom and a current liquid level therewithin, comprising: means for generating a liquid level signal commensurate with the current liquid level in said vapor generator; means for generating an entering liquid flow signal commensurate with the current mass flow rate of liquid flowing into said vapor generator; means for generating a vapor flow signal commensurate with the current mass flow rate of vapor exiting said vapor generator; means for generating a liquid temperature signal commensurate with the current temperature of liquid entering said vapor generator; means, responsive to the difference between the liquid level signal and a reference level value, for generating a level error signal; means, responsive to the difference between the vapor flow signal and the entering liquid flow signal for generating a mass accumulation signal; means, responsive to any difference between the liquid temperature signal and a reference temperature value, for generating a temperature gain signal increasing in magnitude with the difference between the liquid temperature signal and the reference temperature value for liquid temperatures less than the reference temperature value, and having a value of unity for liquid temperature signals greater than or equal to the reference temperature value; means, responsive to the mass accumulation signal and the temperature gain signal, for generating a temperature compensated mass flow correction signal, further including a signal multiplier for multiplying the mass accumulation signal and the temperature gain signal; means, responsive to the level error signal and the temperature compensated mass flow correction signal, for generating a liquid flow error signal; and means, responsive to the liquid flow error signal, for generating a liquid flow demand signal, said liquid flow demand signal being suitable for controlling a device for regulating the flow rate of liquid entering said vapor generator. 4. The control system of claim 3, wherein the means for generating the liquid flow demand signal includes a proportional and integral controller. 5. The control system of claim 3, wherein the means for generating the liquid flow demand signal includes a proportional and integral controller. 6. In a vapor generator having an entering flow of liquid, an exiting flow of vapor, a desired reference level of liquid within said vapor generator, a current liquid level within said vapor generator, a rate of liquid mass accumulation or depletion within said vapor generator, a temperature of the liquid entering said vapor generator, and a system for controlling the flow of liquid into said vapor generator, said control system including means for determining any difference between the current liquid level and the reference liquid level, means for determining the rate of liquid mass accumulation within said vapor generator, and means, responsive to the determined level difference and the liquid mass accumulation, for regulating the flow of liquid entering said vapor generator, the improvement comprising means, responsive to the temperature of the entering liquid and a reference temperature, for imparting a temperature gain to the rate of mass accumulation, said gain being of constant magnitude for entering liquid temperatures equal to or greater than the reference temperature and said gain increasing in magnitude for entering liquid temperatures falling below the reference temperature. 7. A feed liquid temperature compensator for use with a three variable liquid level control system, said three variable system being used with a vapor generator having a flow of liquid entering and a flow of vapor exiting, a current liquid level therewithin and a reference liquid level, the flow of liquid entering the vapor generator having a mass flow rate and a temperature, and the flow of vapor exiting the vapor generator having a mass flow rate, and said three variable system being of the type wherein a signal commensurate to any difference between the mass flow rate of the liquid entering and the mass flow rate of the vapor exiting the vapor generator is generated and combined with any difference between the current liquid level within said vapor generator and the reference liquid level for regulating the mass flow rate of the liquid entering said steam generator, said compensator comprising: a temperature transducer for generating a signal commensurate with the temperature of the liquid entering said vapor generator; a function generator, responsive to the entering liquid temperature signal, for generating a gain value, said gain value generally increasing in magnitude as the entering liquid temperature decreases below a reference temperature; and means for multiplying the mass flow difference signal of said three variable control system by said gain value prior to combining the mass flow difference signal , with the difference between the current liquid level and the reference liquid level, thereby forming a four variable control system responsive to the temperature of the liquid entering said vapor generator.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Durrant Oliver W. (Bath Township ; Summit County OH), Control system for a nuclear power producing unit.
Matsumoto ; Hiroshi ; Nakano ; Yoshiyuki ; Higashi ; Toshihiko ; Yasumo to ; Akihiro, Steam turbine control system and method of controlling the ratio of steam flow between under full-arc admission mode an.
Sato Yoshio (Hitachi JPX) Kurihara Nobuo (Hitachiota JPX) Nomura Masahide (Hitachi JPX) Kawano Shigeyoshi (Kure JPX) Saito Tadayoshi (Hitachiota JPX), System and method for adaptive control of process.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.