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A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN. / Asanova, Salima M.; Kokin, S. E.; Dmitriev, S. A. et al.
In: Международный научный журнал "Альтернативная энергетика и экология", No. 25-27 (347-349), 2020, p. 42-51.

Research output: Contribution to journalArticlepeer-review

Harvard

Asanova, SM, Kokin, SE, Dmitriev, SA, Safaraliev, MK, Arfan, K, Zhabudaev, TZ & Satarkulov, K 2020, 'A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN', Международный научный журнал "Альтернативная энергетика и экология", no. 25-27 (347-349), pp. 42-51. https://doi.org/10.15518/isjaee.2020.09.004

APA

Asanova, S. M., Kokin, S. E., Dmitriev, S. A., Safaraliev, M. K., Arfan, K., Zhabudaev, T. Z., & Satarkulov, K. (2020). A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN. Международный научный журнал "Альтернативная энергетика и экология", (25-27 (347-349)), 42-51. https://doi.org/10.15518/isjaee.2020.09.004

Vancouver

Asanova SM, Kokin SE, Dmitriev SA, Safaraliev MK, Arfan K, Zhabudaev TZ et al. A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN. Международный научный журнал "Альтернативная энергетика и экология". 2020;(25-27 (347-349)):42-51. doi: 10.15518/isjaee.2020.09.004

Author

Asanova, Salima M. ; Kokin, S. E. ; Dmitriev, S. A. et al. / A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN. In: Международный научный журнал "Альтернативная энергетика и экология". 2020 ; No. 25-27 (347-349). pp. 42-51.

BibTeX

@article{4c35a11d60fa4ddebe07517aba526313,
title = "A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN",
abstract = "The paper offers a method for developing a universal system of automated design of an optimal structure of autonomous distributed hybrid energy complexes (ADHEC) and a means of regulation of the energy balance therein, i.e. control of the power flows circulating in the said system. In general, the design of the optimal structure of ADHEC includes the following stages (subtasks): data research and creation of a statistical database of electric loads of consumers, of the wind speed in the region under consideration, of the hydroelectric potential of mountain and lowland rivers, and of the solar energy, as well as research and development of a database of converters of wind and water energy into electrical energy. The paper dwells on the task of designing the optimal structure of the distributed hybrid generation system that will ensure the desired level of power generation at a minimal cost and with necessary functional reliability.",
author = "Asanova, {Salima M.} and Kokin, {S. E.} and Dmitriev, {S. A.} and Safaraliev, {M. Kh.} and Kh. Arfan and Zhabudaev, {T. Zh.} and Kalmurza Satarkulov",
year = "2020",
doi = "10.15518/isjaee.2020.09.004",
language = "English",
pages = "42--51",
journal = "Международный научный журнал {"}Альтернативная энергетика и экология{"}",
issn = "1608-8298",
publisher = "Общество с ограниченной ответственностью {"}Научно-технический центр ТАТА{"}",
number = "25-27 (347-349)",

}

RIS

TY - JOUR

T1 - A METHOD FOR DESIGN OF THE OPTIMAL STRUCTURE OF AUTONOMOUS DISTRIBUTED HYBRID ENERGY COMPLEXES, AND REGULATION OF THE ENERGY BALANCE THEREIN

AU - Asanova, Salima M.

AU - Kokin, S. E.

AU - Dmitriev, S. A.

AU - Safaraliev, M. Kh.

AU - Arfan, Kh.

AU - Zhabudaev, T. Zh.

AU - Satarkulov, Kalmurza

PY - 2020

Y1 - 2020

N2 - The paper offers a method for developing a universal system of automated design of an optimal structure of autonomous distributed hybrid energy complexes (ADHEC) and a means of regulation of the energy balance therein, i.e. control of the power flows circulating in the said system. In general, the design of the optimal structure of ADHEC includes the following stages (subtasks): data research and creation of a statistical database of electric loads of consumers, of the wind speed in the region under consideration, of the hydroelectric potential of mountain and lowland rivers, and of the solar energy, as well as research and development of a database of converters of wind and water energy into electrical energy. The paper dwells on the task of designing the optimal structure of the distributed hybrid generation system that will ensure the desired level of power generation at a minimal cost and with necessary functional reliability.

AB - The paper offers a method for developing a universal system of automated design of an optimal structure of autonomous distributed hybrid energy complexes (ADHEC) and a means of regulation of the energy balance therein, i.e. control of the power flows circulating in the said system. In general, the design of the optimal structure of ADHEC includes the following stages (subtasks): data research and creation of a statistical database of electric loads of consumers, of the wind speed in the region under consideration, of the hydroelectric potential of mountain and lowland rivers, and of the solar energy, as well as research and development of a database of converters of wind and water energy into electrical energy. The paper dwells on the task of designing the optimal structure of the distributed hybrid generation system that will ensure the desired level of power generation at a minimal cost and with necessary functional reliability.

UR - https://elibrary.ru/item.asp?id=45785114

U2 - 10.15518/isjaee.2020.09.004

DO - 10.15518/isjaee.2020.09.004

M3 - Article

SP - 42

EP - 51

JO - Международный научный журнал "Альтернативная энергетика и экология"

JF - Международный научный журнал "Альтернативная энергетика и экология"

SN - 1608-8298

IS - 25-27 (347-349)

ER -

ID: 21894511