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ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION. / Patel, I.K.; Aslanov, V.S.

ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020): Сборник трудов по материалам VI Международной конференции и молодежной школы. В 4-х томах. ed. / В.А. Соболев; Д.В. Кудряшов. Vol. 3 Самара : Самарский национальный исследовательский университет имени академика С.П. Королева, 2020. p. 42-52.

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Patel, IK & Aslanov, VS 2020, ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION. in ВА Соболев & ДВ Кудряшов (eds), ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020): Сборник трудов по материалам VI Международной конференции и молодежной школы. В 4-х томах. vol. 3, Самарский национальный исследовательский университет имени академика С.П. Королева, Самара, pp. 42-52, ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020), Самара, Russian Federation, 26/05/20.

APA

Patel, I. K., & Aslanov, V. S. (2020). ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION. In В. А. Соболев, & Д. В. Кудряшов (Eds.), ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020): Сборник трудов по материалам VI Международной конференции и молодежной школы. В 4-х томах (Vol. 3, pp. 42-52). Самарский национальный исследовательский университет имени академика С.П. Королева.

Vancouver

Patel IK, Aslanov VS. ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION. In Соболев ВА, Кудряшов ДВ, editors, ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020): Сборник трудов по материалам VI Международной конференции и молодежной школы. В 4-х томах. Vol. 3. Самара: Самарский национальный исследовательский университет имени академика С.П. Королева. 2020. p. 42-52

Author

Patel, I.K. ; Aslanov, V.S. / ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION. ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020): Сборник трудов по материалам VI Международной конференции и молодежной школы. В 4-х томах. editor / В.А. Соболев ; Д.В. Кудряшов. Vol. 3 Самара : Самарский национальный исследовательский университет имени академика С.П. Королева, 2020. pp. 42-52

BibTeX

@inproceedings{c322cddacd024f9bae14887591a8dd32,
title = "ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION",
abstract = "The present study discusses the technique for active space debris removal using electromagnetically induced force in electrically conductive materials. The force in action is called Lorentz force which acts on an electrically conductive material when it is moving through uniform or non-uniform magnetic field distribution. The basic principle of this idea is in accordance to Faraday's law of induction and Lenz's law. In this paper, focus is on developing a method to capture or accelerate/decelerate the electrically conductive debris with the goal of transferring it to a separate orbit such as, graveyard orbit. For the current idea, a hypothetical toroidal coil is assumed to generate sufficiently strong magnetic field when applied electrical current, which is realized on the debris in motion. Orbital dynamics of the debris is studied incorporating the proposed method and results are drawn. The applicability of the idea is discussed and, areas of improvement and further study are recognized.",
keywords = "Space debris removal, Low-thrust transfer orbit, Feedback control law, Electromagnetic induction, Contactless method, Lorentz force",
author = "I.K. Patel and V.S. Aslanov",
year = "2020",
month = sep,
language = "English",
isbn = "9785788315133",
volume = "3",
pages = "42--52",
editor = "В.А. Соболев and Д.В. Кудряшов",
booktitle = "ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020)",
publisher = "Самарский национальный исследовательский университет имени академика С.П. Королева",
address = "Russian Federation",
note = "ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020), ИТНТ-2020 ; Conference date: 26-05-2020 Through 29-05-2020",

}

RIS

TY - GEN

T1 - ACTIVE DEBRIS REMOVAL USING ELECTROMAGNETIC INDUCTION

AU - Patel, I.K.

AU - Aslanov, V.S.

PY - 2020/9

Y1 - 2020/9

N2 - The present study discusses the technique for active space debris removal using electromagnetically induced force in electrically conductive materials. The force in action is called Lorentz force which acts on an electrically conductive material when it is moving through uniform or non-uniform magnetic field distribution. The basic principle of this idea is in accordance to Faraday's law of induction and Lenz's law. In this paper, focus is on developing a method to capture or accelerate/decelerate the electrically conductive debris with the goal of transferring it to a separate orbit such as, graveyard orbit. For the current idea, a hypothetical toroidal coil is assumed to generate sufficiently strong magnetic field when applied electrical current, which is realized on the debris in motion. Orbital dynamics of the debris is studied incorporating the proposed method and results are drawn. The applicability of the idea is discussed and, areas of improvement and further study are recognized.

AB - The present study discusses the technique for active space debris removal using electromagnetically induced force in electrically conductive materials. The force in action is called Lorentz force which acts on an electrically conductive material when it is moving through uniform or non-uniform magnetic field distribution. The basic principle of this idea is in accordance to Faraday's law of induction and Lenz's law. In this paper, focus is on developing a method to capture or accelerate/decelerate the electrically conductive debris with the goal of transferring it to a separate orbit such as, graveyard orbit. For the current idea, a hypothetical toroidal coil is assumed to generate sufficiently strong magnetic field when applied electrical current, which is realized on the debris in motion. Orbital dynamics of the debris is studied incorporating the proposed method and results are drawn. The applicability of the idea is discussed and, areas of improvement and further study are recognized.

KW - Space debris removal

KW - Low-thrust transfer orbit

KW - Feedback control law

KW - Electromagnetic induction

KW - Contactless method

KW - Lorentz force

UR - https://elibrary.ru/item.asp?id=43818366

M3 - Conference contribution

SN - 9785788315133

VL - 3

SP - 42

EP - 52

BT - ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020)

A2 - Соболев, В.А.

A2 - Кудряшов, Д.В.

PB - Самарский национальный исследовательский университет имени академика С.П. Королева

CY - Самара

T2 - ИНФОРМАЦИОННЫЕ ТЕХНОЛОГИИ И НАНОТЕХНОЛОГИИ (ИТНТ-2020)

Y2 - 26 May 2020 through 29 May 2020

ER -

ID: 62141764