Segmented algorithm for maximum bearing capacity of power access terminal considering multiple constraints
In a 10 kV distribution network environment,the uneven distribution of power load is the main reason for the exceeding of the segmented bearing capacity of the power supply access end.To avoid the occurrence of the above situation,a multi constraint segmentation algorithm for the maximum bearing capacity of the power supply access terminal is studied.Analyze the connection relationship of the 10 kV distribution network structure and calculate the reliability planning vector;Considering multiple constraints,plan the power supply access end of the distribution network.Automate the distribution of electricity signals,determine the actual range of electricity segmentation parameters based on the maximum carrying capacity power spectrum,and complete the maximum carrying capacity segmentation of the power supply access end.The experimental results show that this method can maintain the power load distribution density between 0.75~1.60 W/m2,effectively solving the problem of uneven power load distribution.In a 10 kV distribution network environment,it can avoid the situation of segmented bearing capacity exceeding the limit at the power supply access end,which meets the practical application requirements.
multiple constraintspower access terminalbearing capacity section10 kV distribution networkpower distribution signalpower spectrum
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