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Optimal allocation of active distribution network resources based on Tianniuxiu algorithm

A technology for active distribution network and resource optimization, applied in circuit devices, electrical components, AC network circuits, etc., can solve problems such as difficulties in active distribution network operation and optimization

Pending Publication Date: 2019-09-17
NANCHANG UNIV
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Problems solved by technology

[0005] The purpose of this invention is to aim at the ability of active distribution network to accommodate distributed power, considering the characteristics of distributed In view of the difficulties brought about by the operation and optimization of the power grid, an optimal allocation of resources in the active distribution network based on the algae-beard algorithm is proposed. In the case of maximizing the consumption of renewable energy, the resource allocation is optimized according to the principle of economic benefits, and the active power is balanced. , and use the beetle whisker algorithm to optimize the allocation of reactive power output of each resource, and then improve the consumption capacity of renewable resources in the active distribution network and the operation level and economy of the distribution network, and establish a network loss and voltage deviation as the goal Mathematical model of function for multi-objective optimization

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  • Optimal allocation of active distribution network resources based on Tianniuxiu algorithm
  • Optimal allocation of active distribution network resources based on Tianniuxiu algorithm
  • Optimal allocation of active distribution network resources based on Tianniuxiu algorithm

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[0082] Example: A power distribution system: the typical daily maximum load is 4.74MW, the minimum load is 2.45MW, the installed capacity of photovoltaic power generation is 2MW, the installed capacity of wind power generation is 2MW, and the substation sends power to the system at a fixed power of 1.5MW. Both the system load and the output of renewable energy are time-sequential. In order to ensure the balance of power supply and demand in the system and the full consumption of renewable energy power generation, it is planned to configure micro-gas turbines, energy storage batteries, charging piles, capacitors, etc. Regulate resources, in which the average daily charging capacity of charging piles is 0.1MW. The improved standard IEEE33 node system is now used for simulation calculations. The energy storage battery is connected to node 5, the micro-gas turbine is connected to node 33, the charging pile is connected to node 22, the photovoltaic power plant is connected to node 1...

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Abstract

The invention discloses an optimal allocation of active distribution network resources based on the Tianniuxiu algorithm. The optimal allocation is characterized in that the time sequence of wind and photovoltaic distributed power generation output and load is considered, absorption of renewable energy is maximized through optimal allocation of the resources, active power is balanced, the Tianniuxiu algorithm is utilized for resource optimal allocation, the active power of each period is balanced according to the system demand and the economy principle, and reactive power compensation is performed to reduce power loss and voltage deviation to meet economic requirements. The optimal allocation has a certain practical value and can improve the safe and stable operation level of a system and the ability of the active distribution network to absorb the renewable energy.

Description

technical field [0001] The present invention relates to the optimal allocation technology of active distribution network resources, in particular to the optimal allocation of active distribution network resources using the beetle whisker algorithm considering the output and load timing characteristics of distributed power sources such as wind power and photovoltaics. Background technique [0002] With the access of a large number of distributed power sources, the traditional distribution network is facing new challenges. First of all, it will have a great impact on the structure and operation of the distribution network, resulting in a bidirectional power flow between the transmission and distribution network. The load and power supply will have double uncertainties, and customers will have dual identities as consumers and producers. Secondly, the traditional distribution network is dominated by unilateral power supply and radial power supply mode. The connection of high-pen...

Claims

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Application Information

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IPC IPC(8): H02J3/48H02J3/50
CPCH02J3/48H02J3/50H02J2203/20
Inventor 杨永捷李红娟徐敏
Owner NANCHANG UNIV
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