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IT network, etc. Simply by changing the operational strategy in an existing distribution system automation model, the task of network reconfiguration based on the set objectives can be achieved. Hence, designing the methodology for achieving step 4 can easily be done.

      Figure 2.1 Methodology for deducing the optimal switching frequency.

      2.6 Feeder Reconfiguration

      The distribution system provides power to the end users from a set of distribution feeders, which are normally configured radially due to a protection point of view. Two types of switches, i.e. sectionalizing switches and tie switches are placed in every distribution network. During normal operations, sectionalize switches are kept closed and tie switches are kept open. In case of any requirements related to protection coordination or reconfigurations, these switches play the dominant roles.

      Figure 2.2 IEEE 33-bus radial distribution system.

S. No. Tie switch number Voltage difference across tie switch
1 33 0.071
2 34 0.027
3 35 0.085
4 36 0.023
5 37 0.058

      Now, let us consider that the loss obtained, i.e. 150 kW, is too high and there is scope for a loss reduction for which network reconfiguration is selected. The basic task required in network reconfiguration is to alter topological structures of the network by changing the status of the tie and sectionalizing switches. At the start any one tie switch will be closed. However, whenever the tie switch is closed, one loop will be formed in the network, which will violate the network operational constraint, i.e. radiality. Hence, to eradicate this violation, any sectionalizing switch of the network that is essentially part of the loop formed must be opened. Further, while opening the sectionalizing switch, care must be taken that every node is getting a supply. After opening the sectionalizing switch, the load flow will be run for the restructured case. The total technical loss (I2R), individual bus voltages, and different line flows for this restructured case will be observed. From the observed data, it must be verified that the current flow through none of the line is violating the thermal limit of the line.

      As per the proposed methodology, any one of the tie switches is closed and one of the sectionalizing switches constituting the loop is made open in the first step. Generally, the tie switch across which the voltage difference is highest among all the tie switches and is also more than a specified value is preferred to be closed first. For example, in the network shown in Table 2.1, tie switch 36 will be closed first as the voltage difference across it is highest among all the ties switches. Similarly, the sectionalizing switch that is opened first is the one that is connected to any one bus between the two supporting buses of the tie switch; generally the bus with the lower voltage is preferred. The reconfigured network obtained with the closing of the tie switch and opening of the sectionalizing switch will be considered as the base case for running the load flow. Suppose x1 is the total technical loss (I2R) taking place in the network for the first base case, as obtained from the load flow. In the next step, the presently open sectionalizing switch will be closed and its adjacent sectionalizing switch in the same loop will be open. For this second reconfiguration, again the load flow will be run and the above parameters will be observed while checking for all different constraints explained above. Suppose the total technical loss (I2R) obtained in this case is x2. If x2 is greater than x1, then the first reconfiguration will be the best reconfiguration corresponding to tie switch 1. However, if x2 is less than x1, then similar steps will be repeated by closing the presently opened sectionalizing switch while simultaneously opening the next adjacent sectionalizing switch within the same loop. This process will be repeated until a reconfiguration is obtained for which the value of the total technical loss (I2R) is more than its current previous value. Suppose the process continued for nth number of sectionalizing switches in the loop and xn is the corresponding technical loss (I2R). Let this xn obtained from nth reconfigurations is found to be more than its previous value, i.e. xn-1. Then the process will be stopped and (n – 1)th reconfigurations will be considered as the best reconfiguration corresponding to tie switch 1.

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