System-Level Consideration and Multiphysics Design of Propulsion Motor for Fully Electrified Battery Powered Car Ferry Propulsion System

Tran, Vu-Khanh; Paul, Sarbajit; Lee, Jae-Woon; Choi, Jae‐Hak; Han, Pil-Wan; Chun, Yon‐Do

doi:10.3390/electronics12061491

Cited by 1 publication

(1 citation statement)

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“…Based on the heat sources and heat transfer coefficients, the thermal equivalent circuits of both old and new generators were constructed, as shown in Figure 9, and steadystate thermal analysis was performed for each generator. Since the armature and field copper losses reflected in the thermal analysis were calculated assuming that the temperature of the winding was 120 °C, the analysis was repeated until the temperature of the winding and the copper loss that increased in proportion converged [18]. Table 2 shows the thermal analysis of both generators operating at 3500 rpm.…”

Section: Thermal Analysismentioning

confidence: 99%

Effects of Material Deformation Due to Aging of Electrical Steel on the Brushless Wound-Field Synchronous Generator

et al. 2023

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This study analyzes the material deformation of electrical steel with aging and its effects on the electromagnetic and thermal characteristics of a Brushless Wound-Field Synchronous Generator (BL-WFSG). First, in order to confirm the material deformation of electrical steel applied to the BL-WFSG, magnetic property tests are performed on the core sheets of the old and new generators. Those two generators are made of the same material, so there was no difference except for their usage time. Based on the results of the magnetic property tests, an electromagnetic field analysis is performed on the old and new generators, and analysis results are compared in order to confirm the effects of material deformation on the electromagnetic characteristics of BL-WFSG. Then, a thermal analysis is performed on the old and new generators using losses calculated by electromagnetic field analysis as heat sources, and analysis results are compared in order to confirm the effects of material deformation on the thermal characteristics of BL-WFSG. Finally, an additional electromagnetic analysis is performed on both the old and new generators, using the exact winding resistances that were calculated in the thermal analysis for each respective generator in order to calculate and compare the efficiency of the old and new generators. Through this process, the authors confirmed the effects of material deformation of the rotor and stator cores due to aging on the electromagnetic and thermal characteristics of the BL-WFSG.

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Section: Thermal Analysismentioning

confidence: 99%