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Comprehensiveenergy system load safety domain evolution characteristic generation method based on a fault coupling propagation process

A technology of integrated energy system and propagation process, applied in the field of evolution feature generation of load safety domain of integrated energy system, which can solve the problems of unification, immeasurable impact of system bad behavior, inconsistent time constants of different energy systems, etc.

Inactive Publication Date: 2019-06-21
CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY
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Problems solved by technology

The types of components are more abundant than circuit breakers and relay protection devices in traditional power systems, and the time constants of different energy systems are inconsistent. It is difficult to unify the physical characteristics of components in a deterministic method. The resulting series of events may also lead to the collapse of the entire integrated energy system
Among them, the gas turbine, the coupling element between the electricity and natural gas system, plays a more prominent role. On the one hand, it obtains unit fuel natural gas through the gas supply path of the natural gas system, and on the other hand, it converts the chemical energy of natural gas into electrical energy and injects it into the power system. If there is a failure, the evil impact on the system is immeasurable

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  • Comprehensiveenergy system load safety domain evolution characteristic generation method based on a fault coupling propagation process

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Embodiment Construction

[0013] Under the background of fault coupling propagation in the integrated energy system, the present invention considers the topology change under the fault coupling propagation, and analyzes the saddle node bifurcation evolution process of the integrated energy system under the topology change, and combines the boundary of the load safety domain of the integrated energy system in the Markov process Based on the analysis of the evolution characteristics of the load safety domain of the integrated energy system, a generation method for the evolution characteristics of the load safety domain of the integrated energy system is proposed, which is of great significance for improving the safety and stability of the operation of the integrated energy system.

[0014] The present invention comprises the following steps:

[0015] Step 1: Collect topology change information of the integrated energy system under fault coupling propagation

[0016] (1) Construct the physical topology mo...

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Abstract

The invention relates to a comprehensive energy system load safety domain evolution characteristic generation method based on a fault coupling propagation process. The method belongs to the technicalfield of comprehensive energy system safety analysis. Specific steps are as follows: firstly, the comprehensive energy system topology change under fault coupling propagation is considered; a comprehensive energy system physical topological model under the normal working condition is constructed; the topological change characteristics of the comprehensive energy system are analyzed based on the Markov process, the saddle node bifurcation evolution process of the comprehensive energy system is analyzed under the topological change, the load safety domain boundary change of the comprehensive energy system is discussed in the Markov process, and finally the load safety domain evolution characteristics of the comprehensive energy system are generated under fault coupling propagation.

Description

technical field [0001] The invention relates to a method for generating evolution characteristics of a load safety domain of an integrated energy system based on a fault coupling propagation process, and belongs to the technical field of safety analysis of an integrated energy system. Background technique [0002] The integrated energy system has become one of the important development trends in the future energy field because of its environmental protection and high energy utilization rate. Among them, the combined cooling, heating and power integrated energy system represented by combined cooling, heating and power is developing rapidly. The joint optimization of cooling, heating and power systems can improve fuel utilization efficiency and save operating costs, but current research on energy flow in coupled systems is mainly focused on power systems, ignoring the impact of each subsystem in the coupled system on the entire integrated energy system. In an integrated energy...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/06G06Q50/06
CPCY02P90/82
Inventor 马瑞王大朔邱小洪颜宏文
Owner CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY
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