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Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors

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Zeitschriftentitel: MATEC Web of Conferences
Personen und Körperschaften: Nikitenko, Anatolii
In: MATEC Web of Conferences, 180, 2018, S. 02007
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
EDP Sciences
Schlagwörter:
General Medicine
author_facet Nikitenko, Anatolii
Nikitenko, Anatolii
author Nikitenko, Anatolii
spellingShingle Nikitenko, Anatolii
MATEC Web of Conferences
Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
General Medicine
author_sort nikitenko, anatolii
spelling Nikitenko, Anatolii 2261-236X EDP Sciences General Medicine http://dx.doi.org/10.1051/matecconf/201818002007 <jats:p>The paper is dedicated to the task of improving of regenerative braking of a DC train with the series-wound DC traction motors. It is proposed the schematic solution for the trains with DC motors, which is based on the storing of recovered energy by the on-board supercapacitor storage system and extending the speed range of regenerative braking. The scheme is described by expressions which allowed to build the time dependences of main values. In addition, the experimental researches with the multiple-unit train were performed to find initial data for calculations and verification the results. The transient processes of charging are analyses for different cases of storage capacitances, residual voltages and initial speed of braking. It was proved, that the scheme allows to increase the value of recovered energy up to 40%, but its value strongly depends on the initial conditions and parameters of the system.</jats:p> Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors MATEC Web of Conferences
doi_str_mv 10.1051/matecconf/201818002007
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series MATEC Web of Conferences
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title Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_unstemmed Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_full Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_fullStr Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_full_unstemmed Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_short Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_sort electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of dc electric rolling stock with series-wound dc motors
topic General Medicine
url http://dx.doi.org/10.1051/matecconf/201818002007
publishDate 2018
physical 02007
description <jats:p>The paper is dedicated to the task of improving of regenerative braking of a DC train with the series-wound DC traction motors. It is proposed the schematic solution for the trains with DC motors, which is based on the storing of recovered energy by the on-board supercapacitor storage system and extending the speed range of regenerative braking. The scheme is described by expressions which allowed to build the time dependences of main values. In addition, the experimental researches with the multiple-unit train were performed to find initial data for calculations and verification the results. The transient processes of charging are analyses for different cases of storage capacitances, residual voltages and initial speed of braking. It was proved, that the scheme allows to increase the value of recovered energy up to 40%, but its value strongly depends on the initial conditions and parameters of the system.</jats:p>
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author Nikitenko, Anatolii
author_facet Nikitenko, Anatolii, Nikitenko, Anatolii
author_sort nikitenko, anatolii
container_start_page 0
container_title MATEC Web of Conferences
container_volume 180
description <jats:p>The paper is dedicated to the task of improving of regenerative braking of a DC train with the series-wound DC traction motors. It is proposed the schematic solution for the trains with DC motors, which is based on the storing of recovered energy by the on-board supercapacitor storage system and extending the speed range of regenerative braking. The scheme is described by expressions which allowed to build the time dependences of main values. In addition, the experimental researches with the multiple-unit train were performed to find initial data for calculations and verification the results. The transient processes of charging are analyses for different cases of storage capacitances, residual voltages and initial speed of braking. It was proved, that the scheme allows to increase the value of recovered energy up to 40%, but its value strongly depends on the initial conditions and parameters of the system.</jats:p>
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id ai-49-aHR0cDovL2R4LmRvaS5vcmcvMTAuMTA1MS9tYXRlY2NvbmYvMjAxODE4MDAyMDA3
imprint EDP Sciences, 2018
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match_str nikitenko2018electromagneticprocessesofchargingofonboardsupercapacitorstoragesystemduringtheregenerativebrakingmodeofdcelectricrollingstockwithserieswounddcmotors
mega_collection EDP Sciences (CrossRef)
physical 02007
publishDate 2018
publishDateSort 2018
publisher EDP Sciences
record_format ai
recordtype ai
series MATEC Web of Conferences
source_id 49
spelling Nikitenko, Anatolii 2261-236X EDP Sciences General Medicine http://dx.doi.org/10.1051/matecconf/201818002007 <jats:p>The paper is dedicated to the task of improving of regenerative braking of a DC train with the series-wound DC traction motors. It is proposed the schematic solution for the trains with DC motors, which is based on the storing of recovered energy by the on-board supercapacitor storage system and extending the speed range of regenerative braking. The scheme is described by expressions which allowed to build the time dependences of main values. In addition, the experimental researches with the multiple-unit train were performed to find initial data for calculations and verification the results. The transient processes of charging are analyses for different cases of storage capacitances, residual voltages and initial speed of braking. It was proved, that the scheme allows to increase the value of recovered energy up to 40%, but its value strongly depends on the initial conditions and parameters of the system.</jats:p> Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors MATEC Web of Conferences
spellingShingle Nikitenko, Anatolii, MATEC Web of Conferences, Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors, General Medicine
title Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_full Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_fullStr Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_full_unstemmed Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_short Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
title_sort electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of dc electric rolling stock with series-wound dc motors
title_unstemmed Electromagnetic processes of charging of on-board supercapacitor storage system during the regenerative braking mode of DC electric rolling stock with series-wound DC motors
topic General Medicine
url http://dx.doi.org/10.1051/matecconf/201818002007