DOI: https://doi.org/10.32515/2664-262X.2022.6(37).1.37-44
Increasing the Safety Margin of Threaded Connections Operating Under Variable Loads
About the Authors
Artem Sachenko, post-graduate, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: artem.sachenko.97@gmail.com, ORCID ID: 0000-0001-8274-190X
Sergii Plieshkov, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: sergploff@gmail.com, ORCID ID: 0000-0002-3120-5397
Petro Plieshkov, Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: kafedra.etsem@gmail.com, ORCID ID: 0000-0003-2141-4811
Vasyl Zinzura, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: vasiliyzinzura@gmail.com, ORCID ID: 0000-0001-6357-064X
Abstract
The article is devoted to improving the system of automatic control of modes of distribution electric networks containing solar power plants in order to achieve a simultaneous reduction of steady-state voltage deviations, voltage asymmetry at the terminals of consumers while maximizing the level of electricity generation by solar power plants.
Ensuring normal permissible levels of electricity quality indicators in distribution networks is one of the most pressing issues that arise in the design and operation of modern distribution networks. Deterioration of the quality of electricity in electrical networks leads to the appearance of such negative phenomena, increase in additional losses in the elements of the electrical network, reduce the service life of electrical equipment, reduce the productivity of production equipment and others. The most significant negative impact on the functioning of the elements of electrical distribution networks, including electricity consumers, is observed with increasing levels of steady-state deviation and voltage asymmetry above the normative values. Modern solar inverters allow you to control the level of steady voltage deviation at the point of their connection to the mains. The design features of the construction of inverters of solar power plants allow them to change (within certain limits) not only the level of steady-state voltage deviation, but also to affect the level of voltage asymmetry and the parameters of the reactive power mode.
In view of this, the task of improving automatic control systems for the distribution of electric networks with solar power plants, the implementation of which will take into account the multifunctional influence of solar inverters on the parameters of these networks is quite relevant.
For the research, a fragment of a typical distribution electrical network with a nominal voltage of 10 kV was used, which contains a solar power plant that connects directly to the 10 kV busbars.
The authors of the article set the problem of controlling the parameters of the mode of distribution electric network with solar power plants in the form of the problem of multicriteria optimization. An approach to solving this problem is also proposed, which is based on the method of solving problems of multicriteria optimization by approaching the utopian point in the space of criteria.
Approximate calculations are carried out, which confirm the possibility of applying the proposed approach to the construction of systems for automatic control of the parameters of the mode of distribution electrical networks with solar power plants
Keywords
solar power plants, multi-criteria optimization, indicators of the quality of electrical energy
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References
1. Soldatenko, V.P., & Plieshkov, S.P. (2017). Avtomatychne keruvannya rezhymamy roboty kombinovanoyi elektroenerhetychnoyi systemy z vidnovlyuvanymy dzherelamy enerhiyi [Automatic control of the operation modes of the combined electric power system with renewable energy sources] . Visnyk Natsionalʹnoho tekhnichnoho universytetu «KHPI». Zbirnyk naukovykh pratsʹ. Seriya: Problemy udoskonalennya elektrychnykh mashyn i aparativ – Bulletin of NTU "KhPI" – Series: Problems of Electrical Machines and Apparatus Perfection. Kharkov : NTU "KhPI. Vol. 34. 66-70 [in Ukrainian].
2. Zminy vstanovlenoyi potuzhnosti OES Ukrayiny [Changes in the installed capacity of the United Energy System of Ukraine] Retrieved from https://ua.energy/zagalni-novyny/u-2020-rotsi-vstanovlena-potuzhnist-ves-ta-ses-zrosla-na-41-a-yihnya-chastka-u-strukturi-vyrobnytstva-elektroenergiyi-vdvichi/ [in Ukrainian]
3. Lezhnyuk, P.D., Komar V.O., Kravchuk S.V., & Bandura I.O. (2019). Fotoelektrychni stantsiyi yak zasib rehulyuvannya peretokiv reaktyvnoyi potuzhnosti v elektrychniy systemi [Photovoltaic stations as a means of regulating the flow of reactive power in the electrical system]. Naukovi notatky : mizhvuz. zb. (za haluzyamy znanʹ "Tekhnichni nauky") – Scientific notes: interuniversity. coll. (by fields of knowledge "Technical Sciences"). Vol. 65. 137-141. Retrieved from http://nbuv.gov.ua/UJRN/Nn_2019_65_22 [in Ukrainian]
4. WAN Qian, Xia Chengjun, Azeddine Houari, Zhao Xue1, Xia Chengjun, Zheng Xiaotian and Huang Chuyin (2020). The Reactive Power Support Strategy based on Dual-loop Control for Three-phase Grid-connected Inverter. 10th International Conference on Power, Energy and Electrical Engineering (CPEEE 2020), Volume 182. DOI: https://doi.org/10.1051/e3sconf/202018202011 [in English]
5. Bahri, H., Aboulfatah, M., Guisser, M., Abdelmounim, E., & El Malah, M. (2018). Sliding mode control of a three phase grid connected photovoltaic system with a nonlinear load. International Review of Automatic Control, 11(6), 293-303. DOI: https://doi.org/10.15866/ireaco.v11i6.11686 [in English]
6. Plyeshkov, P.H., Harasʹova N.YU., & Soldatenko V.P. (2018). Optymalʹne keruvannya rezhymom roboty kombinovanoyi elektroenerhetychnoyi systemy z vidnovlyuvanymy dzherelamy enerhiyi [Optimal control of the mode of operation of the combined electric power system with renewable energy sources]. Visnyk Natsionalʹnoho tekhnichnoho universytetu "KHPI". Ser. : Problemy udoskonalyuvannya elektrychnykh mashyn i aparativ. Teoriya i praktyka – Bulletin of the National Technical University "KhPI". Ser.: Problems of improving electrical machines and devices. Theory and practice. Kharkov : NTU "KhPI. Vol. 32. 64-70. DOI: https://doi.org/10.20998/2079-3944.2018.32.12 [in Ukrainian].
Citations
- Солдатенко В.П., Плєшков С.П. Автоматичне керування режимами роботи комбінованої електроенергетичної системи з відновлюваними джерелами енергії. Вісник Національного технічного університету «ХПІ». Збірник наукових праць. Серія: Проблеми удосконалення електричних машин і апаратів. Харків : НТУ "ХПІ", 2017. № 34 (1256). С. 66-70.
- Зміни встановленої потужності ОЕС України. URL: https://ua.energy/zagalni-novyny/u-2020-rotsi-vstanovlena-potuzhnist-ves-ta-ses-zrosla-na-41-a-yihnya-chastka-u-strukturi-vyrobnytstva-elektroenergiyi-vdvichi/ (дата звернення: 19.01.2022).
- Лежнюк П.Д., Комар В.О., Кравчук С.В., Бандура І.О. Фотоелектричні станції як засіб регулювання перетоків реактивної потужності в електричній системі. Наукові нотатки : міжвуз. зб. (за галузями знань "Технічні науки"). 2019. Вип. 65. С. 137-141. URL: http://nbuv.gov.ua/UJRN/Nn_2019_65_22 (дата звернення: 19.01.2022).
- WAN Qian, Xia Chengjun, Azeddine Houari, Zhao Xue1, Xia Chengjun, Zheng Xiaotian and Huang Chuyin (2020). The Reactive Power Support Strategy based on Dual-loop Control for Three-phase Grid-connected Inverter. 10th International Conference on Power, Energy and Electrical Engineering (CPEEE 2020), Volume 182. DOI: https://doi.org/10.1051/e3sconf/202018202011
- Bahri, H., Aboulfatah, M., Guisser, M., Abdelmounim, E., & El Malah, M. (2018). Sliding mode control of a three phase grid connected photovoltaic system with a nonlinear load. International Review of Automatic Control, 11(6), 293-303. DOI: https://doi.org/10.15866/ireaco.v11i6.11686
- Плєшков П. Г., Гарасьова Н.Ю., Солдатенко В.П. Оптимальне керування режимом роботи комбінованої електроенергетичної системи з відновлюваними джерелами енергії. Вісник Національного технічного університету "ХПІ". Сер.: Проблеми удосконалювання електричних машин і апаратів. Теорія і практика: зб. наук. пр. Харків : НТУ "ХПІ". 2018. № 32 (1308). С. 64-70. DOI: https://doi.org/10.20998/2079-3944.2018.32.12
Copyright (c) 2022 Artem Sachenko, Sergii Plieshkov, Petro Plieshkov, Vasyl Zinzura
Increasing the Safety Margin of Threaded Connections Operating Under Variable Loads
About the Authors
Artem Sachenko, post-graduate, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: artem.sachenko.97@gmail.com, ORCID ID: 0000-0001-8274-190X
Sergii Plieshkov, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: sergploff@gmail.com, ORCID ID: 0000-0002-3120-5397
Petro Plieshkov, Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: kafedra.etsem@gmail.com, ORCID ID: 0000-0003-2141-4811
Vasyl Zinzura, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: vasiliyzinzura@gmail.com, ORCID ID: 0000-0001-6357-064X
Abstract
Keywords
Full Text:
PDFReferences
1. Soldatenko, V.P., & Plieshkov, S.P. (2017). Avtomatychne keruvannya rezhymamy roboty kombinovanoyi elektroenerhetychnoyi systemy z vidnovlyuvanymy dzherelamy enerhiyi [Automatic control of the operation modes of the combined electric power system with renewable energy sources] . Visnyk Natsionalʹnoho tekhnichnoho universytetu «KHPI». Zbirnyk naukovykh pratsʹ. Seriya: Problemy udoskonalennya elektrychnykh mashyn i aparativ – Bulletin of NTU "KhPI" – Series: Problems of Electrical Machines and Apparatus Perfection. Kharkov : NTU "KhPI. Vol. 34. 66-70 [in Ukrainian].
2. Zminy vstanovlenoyi potuzhnosti OES Ukrayiny [Changes in the installed capacity of the United Energy System of Ukraine] Retrieved from https://ua.energy/zagalni-novyny/u-2020-rotsi-vstanovlena-potuzhnist-ves-ta-ses-zrosla-na-41-a-yihnya-chastka-u-strukturi-vyrobnytstva-elektroenergiyi-vdvichi/ [in Ukrainian]
3. Lezhnyuk, P.D., Komar V.O., Kravchuk S.V., & Bandura I.O. (2019). Fotoelektrychni stantsiyi yak zasib rehulyuvannya peretokiv reaktyvnoyi potuzhnosti v elektrychniy systemi [Photovoltaic stations as a means of regulating the flow of reactive power in the electrical system]. Naukovi notatky : mizhvuz. zb. (za haluzyamy znanʹ "Tekhnichni nauky") – Scientific notes: interuniversity. coll. (by fields of knowledge "Technical Sciences"). Vol. 65. 137-141. Retrieved from http://nbuv.gov.ua/UJRN/Nn_2019_65_22 [in Ukrainian]
4. WAN Qian, Xia Chengjun, Azeddine Houari, Zhao Xue1, Xia Chengjun, Zheng Xiaotian and Huang Chuyin (2020). The Reactive Power Support Strategy based on Dual-loop Control for Three-phase Grid-connected Inverter. 10th International Conference on Power, Energy and Electrical Engineering (CPEEE 2020), Volume 182. DOI: https://doi.org/10.1051/e3sconf/202018202011 [in English]
5. Bahri, H., Aboulfatah, M., Guisser, M., Abdelmounim, E., & El Malah, M. (2018). Sliding mode control of a three phase grid connected photovoltaic system with a nonlinear load. International Review of Automatic Control, 11(6), 293-303. DOI: https://doi.org/10.15866/ireaco.v11i6.11686 [in English]
6. Plyeshkov, P.H., Harasʹova N.YU., & Soldatenko V.P. (2018). Optymalʹne keruvannya rezhymom roboty kombinovanoyi elektroenerhetychnoyi systemy z vidnovlyuvanymy dzherelamy enerhiyi [Optimal control of the mode of operation of the combined electric power system with renewable energy sources]. Visnyk Natsionalʹnoho tekhnichnoho universytetu "KHPI". Ser. : Problemy udoskonalyuvannya elektrychnykh mashyn i aparativ. Teoriya i praktyka – Bulletin of the National Technical University "KhPI". Ser.: Problems of improving electrical machines and devices. Theory and practice. Kharkov : NTU "KhPI. Vol. 32. 64-70. DOI: https://doi.org/10.20998/2079-3944.2018.32.12 [in Ukrainian].
Citations
- Солдатенко В.П., Плєшков С.П. Автоматичне керування режимами роботи комбінованої електроенергетичної системи з відновлюваними джерелами енергії. Вісник Національного технічного університету «ХПІ». Збірник наукових праць. Серія: Проблеми удосконалення електричних машин і апаратів. Харків : НТУ "ХПІ", 2017. № 34 (1256). С. 66-70.
- Зміни встановленої потужності ОЕС України. URL: https://ua.energy/zagalni-novyny/u-2020-rotsi-vstanovlena-potuzhnist-ves-ta-ses-zrosla-na-41-a-yihnya-chastka-u-strukturi-vyrobnytstva-elektroenergiyi-vdvichi/ (дата звернення: 19.01.2022).
- Лежнюк П.Д., Комар В.О., Кравчук С.В., Бандура І.О. Фотоелектричні станції як засіб регулювання перетоків реактивної потужності в електричній системі. Наукові нотатки : міжвуз. зб. (за галузями знань "Технічні науки"). 2019. Вип. 65. С. 137-141. URL: http://nbuv.gov.ua/UJRN/Nn_2019_65_22 (дата звернення: 19.01.2022).
- WAN Qian, Xia Chengjun, Azeddine Houari, Zhao Xue1, Xia Chengjun, Zheng Xiaotian and Huang Chuyin (2020). The Reactive Power Support Strategy based on Dual-loop Control for Three-phase Grid-connected Inverter. 10th International Conference on Power, Energy and Electrical Engineering (CPEEE 2020), Volume 182. DOI: https://doi.org/10.1051/e3sconf/202018202011
- Bahri, H., Aboulfatah, M., Guisser, M., Abdelmounim, E., & El Malah, M. (2018). Sliding mode control of a three phase grid connected photovoltaic system with a nonlinear load. International Review of Automatic Control, 11(6), 293-303. DOI: https://doi.org/10.15866/ireaco.v11i6.11686
- Плєшков П. Г., Гарасьова Н.Ю., Солдатенко В.П. Оптимальне керування режимом роботи комбінованої електроенергетичної системи з відновлюваними джерелами енергії. Вісник Національного технічного університету "ХПІ". Сер.: Проблеми удосконалювання електричних машин і апаратів. Теорія і практика: зб. наук. пр. Харків : НТУ "ХПІ". 2018. № 32 (1308). С. 64-70. DOI: https://doi.org/10.20998/2079-3944.2018.32.12