Combined control platform of deep peak shaving steam turbine based on stress and service life
The invention provides a stress and service life-based combined control platform for a deep peak shaving steam turbine. The platform comprises a processing server which is used for obtaining a monitoring instruction, determining first equivalent stress of specific positive and negative characteristi...
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creator | ZHU HAIYI ZHANG HONGTAO MA LIGE XIE YUESHENG WANG YUXUAN XU WANGREN WANG DE FAN XIAOPING SHI JINYUAN ZHANG YI FANG YU JIANG LUYI LI JUNKUN YE XINGZHU HUANG QINGHUA ZHANG LIN |
description | The invention provides a stress and service life-based combined control platform for a deep peak shaving steam turbine. The platform comprises a processing server which is used for obtaining a monitoring instruction, determining first equivalent stress of specific positive and negative characteristics of the high-temperature key component based on the monitoring instruction, determining stress monitoring data and first type of service life monitoring data of the high-temperature key component according to the first equivalent stress, and sending the stress monitoring data and the first type of service life monitoring data to the processing server; determining a second type of service life monitoring data of the high-temperature key component, determining a target change rate of closed-loop control parameters of the steam turbine according to multiple types of monitoring data of the high-temperature key component, and generating a closed-loop control instruction according to the target change rate; and the ste |
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The platform comprises a processing server which is used for obtaining a monitoring instruction, determining first equivalent stress of specific positive and negative characteristics of the high-temperature key component based on the monitoring instruction, determining stress monitoring data and first type of service life monitoring data of the high-temperature key component according to the first equivalent stress, and sending the stress monitoring data and the first type of service life monitoring data to the processing server; determining a second type of service life monitoring data of the high-temperature key component, determining a target change rate of closed-loop control parameters of the steam turbine according to multiple types of monitoring data of the high-temperature key component, and generating a closed-loop control instruction according to the target change rate; and the ste</abstract><oa>free_for_read</oa></addata></record> |
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language | chi ; eng |
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subjects | BLASTING ELECTRIC COMMUNICATION TECHNIQUE ELECTRICITY ENGINE PLANTS IN GENERAL HEATING LIGHTING MACHINES OR ENGINES IN GENERAL MECHANICAL ENGINEERING NON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAMTURBINES STEAM ENGINES TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHICCOMMUNICATION WEAPONS |
title | Combined control platform of deep peak shaving steam turbine based on stress and service life |
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