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N the maximum attainable regeneration, though any additional in crease does
N the maximum doable regeneration, even though any further in crease will not offer significant improvements. Handful of oscillations with the results are du 9 of 15 to numerical approximations of your optimization approach.Figure VBIT-4 Autophagy Fraction of power DNQX disodium salt MedChemExpress recovered with stopping time of of 20 s, starting 25 km/h to Figure eight. eight. Fraction of power recoveredwith a a stopping time 20 s, beginning fromfrom 25 km/h to 10 100 km/h. km/h.Figures 9 and ten report the simulation outcomes, respectively, for 50 km/h and 7 km/h, initial speeds and stopping times from 10 to 40 s. The results show that, in each situations, the recovered energy depends upon the stopping time and that the added benefits of th braking modulation can possess a robust impact, specifically for non-optimal stoppin occasions, i.e., for those which imply a non-maximum energy recovery.Energies 2021, 14, x FOR PEER REVIEWFigure 9. Fraction of energy recovered, starting at 50 km/h for stopping occasions from ten to 40 s.11 ofFigure 9. Fraction of power recovered, starting at 50 km/h for stopping occasions from ten to 40 s.Figure ten. Fraction of power recovered, starting at 75 km/h for stopping from from 10 Figure 10. Fraction of energyrecovered, starting at 75 km/h for stopping occasions times10 to 40 s. to 40 s.Figure 11 shows the simulations when the braking force is modulated in eight measures and reports the braking forces vs the vehicle’s speed for various stopping times and 75 km/h initial speed. It can be observed that when the stopping time is set to 20 s, the braking force remains constant roughly at 1200 N along the entire speed variety (substantial purple star).Figure ten. Fraction of energy recovered, beginning at 75 km/h for stopping instances from 10 toEnergies 2021, 14, 6835 10 ofFigure 11 shows the simulations when the braking force is modulated in 8 ste reports the braking forces vs the vehicle’s speed for distinctive stopping occasions and 7 Figure 11 It can be observed that when the stopping time is measures 20 initial speed.shows the simulations when the braking force is modulated in 8set to and s, the b reports the braking forces vs the vehicle’s speed for various stopping times and 75 km/h purp force remains continual roughly at 1200 N along the whole speed range (large initial speed. It could be observed that when the stopping time is set to 20 s, the braking force When aconstant serious braking along the entire speed rangestopping times decrease than two more roughly at 1200 N is necessary by setting (significant purple star). When remains braking force is increased provided that the speed decreases, than 20 for moderate to mil a more extreme braking is expected by setting stopping occasions lower while s, the braking force is increased so long as the speed decreases, whilst the deceleration is resulting from ing manoeuvres, it decreases toward zero since for moderate to mild braking aerod manoeuvres, it decreases toward and rolling passive forces. zero because the deceleration is resulting from aerodynamic androlling passive forces.Figure 11. Braking forces vs speed at a variety of stopping instances, beginning at 75 km/h. The highes recovery is obtained by stopping the vehicle in 20 s (massive purple star). recovery is obtained by stopping the auto in 20 s (significant purple star).Figure 11. Braking forces vs speed at various stopping instances, beginning at 75 km/h. The highest energyTwo situations, referring to the optimal and towards the most extreme braking manoeuvre are shown in Figure 12, exactly where the braking forces are reported for two diverse scenarios, man Two conditions, referring towards the optim.