Method for constructing distributed dynamic power flow computing system for energy management of electric power system

Abstract

The invention discloses a method for constructing a distributed dynamic power flow computing system for energy management of an electric power system, belonging to the technical field of energy management of electric power systems. The method comprises the following steps of: setting a distributed computing coordination layer in a superior scheduling center, and setting a distributed computing subsystem in an inferior scheduling center. The system comprises three modules, i.e., a network communication module, a system management module and a computing management module, wherein the network communication module is realized by adopting a relatively mature CORBA (Common Object Request Broker Architecture) technology in the distributed field and meets the requirement of a coordinating layer and a subsystem on data exchange; the free entrance or exit of a subsystem is realized by the system management module; the subsystem can be used for controlling the allocation and the release of the internal memory of the coordination layer to solve the problem of starting of power flow computation; and the computing management module is used for realizing procedure management of power flow computation and solving the problem of transmission of link line boundary information during data exchange by forming a node mapping table of a link line local node number and a coordination layer node number. The method meets the requirement of practicability.

Description

Technical field [0001] The invention belongs to the technical field of power system energy management, and particularly relates to a method for constructing a distributed dynamic power flow calculation system for power system energy management. Background technique [0002] With the development of the power system, regional power grids are interconnected to form a larger-scale system. It is impossible for a single control center to centrally monitor and manage the power grid. China currently implements a hierarchical and partitioned power grid management model. Levels and regions are managed by the national, network, provincial, and local power grids. Each regional power grid is relatively independent and has its own relatively independent dispatching center. Dispatching centers at all levels have established more detailed grids for the power grids within their jurisdiction. Power system model, but each subnet does not know the operating parameters and status of other subnets. H...

AI Technical Summary

Problems solved by technology

For example, in reality, each subsystem is independent of each other. Different subsystems are modeled at the connection line, and the modeling methods are different. How to exchange boundary information between adjacent subsystems is very difficult, and the actual network environment Complex, how to deal with various network interference also needs to be carefully considered

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