Preview

Альтернативная энергетика и экология (ISJAEE)

Расширенный поиск
Доступ открыт Открытый доступ  Доступ закрыт Доступ платный или только для Подписчиков

A method for design of the optimal structure of autonomous distributed hybrid energy complexes, and regulation of the energy balance therein

https://doi.org/10.15518/isjaee.2020.09.004

Полный текст:

Аннотация

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.

Об авторах

С. М. Асанова
Кыргызский государственный технический университет им. И. Раззакова 
Кыргызстан

Асанова Салима Муратовна -  канд. техн. наук, доцент, зам. заведующего кафедрой «Теоретические основы электротехники и общей электротехники» 



С. Е. Кокин
УрФУ имени первого Президента России Б. Н. Ельцина 
Россия

Кокин Сергей Евгеньевич - доктор тех. наук, профессор кафедры «Автоматизированных электрических систем» 



С. А. Дмитриев
УрФУ имени первого Президента России Б. Н. Ельцина 
Россия

Дмитриев Степан Александрович - канд. техн. наук, доцент кафедры «Автоматизированных электрических систем» 



М. Х. Сафаралиев
УрФУ имени первого Президента России Б. Н. Ельцина 
Россия

Сафаралиев Муродбек Холназарович - аспирант кафедры «Автоматизированных электрических систем»



аль Хакам Арфан
Кыргызский государственный технический университет им. И. Раззакова 
Кыргызстан

Арфан аль Хакам - канд. тех. наук, доцент кафедры «Теоретические основы электротехники и общей электротехники» 



Т. Ж. Жабудаев
Кыргызский государственный технический университет им. И. Раззакова 
Кыргызстан

Жабудаев Турукмен Жусупбекович - канд. тех. наук, доцент, заведующий кафедрой «Возобновляемые источники энергии» 



Т. К. Сатаркулов
ОсОО "Нур Ал Энерго" 
Кыргызстан

Сатаркулов Тимур Калмурзаевич -  главный инженер



Список литературы

1. Began and R. Billinton, "Evaluation of different operation strategies in small stand-alone power systems", IEEE Trans. Energy Conversion, vol. 20, pp. 654-660, Sep. 2005.

2. T. Senjyu, T. Nakaji, K. Uezato, and T. Funabashi, "A hybrid power system using alternative energy facilities in isolated island", IEEE Trans. Energy Convers, vol. 20, no. 2, pp. 406-414, Jun. 2005.

3. D.B. Nelson, M.H. Nehrir, and C. Wang, "Unit Sizing of Stand-Alone Hybrid ind/Pv/Fuel Cell Power Generation Systems", IEEE Power Engineering Society General Meeting, vol. 3, pp. 2115-2122, 2005.

4. Neha Adhikari, Bhim Singh, A.L. Vyas, Ambrish Chandra, and Kamal-Al-Haddad, "Analysis design and control of a standalone hybrid renewable energy conversion system", Power Electronics for Distributed Generation Systems (PEDG) 2013 4th IEEE International Symposium on, pp. 1-8, 2013.

5. Prince Sharma and Sathans, "Performance analysis of a stand-alone hybrid renewable energy power system- a simulation study", India Conference (INDICON) 2015 Annual IEEE, pp. 1-6, 2015.

6. Jidong Wang and Fan Yang, "Optimal capacity allocation of standalone wind/solar/battery hybrid power system based on improved particle swarm optimisation algorithm", Renewable Power Generation IET, vol. 7, no. 5, pp. 443-448, 2013.

7. A. Testa, S. De Caro, and T. Scimone, "Optimal structure selection for small-size hybrid renewable energy plants", Power Electronics and Applications (EPE 2011) Proceedings of the 2011-14th European Conference on, pp. 1-10, 2011.

8. Shang Liqun, Li Pengwei, and Zhu Weiwei, "Capacity Optimization of Hybrid Energy Storage in Wind/PV Complementary Power Generation System Based on Improved Particle Swarm Optimization", Electricity Distribution (CICED) 2018 China International Conference on, pp. 2295-2300, 2018.

9. R.A. Dajchman, "Developing of autonomic energy supply", Scientific Bulletin of Privolzhsky, vol. 58, no. 6, pp. UDK 620.98, 2016.

10. P.Y. Lim and C.V. Nayar, "Control of photovoltaic-variable speed diesel generator battery-less hybrid energy system", Energy Conference and Exhibition extended abstracts and papers, pp. 223-227, December 2010.

11. B. Wichert, "PV-Diesel hybrid energy systems for remote area power generation", Renewable and Sustainable Energy Reviews, vol. 1, no. 3, pp. 209-228, 1997.

12. Yu. Lyukaitis and S.Yu. Glushkov S.Y, “Autonomous power complexes, hybrid structures with the use of renewable energy sources”, Power and energy equipment. Autonomous systems, vol. 2, no. 2, pp. 111- 120, 2019.

13. V.I. Vel'kin, Methodology for calculating complex RES systems for use at autonomous facilities. - Yekaterinburg: UrFU, 2015, 226 p.

14. O.S. Popel, “Renewable energy sources: role and place in modern and promising energy”, Ros. Chem.zh., vol. 6, pp. 95-105, 2008.

15. V.A. Barinova and T.A. Lanshina, “Features of the development of renewable energy sources in Russia and in the world”, Russian Journal of Entrepreneurship, vol.17, no. 2, pp. 259-270, 2016.

16. A.B. Bakasova, G.N. Niyazova, T.K. Satarkulov, Ch.M. Buzurmankulova, and Ch.K. Dyusheeva, “The use of MatLab and Labview environments to demonstrate the dynamic behavior of a new type of hydraulic unit”, Problems of automation and control: scientific and technical. zhurn. NAS KR, Bishkek, vol.1, pp. 30-39, 2019.

17. Sh.A. Akchalov, R.R. Ryskulov, and Sh.K. Tolukbaev, “Dynamic characteristics of a wind turbine operating at low wind speeds”, Problems of automation and control: scientific-technical. zhurn. NAS KR, Bishkek, vol. 2, pp. 90-95, 2015.

18. M.S. Asanov, S.M. Asanova, and K.A. Satarkulov, “Structural model of Petri computational networks”, Izvestia KSTU, Bishkek, vol. 13, pp. 78-85, 2008.

19. M.S. Asanov, S.M. Asanova, and K.A. Satarkulov, “Computing components, description language and rules for the functioning of Petri computer networks”, Izvestiya KSTU, Bishkek, vol. 13, pp. 85-95, 2008.

20. V.E. Kotov, Petri nets. - Moscow: Nauka, Main edition of physical and mathematical literature, 160 p, 1984.

21. J. Peterson, Theory of Petri nets and system modeling: Per. from English. - Moscow: Mir, 1984, 264 p.

22. https://seiger.pp.ua/zavisimost-skorosti-vetraot-vysoty-i-mestnosti/ (date of access: 05.12.2019).

23. C.A. Paulson, “The mathematical representation of wind speed and temperature profiles in the unstable atmospheric surface layer”, J. Appl. Meteorol. Vol. 9, pp. 857–861, 1970.

24. http://vetrodvig.ru/moshhnost-vetrogeneratoravetrovojj-turbiny-raschet-otnositelno-skorosti-vetra/ (date of access: 05.12.2019).


Для цитирования:


Асанова С.М., Кокин С.Е., Дмитриев С.А., Сафаралиев М.Х., Арфан а., Жабудаев Т.Ж., Сатаркулов Т.К. A method for design of the optimal structure of autonomous distributed hybrid energy complexes, and regulation of the energy balance therein. Альтернативная энергетика и экология (ISJAEE). 2020;(25-27):42-51. https://doi.org/10.15518/isjaee.2020.09.004

For citation:


Asanova S.M., Kokin S.E., Dmitriev S.A., Safaraliev M.K., Arfan K., Zhabudaev T.Z., Satarkulov Т.K. A method for design of the optimal structure of autonomous distributed hybrid energy complexes, and regulation of the energy balance therein. Alternative Energy and Ecology (ISJAEE). 2020;(25-27):42-51. https://doi.org/10.15518/isjaee.2020.09.004

Просмотров: 33


ISSN 1608-8298 (Print)