Current protection and threshold crossing risk monitoring method for urban power grid including EV (electric vehicle) charge-discharge stations

A technology for electric vehicle and current protection, which is applied in electrical digital data processing, instruments, calculations, etc., and can solve problems affecting the safe and economic operation of power grids

Active Publication Date: 2014-12-03
WUHAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

After the electric vehicle charging and discharging station is connected to the power network as a distributed micro-energy storage unit, the distribution network will change from a radial network to a complex network of distributed and controllable micro-energy storage and user interconnection, and its operating characteristics will change, affecting the power grid. safe and economical operation of

Method used

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  • Current protection and threshold crossing risk monitoring method for urban power grid including EV (electric vehicle) charge-discharge stations
  • Current protection and threshold crossing risk monitoring method for urban power grid including EV (electric vehicle) charge-discharge stations
  • Current protection and threshold crossing risk monitoring method for urban power grid including EV (electric vehicle) charge-discharge stations

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Embodiment

[0064] 1. First introduce the specific method of the present invention, including the following steps:

[0065] Step 1. Collect charging and discharging data information of several electric vehicle charging and discharging stations, the data information including the average charging and discharging power of each electric vehicle charging and discharging station for 24 hours;

[0066] Step 2: Based on the charging and discharging data information of the electric vehicle charging and discharging station collected in Step 1, the probability distribution of the charging and discharging electric rate of the electric vehicle charging and discharging station is formed. The specific method is to count the charging and discharging data information of the electric vehicle charging and discharging station in the last N days. According to analysis, the charging and discharging data information of electric vehicle charging and discharging stations in the last N days is N×24 hours average chargi...

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Abstract

The invention belongs to the field of power system protection and control and particularly relates to a current protection and threshold crossing risk monitoring method for an urban power grid including EV (electric vehicle) charge-discharge stations. Probability distribution of discharge powers of the EV charge-discharge stations is formed on basis of charge-discharge data information of the EV charge-discharge stations; short circuit current probability distribution of each current protector is calculated through Gram-Charlier series and a semi-invariant; a short circuit current threshold crossing severity index is calculated through a utility theory; current protection and threshold crossing risk indexes of the urban power grid including the EV charge-discharge stations are then calculated. According to the method, risk assessment is performed by a probabilistic power flow method on basis of the utility theory and a risk theory; normal current protection is effectively guaranteed for the urban power grid including EV charge-discharge stations, and the urban power grid can run safely and reliably.

Description

Technical field [0001] The invention belongs to the field of power system protection and control, and in particular relates to an urban power grid current protection over-limit risk monitoring method including electric vehicle charging and discharging stations. Background technique [0002] As a representative of new energy vehicles, electric vehicles have obvious advantages in environmental protection, cleanliness, and energy saving compared to traditional vehicles powered by gasoline combustion. Electric vehicles, which represent the development direction of a new generation of energy-saving and environmentally friendly vehicles, have begun to be gradually promoted and applied worldwide, and the energy replenishment required for their operation is realized by supporting charging and discharging devices and charging and discharging stations. After the electric vehicle charging and discharging station is connected to the power network as a distributed micro energy storage unit, t...

Claims

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Application Information

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IPC IPC(8): G06F19/00
CPCY04S10/50
Inventor 杨军巫伟南
Owner WUHAN UNIV
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