Development of 11 kV and 33 kV Electrical Distribution Networks in the Republic of the Union of Myanmar
DOI:
https://doi.org/10.24160/1993-6982-2022-1-11-18Keywords:
load curve, transformer load, power line load, electrical distribution networks, Republic of the Union of MyanmarAbstract
A drastic (by about a factor of three) increase of electricity demand is predicted for the next decade in the Republic of the Union of Myanmar. It is planned to connect all households to the country’s national power grid. These electrical load growth rates will require, first of all, a significant development of the 11 kV and 33 kV electrical distribution networks. The load curves of 33 kV substations are given. The results of the first load measurements in 11 kV electrical distribution networks are presented. Based on the load curves and load measurement results, the loading patterns of 11 kV and 33 kV power lines and 33/11 kV and 11/0.4 kV transformers were analyzed for the studied electrical networks of the Republic of Myanmar Mandalay district. In most cases, the existing load of 33/11 kV and 11/0.4 kV transformers does not exceed 65%, which allows their loading to be doubled without exceeding the permissible systematic overload capacity. The 33 kV lines also have at least a 100% transmission capacity margin. Most of 11 kV lines have no more than 40% capacity margin. The load of some 11 kV lines has reached the maximum level. Based on the obtained analysis results, the development lines of distribution networks in the Republic of the Union of Myanmar have been determined.
References
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19. Anupam Arya, Kalpesh Chauhan, Sunil Verma, Gopal Gajjar. Urban Distribution System Planning in India // Proc. National Power Systems Conf. 2002. Pp. 340—344.
20. Kyryk V.V., Tsyganenko B.V. Modernization of Power Distribution Networks in the Power System of Ukraine // International Scientific and Practical Conference World Science. 2016. V. 1. No. 7(11). Pp. 10—12.
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Для цитирования: Йе Хтут Мьят, Шведов Г.В. Развитие распределительных электрических сетей напряжением 11 и 33 кВ Республики Союз Мьянма // Вестник МЭИ. 2022. № 1. С. 11—18. DOI: 10.24160/1993-6982-2022-1-11-18.
#
1. Ministerstvo Elektrichestva i Energetiki [Ofits. Sayt] www.moee.gov.mm/en/ignite/index (Data Obrashcheniya 28.09.2021).
2. U Han Zaw. Current Status of Myanmar’s Electricity Sector [Elektron. Resurs] www.greatermekong.org/sites/default/files/Attachment%2011.3_Myanmar.pdf (Data Obrashcheniya 28.09.2021).
3. Zaw Naing Thein H. Current Status and Opportunity in Electric Power Sector [Elektron. Resurs] www.afeo.org/wp-content/uploads/2019/03/MES-Current-Status-and-Opportunity-in-Electric-Power-Sector-Myanmar.pdf (Data Obrashcheniya 28.09.2021).
4. Khin Thi Aye. The Role of hydropower in Myanmar. Ministry of electricity and Energy [Elektron. Resurs] www.moee.gov.mm/mm/ignite/page/84/446 (Data Obrashcheniya 28.09.2021).
5. National Energy Management Committee. Myanmar Energy Master Plan [Elektron. Resurs] www.burmalibrary.org/docs22/2015-12-Myanmar_Energy_Master_Plan.pdf (Data Obrashcheniya 28.09.2021).
6. Department of Meteorology and Hydrology (Myanmar) [Ofits. Sayt] www.moezala.gov.mm/current-weather-condition-city162021 (Data Obrashcheniya 28.09.2021).
7. Chernikov V.A., Pribylova N.V., Miklyaev A.E., Chursina M.V., Chernikova V.V. Analiz Grafikov Nagruzki Potrebiteley v Elektricheskikh Setyakh Sel'skokhozyaystvennogo i Promyshlennogo Naznacheniya. Energoeffektivnost' i Energosberezhenie v Sovremennom Proizvodstve i Obshchestve: Materialy Mezhdunar. Nauch.-prakt. Konf. Voronezh: Izd-vo Voronezhskogo Gos. Agrarnogo Un-ta im. Imperatora Petra I, 2018:175—182. (in Russian).
8. Shvedov. G.V. Elektrosnabzhenie Gorodov: Elektropotreblenie, Raschetnye Nagruzki, Raspredelitel'nye Seti. M: Izdat. Dom MEI, 2012. (in Russian).
9. Xuemei Y., Jinliang J. Study on Power Supply of Ring Network of 10 KV Distribution Network. Proc. China Intern. Conf. Electricity Distribution. 2008:1—5.
10. Melodi A.O., Ogunboyo P.T. Power Distribution Problems on 11 kV Feeder Networks in Akure, Nigeria. Proc, 2013 IEEE Intern. Conf. Emerging & Sustainable Technol. for Power & ICT in a Developing Soc. 2013:292—300.
11. Japan International Cooperation Agency (JICA). Final Report of Data Collection Survey on Urban Area Distribution Network Development [Elektron. Resurs] www.jica.go.jp/english/index.html (Data Obrashcheniya 28.09.2021).
12. Beley. V.F., Piechocki J. Povyshenie Effektivnosti Sel'skikh Elektricheskikh Setey Napryazheniyam 0,4—35 kV. Materialy IV Mezhdunar. Baltiyskogo Morskogo Foruma. Kaliningrad: Izd-vo Baltiyskoy Gos. Akademii Rybopromyslovogo Flota, 2016:918—923. (in Russian).
13. Ohn Zin Lin, Okka, Cho Cho Myint. Modified Techniques for Distribution System Reliability Improvement by Parallel Operation of Transformers. Intern. J. Electrical and Computer Eng. 2019;13:394—402.
14. Efremenko V.M., Belyaevskiy R.V. Analiz Vliyaniya Nagruzki Silovykh Transformatorov na Potreblenie Reaktivnoy Moshchnosti. Vestnik Kuzbasskogo Gos. Tekhn. Un-ta. 2009;6(76):46—48. (in Russian).
15. Mironenko Yu.E. Otsenka Effektivnosti Zagruzki Silovykh Transformatorov na Primere Tsentral'nogo Energorayona Amurskoy Oblasti. Nauchnye Issledovaniya. 2017;7:5—8. (in Russian).
16. Jamali S., Amjadi A.A., Shateri H., Ghorbani M. Designing MV Distribution Networks Considering Voltage, Current, and Losses Constraints. Proc. 42nd Intern. Universities Power Engineering Conf. 2007:127—131.
17. Spravochnik po Proektirovaniyu Elektricheskikh Setey. M.: ENAS, 2005. (in Russian).
18. Glazunov A.A., Shvedov G.V. Proektirovanie Rayonnoy Elektricheskoy Seti: Metodicheskie Ukazaniya k Kursovomu Proektirovaniyu. M.: Izdat. Dom MEI, 2010. (in Russian).
19. Anupam Arya, Kalpesh Chauhan, Sunil Verma, Gopal Gajjar. Urban Distribution System Planning in India. Proc. National Power Systems Conf. 2002:340—344.
20. Kyryk V.V., Tsyganenko B.V. Modernization of Power Distribution Networks in the Power System of Ukraine. International Scientific and Practical Conference World Science. 2016;1;7(11):10—12.
---
For citation: Ye Htut Myat, Shvedov G.V. Development of 11 kV and 33 kV Electrical Distribution Networks in the Republic of the Union of Myanmar. Bulletin of MPEI. 2022;1:11—18. (in Russian). DOI: 10.24160/1993-6982-2022-1-11-18.
2. U Han Zaw. Current Status of Myanmar’s Electricity Sector [Электрон. ресурс] www.greatermekong.org/sites/default/files/Attachment%2011.3_Myanmar.pdf (дата обращения 28.09.2021).
3. Zaw Naing Thein H. Current Status and Opportunity in Electric Power Sector [Электрон. ресурс] www.afeo.org/wp-content/uploads/2019/03/MES-Current-Status-and-Opportunity-in-Electric-Power-Sector-Myanmar.pdf (дата обращения 28.09.2021).
4. Khin Thi Aye. The Role of hydropower in Myanmar // Ministry of electricity and Energy [Электрон. ресурс] www.moee.gov.mm/mm/ignite/page/84/446 (дата обращения 28.09.2021).
5. National Energy Management Committee. Myanmar Energy Master Plan [Электрон. ресурс] www.burmalibrary.org/docs22/2015-12-Myanmar_Energy_Master_Plan.pdf (дата обращения 28.09.2021).
6. Department of Meteorology and Hydrology (Myanmar) [Офиц. сайт] www.moezala.gov.mm/current-weather-condition-city162021 (дата обращения 28.09.2021).
7. Черников В.А., Прибылова Н.В., Микляев А.Е., Чурсина М.В., Черникова В.В. Анализ графиков нагрузки потребителей в электрических сетях сельскохозяйственного и промышленного назначения // Энергоэффективность и энергосбережение в современном производстве и обществе: Материалы Междунар. науч.-практ. конф. Воронеж: Изд-во Воронежского гос. аграрного ун-та им. Императора Петра I, 2018. С. 175—182.
8. Шведов. Г.В. Электроснабжение городов: электропотребление, расчетные нагрузки, распределительные сети. М: Издат. дом МЭИ, 2012.
9. Xuemei Y., Jinliang J. Study on Power Supply of Ring Network of 10 KV Distribution Network // Proc. China Intern. Conf. Electricity Distribution. 2008. Pp. 1—5.
10. Melodi A.O., Ogunboyo P.T. Power Distribution Problems on 11 kV Feeder Networks in Akure, Nigeria // Proc, 2013 IEEE Intern. Conf. Emerging & Sustainable Technol. for Power & ICT in a Developing Soc. 2013. Pp. 292—300.
11. Japan International Cooperation Agency (JICA). Final Report of Data Collection Survey on Urban Area Distribution Network Development [Электрон. ресурс] www.jica.go.jp/english/index.html (дата обращения 28.09.2021).
12. Белей. В.Ф., Piechocki J. Повышение эффективности сельских электрических сетей напряжениям 0,4—35 кВ // Материалы IV Междунар. Балтийского морского форума. Калининград: Изд-во Балтийской гос. академии рыбопромыслового флота, 2016. С. 918—923.
13. Ohn Zin Lin, Okka, Cho Cho Myint. Modified Techniques for Distribution System Reliability Improvement by Parallel Operation of Transformers // Intern. J. Electrical and Computer Eng. 2019. V. 13. Pp. 394—402.
14. Ефременко В.М., Беляевский Р.В. Анализ влияния нагрузки силовых трансформаторов на потребление реактивной мощности // Вестник Кузбасского гос. техн. ун-та. 2009. № 6(76). С. 46—48.
15. Мироненко Ю.Е. Оценка эффективности загрузки силовых трансформаторов на примере центрального энергорайона Амурской области // Научные исследования. 2017. № 7. С. 5—8.
16. Jamali S., Amjadi A.A., Shateri H., Ghorbani M. Designing MV Distribution Networks Considering Voltage, Current, and Losses Constraints // Proc. 42nd Intern. Universities Power Engineering Conf. 2007. Pp. 127—131.
17. Справочник по проектированию электрических сетей. М.: ЭНАС, 2005.
18. Глазунов А.А., Шведов Г.В. Проектирование районной электрической сети: методические указания к курсовому проектированию. М.: Издат. дом МЭИ, 2010.
19. Anupam Arya, Kalpesh Chauhan, Sunil Verma, Gopal Gajjar. Urban Distribution System Planning in India // Proc. National Power Systems Conf. 2002. Pp. 340—344.
20. Kyryk V.V., Tsyganenko B.V. Modernization of Power Distribution Networks in the Power System of Ukraine // International Scientific and Practical Conference World Science. 2016. V. 1. No. 7(11). Pp. 10—12.
---
Для цитирования: Йе Хтут Мьят, Шведов Г.В. Развитие распределительных электрических сетей напряжением 11 и 33 кВ Республики Союз Мьянма // Вестник МЭИ. 2022. № 1. С. 11—18. DOI: 10.24160/1993-6982-2022-1-11-18.
#
1. Ministerstvo Elektrichestva i Energetiki [Ofits. Sayt] www.moee.gov.mm/en/ignite/index (Data Obrashcheniya 28.09.2021).
2. U Han Zaw. Current Status of Myanmar’s Electricity Sector [Elektron. Resurs] www.greatermekong.org/sites/default/files/Attachment%2011.3_Myanmar.pdf (Data Obrashcheniya 28.09.2021).
3. Zaw Naing Thein H. Current Status and Opportunity in Electric Power Sector [Elektron. Resurs] www.afeo.org/wp-content/uploads/2019/03/MES-Current-Status-and-Opportunity-in-Electric-Power-Sector-Myanmar.pdf (Data Obrashcheniya 28.09.2021).
4. Khin Thi Aye. The Role of hydropower in Myanmar. Ministry of electricity and Energy [Elektron. Resurs] www.moee.gov.mm/mm/ignite/page/84/446 (Data Obrashcheniya 28.09.2021).
5. National Energy Management Committee. Myanmar Energy Master Plan [Elektron. Resurs] www.burmalibrary.org/docs22/2015-12-Myanmar_Energy_Master_Plan.pdf (Data Obrashcheniya 28.09.2021).
6. Department of Meteorology and Hydrology (Myanmar) [Ofits. Sayt] www.moezala.gov.mm/current-weather-condition-city162021 (Data Obrashcheniya 28.09.2021).
7. Chernikov V.A., Pribylova N.V., Miklyaev A.E., Chursina M.V., Chernikova V.V. Analiz Grafikov Nagruzki Potrebiteley v Elektricheskikh Setyakh Sel'skokhozyaystvennogo i Promyshlennogo Naznacheniya. Energoeffektivnost' i Energosberezhenie v Sovremennom Proizvodstve i Obshchestve: Materialy Mezhdunar. Nauch.-prakt. Konf. Voronezh: Izd-vo Voronezhskogo Gos. Agrarnogo Un-ta im. Imperatora Petra I, 2018:175—182. (in Russian).
8. Shvedov. G.V. Elektrosnabzhenie Gorodov: Elektropotreblenie, Raschetnye Nagruzki, Raspredelitel'nye Seti. M: Izdat. Dom MEI, 2012. (in Russian).
9. Xuemei Y., Jinliang J. Study on Power Supply of Ring Network of 10 KV Distribution Network. Proc. China Intern. Conf. Electricity Distribution. 2008:1—5.
10. Melodi A.O., Ogunboyo P.T. Power Distribution Problems on 11 kV Feeder Networks in Akure, Nigeria. Proc, 2013 IEEE Intern. Conf. Emerging & Sustainable Technol. for Power & ICT in a Developing Soc. 2013:292—300.
11. Japan International Cooperation Agency (JICA). Final Report of Data Collection Survey on Urban Area Distribution Network Development [Elektron. Resurs] www.jica.go.jp/english/index.html (Data Obrashcheniya 28.09.2021).
12. Beley. V.F., Piechocki J. Povyshenie Effektivnosti Sel'skikh Elektricheskikh Setey Napryazheniyam 0,4—35 kV. Materialy IV Mezhdunar. Baltiyskogo Morskogo Foruma. Kaliningrad: Izd-vo Baltiyskoy Gos. Akademii Rybopromyslovogo Flota, 2016:918—923. (in Russian).
13. Ohn Zin Lin, Okka, Cho Cho Myint. Modified Techniques for Distribution System Reliability Improvement by Parallel Operation of Transformers. Intern. J. Electrical and Computer Eng. 2019;13:394—402.
14. Efremenko V.M., Belyaevskiy R.V. Analiz Vliyaniya Nagruzki Silovykh Transformatorov na Potreblenie Reaktivnoy Moshchnosti. Vestnik Kuzbasskogo Gos. Tekhn. Un-ta. 2009;6(76):46—48. (in Russian).
15. Mironenko Yu.E. Otsenka Effektivnosti Zagruzki Silovykh Transformatorov na Primere Tsentral'nogo Energorayona Amurskoy Oblasti. Nauchnye Issledovaniya. 2017;7:5—8. (in Russian).
16. Jamali S., Amjadi A.A., Shateri H., Ghorbani M. Designing MV Distribution Networks Considering Voltage, Current, and Losses Constraints. Proc. 42nd Intern. Universities Power Engineering Conf. 2007:127—131.
17. Spravochnik po Proektirovaniyu Elektricheskikh Setey. M.: ENAS, 2005. (in Russian).
18. Glazunov A.A., Shvedov G.V. Proektirovanie Rayonnoy Elektricheskoy Seti: Metodicheskie Ukazaniya k Kursovomu Proektirovaniyu. M.: Izdat. Dom MEI, 2010. (in Russian).
19. Anupam Arya, Kalpesh Chauhan, Sunil Verma, Gopal Gajjar. Urban Distribution System Planning in India. Proc. National Power Systems Conf. 2002:340—344.
20. Kyryk V.V., Tsyganenko B.V. Modernization of Power Distribution Networks in the Power System of Ukraine. International Scientific and Practical Conference World Science. 2016;1;7(11):10—12.
---
For citation: Ye Htut Myat, Shvedov G.V. Development of 11 kV and 33 kV Electrical Distribution Networks in the Republic of the Union of Myanmar. Bulletin of MPEI. 2022;1:11—18. (in Russian). DOI: 10.24160/1993-6982-2022-1-11-18.
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Published
2021-07-13
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Section
Power Stations and Electric Power Systems (05.14.02)
