Wind-storage-combined scheduling method of active distribution network
An active distribution network and wind-storage combination technology, applied in wind power generation, energy storage, electrical components, etc., can solve the problem of not considering the wind-storage withdrawal from operation, and the lack of wind-storage system configuration and scheduling methods.
Active Publication Date: 2017-12-01
STATE GRID SHANDONG ELECTRIC POWER COMPANY WEIFANG POWER SUPPLY +2
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However, this article also only considers the influence of active power, and does not consider the problems caused when part of the wind storage is out of operation
[0007] It can be seen that there are few existing methods for the joint scheduling of wind storage systems in active distribution networks that consider the economic benefits of active power and reactive power at the same time, and there is a lack of systematic research on the configuration and scheduling of wind storage systems in active distribution networks.
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[0082] The present invention is described in detail below in conjunction with accompanying drawing:
[0083] A wind-storage joint scheduling method for an active distribution network, the specific steps are as follows:
[0084] (1) Use the method of tracking the maximum-minimum value of wind power for battery constant capacity;
[0085] (2) Use the Elman network for ultra-short-term forecasting of load and wind power, and make a forecast every 10 minutes;
[0086] (3) According to the prediction results and the limitations of wind storage equipment, carry out joint optimal scheduling of active distribution network wind storage in various situations;
[0087] (4) The wind-storage combined system participates in the active distribution network dispatching with a certain penetration rate, and determines the additional additional power generation according to the short-term forecast results during the discharge stage;
[0088] (5) When the battery reaches the state of charge lim...
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The invention discloses a wind-storage-combined scheduling method of an active distribution network. The method comprises the following steps: utilizing a maximum-minimum wind power value tracking method to carry out battery capacity determination of a wind-storage-combined system, and determining the final battery capacity; utilizing an Elman neural network to carry out ultra-short-term prediction of loads and wind power according to historical wind power data of a wind turbine, wherein the prediction is carried out once every 10 minutes; and carrying out wind-storage-combined optimization scheduling of the active distribution network under various conditions according to prediction results and limitation of the final battery capacity in the wind storage system to enable the wind-storage-combined system to participate in active distribution network scheduling with a certain penetration rate, and determining an extra-added generated power amount in a battery discharging phase according to the short-term prediction results. A capacity determination method of the wind-storage-combined system in the invention is simple and convenient, the obtained results can meet requirements of safe and economical operation of the active distribution network, the Elman neural network has functions of dynamic learning and state memory for the past, and thus the obtained ultra-short-term prediction results of the wind power are not much different from actual values.
Description
technical field [0001] The invention relates to the technical field of power grid dispatching, in particular to a wind-storage joint dispatching method for an active distribution network. Background technique [0002] A large number of grid-connected distributed power sources and the continuous improvement of their penetration rate have brought a series of problems to the operation planning of the power system. The operation and management of the traditional distribution network will not be able to meet the requirements of a large number of distributed power sources. In order to effectively control the impact of DG output characteristics on the distribution network, active distribution network technology has emerged as the times require. Among them, wind power generation, as the clean energy with the most commercial value at present, has received widespread attention, but its intermittent and random characteristics make it impossible to accurately predict the output of wind ...
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Login to View More IPC IPC(8): H02J3/38H02J3/32
CPCH02J3/003H02J3/32H02J3/386Y02E10/76Y02E70/30
Inventor 杨晶晶邹贵彬马玉伟林凡勤马建生栾国军徐克政
Owner STATE GRID SHANDONG ELECTRIC POWER COMPANY WEIFANG POWER SUPPLY