Optimization method of active distribution system dispatching in industrial parks considering the demand of peak load regulation

Abstract

The invention discloses an optimization method of active distribution system dispatching in industrial parks considering the demand of peak load regulation. The photovoltaic power generation unit PV,the vanadium flow battery energy storage system VRB and the industrial load are used as the active distribution system dispatching units in the industrial park, which participated in the considering of peak load regulation, and the physical models of each dispatching unit are established. The DTMDP model is established to solve the dynamic dispatching optimization problem of active distribution system in industrial parks considering the demand of peak load regulation. The Q-learning algorithm based on simulated annealing is used to solve the DTMDP model, and the optimal control strategy is used to guide the system to choose the reasonable action plan in the actual operation process and realize the system scheduling optimization. The invention can effectively solve the problem of peak shaving demand of the power network under the condition of considering the randomness of the source and the load, promote the local absorption of new energy, and improve the operation economy of the activedistribution system and the operation stability of the power system.

Description

technical field [0001] The invention relates to the field of optimal dispatching of active power distribution systems, and specifically relates to a scheduling optimization method for active power distribution systems in industrial parks in consideration of the randomness of both sides of the source and load, considering the peak regulation requirements of the power grid. Background technique [0002] With the increasing penetration rate of new energy and the scale of controllable load, the situation of power grid peak shaving is becoming more and more severe, and the distributed characteristics of distribution network are becoming more and more obvious. Active power distribution system with active control and active management of flexible load and energy storage. Effective use of the interaction between distributed energy and loads in the active power distribution system, on the one hand, can realize the safe and economical operation of the system itself, and on the other h...

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Problems solved by technology

[0003] The existing optimal dispatching methods for active power distribution systems are mainly divided into two categories. One is to use genetic algorithm, biogeographic optimization algorithm, particle swarm optimization algorithm and other optimization algorithms without considering the randomness of new energy output and load demand. The optimal scheduling problem of the active power distribution system is solved strategically, but the uncertainty of new energy output and load demand is ubiquitous and unavoidable. It will be difficult to guarantee the long-term safe and economic operation of the active power distribution system if the optimal control strategy is used as the benchmark value; the other is to predict the uncertainty of new energy output and load demand th

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