2020
DOI: 10.3390/s20236935
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Methodology for the Accurate Measurement of the Power Dissipated by Braking Rheostats

Abstract: The energy efficiency of transportation is a crucial point for the rail and metro system today. The optimized recovery of the energy provided by the electrical braking can lead to savings of about 10% to 30%. Such figures can be reached by infrastructure measures which allow the recovery of the breaking energy that is not directly consumed by the rail system and dissipated in rheostat resistors. A methodology for the accurate estimate of such energy is valuable for a reliable evaluation of the cost–benefit rat… Show more

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Cited by 7 publications
(2 citation statements)
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“…Otherwise, energy may be fed back to reversible TPSs (feeding back the AC utility) and storage systems [19][20][21][22] (particularly useful if the country's local regulations allow energy discounting [23]). As a last option, energy may be dissipated on large onboard resistors [24] to safely limit the pantograph voltage excursion (line voltage limits for European systems appear, e.g., in the EN 50163 [25]).…”
Section: Introductionmentioning
confidence: 99%
“…Otherwise, energy may be fed back to reversible TPSs (feeding back the AC utility) and storage systems [19][20][21][22] (particularly useful if the country's local regulations allow energy discounting [23]). As a last option, energy may be dissipated on large onboard resistors [24] to safely limit the pantograph voltage excursion (line voltage limits for European systems appear, e.g., in the EN 50163 [25]).…”
Section: Introductionmentioning
confidence: 99%
“…The equations defining the EMs are usually presented in a rectangular coordinate system, making it possible to determine the relationships between the relevant component of the space vectors of current or voltage and flux [15]. Hence, the modeling methods for the EMs are based on the measurement of peak-to-peak current with the pulsed voltage supply [16,17], measurement of steady-state characteristics [18,19], measurement of currents and voltages at constant velocity or determination of relevant time characteristics [20,21]. The EMs are most often used in the conditions of constantly changing parameters of the supply voltage (e.g., amplitude and frequency) and load torque [14].…”
Section: Introductionmentioning
confidence: 99%