Response is steady involving 660 V to 640 V, wind turbine Betamethasone disodium phosphate output stays between 500 V to 440 V, the battery is steady amongst the voltage variety of 324.6 V to 324.4 V, the three DG output is about 1000 V (peak to peak) and the 3 load stays steady with 400 V (peak to peak).Sustainability 2021, 13, 12734 Sustainability 2021, 13, x FOR PEER REVIEW14 of 23 15 ofSustainability 2021, 13, x FOR PEER REVIEW15 ofFigure 11. Voltage Responses for Rajendro bazar GO. Figure 11. Voltage Responses for Rajendro bazar GO.Figure 12 shows the voltage responses for various elements located for Rajendro bazar for Load Following dispatch technique. The solar PV has steady output within 660 V to 610 V, the wind turbine includes a voltage in between 500 V to 440 V, the battery output is steady among the range of 324 V to 323.9 V, the 3 DG has roughly 1000 V (peak to peak) Figure 11. Voltage Responses for Rajendro bazar GO. voltage and also the three load includes a stable voltage of 400 V (peak to peak).Figure 12. Voltage Responses for Rajendro bazar LF.Figure 12. Voltage Responses for Rajendro bazar LF. Figure 12. Voltage Responses for Rajendro bazar LF.Figure 13 shows the voltage responses for different Safranin Chemical components identified for Rajendro bazar for HOMER Predictive dispatch strategy. Each of the voltages are steady among two to 3 s. The PV response is staying in between 650 V to 600 V, wind output is amongst 500 V to 440 V, the battery output is steady among the range of 323.7 V to 323.3 V, the 3 load has a voltage of 400 V (peak to peak) voltage and the three DG voltage stays at 1000 V (peak to peak). Figure 14 shows the voltage responses for various components discovered for Kushighat for the Cycle Charging Dispatch tactic. Each of the voltage performances are steady in between the time frame of 2 to 3 s. The PV response includes a magnitude among 655 V to 600 V, the battery output is stable amongst the variety of 323.4 V to 322.9 V, wind output is between 500 V to 440 V the 3 DG output stays at 1000 V (peak to peak) and also the 3 load side voltage has magnitude at 400 V (peak to peak). Figure 13. Voltage Responses for Rajendro bazar PS.Sustainability 2021, 13,15 ofFigure 12. Voltage Responses for Rajendro bazar LF.Sustainability 2021, 13, x FOR PEER REVIEW16 ofFigure 13. Voltage Responses for Rajendro bazar PS. Figure 13. Voltage Responses for Rajendro bazar PS.Figure 14. Voltage Responses for Kushighat CC. Figure 14. Voltage Responses for Kushighat CC.Figure 15 shows the voltage responses for numerous elements found for Kushighat for the Combined Dispatch strategy. Each of the voltages are inside the range of two to three s. The PV output is in between 660 V to 600 V, the wind turbine has voltage magnitude amongst 500 V to 440 V, the battery output is stable involving the range of 323.9 V to 323.6 V, the 3 DG output stays at 1000 V (peak to peak) and the 3 load has an output of 400 V (peak to peak). Figure 16 shows the voltage responses for different components identified for Kushighat for the Generator Order Dispatch method. All of the voltages are steady inside the time variety of two to 3 s. The PV response stays in in between 660 V to 620 V, wind output stays in amongst 500 V to 440 V, the battery output is steady involving the range of 324.six V to 324.four V, the three DG output stays at 1000 V (peak to peak) as well as the three load voltage is settled at 400 V (peak to peak). Figure 17 shows the voltage responses for many components located for Kushighat for Load Following dispatch method. All of the voltage outputs are steady among.