Bottom-guaranteed power grid optimization method for key area power grid under violent typhoon condition

The invention provides a bottom-guaranteed power grid optimization method for a key area power grid under a strong typhoon condition. The method comprises the steps of S1, selecting tie lines for interconnection of a bottom-guaranteed power grid with an external power grid; S2, taking the power cont...

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Hauptverfasser:	QIU GUANXIN, YANG RUIXIONG, CHEN JIANFU, GUO HUAJUN, XING XUBIN, PEI XINGYU, GAN DESHU, LONG FEI, ZHANG YONG, DU CHENGTAO, WU HAIXIONG, CAO ANYING
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION SYSTEMS FOR STORING ELECTRIC ENERGY
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creator	QIU GUANXIN YANG RUIXIONG CHEN JIANFU GUO HUAJUN XING XUBIN PEI XINGYU GAN DESHU LONG FEI ZHANG YONG DU CHENGTAO WU HAIXIONG CAO ANYING
description	The invention provides a bottom-guaranteed power grid optimization method for a key area power grid under a strong typhoon condition. The method comprises the steps of S1, selecting tie lines for interconnection of a bottom-guaranteed power grid with an external power grid; S2, taking the power control level of the tie lines as a basis to formulate generator active power regulation and load control measures in the bottom-guaranteed power grid area; S3, carrying out power flow zero-cutting control on a contact section of the bottom-guaranteed power grid and the external power grid; S4, controlling the voltage level of a bus node in the bottom-guaranteed power grid; S5, carrying out transient stability characteristic verification in bottom-guaranteed power grid division process through PSD-BPA equipment; and S6, performing middle transient stability characteristic verification after splitting of the bottom-guaranteed power grid and the external power grid through the PSD-BPA equipment. According to the method,
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The method comprises the steps of S1, selecting tie lines for interconnection of a bottom-guaranteed power grid with an external power grid; S2, taking the power control level of the tie lines as a basis to formulate generator active power regulation and load control measures in the bottom-guaranteed power grid area; S3, carrying out power flow zero-cutting control on a contact section of the bottom-guaranteed power grid and the external power grid; S4, controlling the voltage level of a bus node in the bottom-guaranteed power grid; S5, carrying out transient stability characteristic verification in bottom-guaranteed power grid division process through PSD-BPA equipment; and S6, performing middle transient stability characteristic verification after splitting of the bottom-guaranteed power grid and the external power grid through the PSD-BPA equipment. 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The method comprises the steps of S1, selecting tie lines for interconnection of a bottom-guaranteed power grid with an external power grid; S2, taking the power control level of the tie lines as a basis to formulate generator active power regulation and load control measures in the bottom-guaranteed power grid area; S3, carrying out power flow zero-cutting control on a contact section of the bottom-guaranteed power grid and the external power grid; S4, controlling the voltage level of a bus node in the bottom-guaranteed power grid; S5, carrying out transient stability characteristic verification in bottom-guaranteed power grid division process through PSD-BPA equipment; and S6, performing middle transient stability characteristic verification after splitting of the bottom-guaranteed power grid and the external power grid through the PSD-BPA equipment. 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subjects	CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION SYSTEMS FOR STORING ELECTRIC ENERGY
title	Bottom-guaranteed power grid optimization method for key area power grid under violent typhoon condition
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