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Device for online monitoring and controlling low cycle fatigue life consumption of components of steam turbine and method

A low-cycle fatigue and life loss technology, applied in the field of steam turbines, can solve problems such as inability to effectively prolong the service life of other components

Active Publication Date: 2012-03-14
SHANGHAI POWER EQUIP RES INST +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Since a large steam turbine has more than a dozen components, only the transient low-cycle fatigue life loss of the steam turbine rotor is monitored and controlled, but the service life of other components cannot be effectively extended

Method used

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  • Device for online monitoring and controlling low cycle fatigue life consumption of components of steam turbine and method
  • Device for online monitoring and controlling low cycle fatigue life consumption of components of steam turbine and method
  • Device for online monitoring and controlling low cycle fatigue life consumption of components of steam turbine and method

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Embodiment

[0033] Such as figure 1 As shown, it is a block diagram of the on-line monitoring and control device adopted by the present invention, the on-line monitoring and control device of steam turbine component low cycle fatigue life loss of the present invention is composed of computing server, database server, web server, client browser and plant-level monitoring Composition of information devices. The web server is connected to the computing server, the database server and the client browser respectively, the computing server is connected to the database server and the web server respectively, and the database server is connected to the digital electro-hydraulic control device of the steam turbine through the plant-level monitoring information device.

[0034] Such as figure 2 Shown, the flowchart of the method adopted in the present invention, as image 3As shown, it is a block diagram of the computer software adopted on the calculation server of the present invention, the sof...

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Abstract

The invention relates to a device for online monitoring and controlling low cycle fatigue life consumption of components of a steam turbine and a method, belonging to the technical field of the steam turbine. The invention is characterized in that the device consists of a compute server, a database server, a web server, a user browser and a plant supervisory information device; the web server is connected with the user browser, the database server and the compute server respectively; the compute server is connected with the database server which is connected with a digital electric-hydraulic control device of the steam turbine by the plant supervisory information device. The invention has the advantages of being capable of realizing online computing and controlling of transient low cycle fatigue life consumption of a plurality of components of the steam turbine.

Description

technical field [0001] The invention relates to an on-line monitoring and control device and method for low-cycle fatigue life loss of steam turbine components, belonging to the technical field of steam turbines. Background technique [0002] The 16 parts of the steam turbine are high-pressure rotor, medium-pressure rotor, low-pressure rotor, high-pressure inner cylinder, medium-pressure inner cylinder, low-pressure inner cylinder, high-pressure outer cylinder, medium-pressure outer cylinder, low-pressure outer cylinder, high-pressure nozzle chamber, and high-pressure main steam valve Housing, medium pressure main steam valve housing, high pressure regulating valve housing, medium pressure regulating valve housing, high pressure steam pipeline, medium pressure steam pipeline, etc., are characterized by large size and high cost. During the start-up, shutdown and load changes of the steam turbine, due to the uneven temperature distribution along the radial direction of the com...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B19/048F01D21/00F01D1/00
Inventor 史进渊徐坚邹军沈海华杨宇翁彦孙坚夏杰邓志成毕政益达得军吴茜
Owner SHANGHAI POWER EQUIP RES INST
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