|
|
Development of an educational laboratory stand at the base fast-acting automatic reserve input
Назва | Development of an educational laboratory stand at the base fast-acting automatic reserve input |
Назва англійською | Development of an educational laboratory stand at the base fast-acting automatic reserve input |
Автори | Bogdan Orobchuk, Serhii Babiuk, Oleh Buniak, Ivan Sysak, Liubov Kostyk, Myroslav Nakonechniy, Yaroslav Filiuk |
Принадлежність | Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine |
Бібліографічний опис | Development of an educational laboratory stand at the base fast-acting automatic reserve input / Bogdan Orobchuk, Serhii Babiuk, Oleh Buniak, Ivan Sysak, Liubov Kostyk, Myroslav Nakonechniy, Yaroslav Filiuk // Scientific Journal of TNTU. — Tern.: TNTU, 2023. — Vol 112. — No 4. — P. 12–25. |
Bibliographic description: | Orobchuk B., Babiuk S., Buniak O., Sysak I., Kostyk L., Nakonechniy M., Filiuk Ya. (2023). Development of an educational laboratory stand at the base fast-acting automatic reserve input. Scientific Journal of TNTU (Tern.), vol 112, no 4, pp. 12–25. |
DOI: | https://doi.org/10.33108/visnyk_tntu2023.04.012 |
УДК |
621.311.8 |
Ключові слова |
automatic reserve input, automatic control, laboratory stand, load switch, microprocessor control system, software. |
|
Currently, the issue of improving the reliability and quality of power supply is one of the most important directions in the development of the electric power industry. Reducing material losses associated with short-circuits and reductions in power supply voltage in the power supply systems of critical industries facilities is of partocular importance to the implementation of fast-acting automatic reserve input using a modern elemental base. The article considers the description and development of a demonstration laboratory stand of fast-acting automatic input of backup power in order to provide practical study and understanding of multilateral power supply so as to ensure the reliability of electricity supply to consumers. |
ISSN: | 2522-4433 |
Перелік літератури |
1. Burbelo M. Y., Biryukov O. O., Melnychuk L. M. Systemy elektropostachannya. Elementy teoriyi ta pryklady rozrakhunkiv: navchalnyy posibnyk. Vinnytsya: VNTU, 2011. 204 p. ISBN 978-966-641-450-5. [In Ukrainian].
2. Orobchuk B. Ya., Bunyak O. A. Metodyka zastosuvannya systemy keruvannya rezhymamy elektropostachannya u navchalnomu protsesi. Materialy VII mizhnarodnoyi naukovo-tekhnichnoyi konferentsiyi “Pidvyshchennya rivnya efektyvnosti enerhospozhyvannya v elektrotekhnichnykh prystroyakh i systemakh” (Lutsk, 23 chervnya 2018 r.), M-vo osvity i nauky Ukrayiny, Lutskyy natsion. tekhn. un-t [ta in]. Lutsk: LNTU, 2018. P. 67–71. [In Ukrainian].
3. Orobchuk B. Ya. Dilovi ihry v navchal'nomu protsesi v yakosti instrumenta profesiynoyi pidhotovky mahistriv. VI Mizhnarodna naukovo-tekhnichna konferentsiya “Svitlotekhnika y elektroenerhetyka: istoriya, problemy, perspektyvy” (Ternopil – Yaremche, 30 sichnya – 2 lyutoho 2018 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2018. P. 95–96. [In Ukrainian].
4. Diponkar Paul, Md. Shariful Islam, Syed Khalid Rahman. Performance evaluation and operation of Auto Load transfer switch, International Journal of Renewable and Sustainable Energy 2013; 2 (6): P. 205–211
5. ZHU Zefeng, ZHAO Jinquan, WEI Wenhui, LIN Changnian, YU Yiping. Optimal Charging and Discharging Scheme of Battery Energy Storage System in Active Distribution Network. Journal: Automation of Electric Power Systems. 2016. Issue 20. P. 47–54.
6. Diduk V. A. Metodychni vkazivky do vykonannya laboratornykh robit z kursu “Mikroprotsesorna tekhnika” dlya studentiv napryamku pidhotovky 6.050202 “Avtomatyzatsiya ta kompyuterno-intehrovani tekhnolohiyi”. Cherkasy, ChNU im. B. Khmelnytskoho, 2013. 56 p. [In Ukrainian].
7. Tsyrulnyk S. M., Roptanov V. I.. Kompyuteryzovanyy laboratornyy virtualnyy stend. Visnyk Vinnytskoho politekhnichnoho instytutu. 2010. Vol. 4. ISSN 1997-9266. [In Ukrainian].
8. Savchenko O. V., Bilyuk I. S., Fomenko A. M., Shareyko D. Yu., Havrylov S. O., Buhrim L. I., Kyrychenko O. S., Olshevskyy S. I., Fomenko L. A. Pat. 136572 Ukrayina. Laboratornyy stend dlya prohramuvannya mikrokontroleriv AVR. Zayavl. 04.03.2019; opubl. 27.08.2019, Byul. Vol 16. [In Ukrainian].
9. Orobchuk B., Sysak I., Babiuk S., Rajba T., Karpinski M., Klos-Witkowska A., Szkarczyk R., Gancarczy J. Development of simulator automated dispatch control system for implementation in learning, 2017 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications (IDAACS). IEEE, Buharest. Vol. 1. September 2017. P. 210–214.
10. Orobchuk B. Ya., Piskun S. O., Rafalyuk O. O. Vprovadzhennya system telemekhaniky keruvannya enerho-obyektamy v navchalnomu protsesi. III Vseukrayinska naukova-tekhnichna konferentsiya “Teoretychni ta prykladni aspekty radiotekhniky i pryladobuduvannya” (Ternopil, cherven 2017 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2017. P. 224–226. [In Ukrainian].
11. Orobchuk B., Buniak O., Babiuk S., Sysak I. Design of an intelligent system to control educational laboratory equipment based on a hybrid mini-power plant. Eastern-European Journal of Enterprise Technologies. 2023. 2 (9-–122). P. 59–72. (Scopus ISSN 1729-3774)
12. Vymykachi navantazhennya, Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/vimikachi-navantazhennya-abb.
13. Sylovi avtomatychni vymykachi, Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/silovi-avtomatichni-vimikachi.
14. Reversyvni vymykachi navantazhennya. Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/vimikachi-navantazhennya-abb/reversivni-vimikachi-navantazhennya.
15. Bazhenov V. M., Odehov M. M. Kharkiv Avtomatyka elektroustanovok elektroenerhetychnykh system: navchalnyy posibnyk. Planeta-Print, 2022. 186 p. [In Ukrainian].
16. Automatic control units, OMD800. Installation and operating instructions. ABB Oy, Protection and Connection. P.O. Box 622, FI-65101 Vaasa, Finland. URL: http://new.abb.com/low-voltage.
17. Avtomatyzovana systema dyspetcherskoho keruvannya “Strila”. Tekhnichnyy opys i instruktsiya z ekspluatatsiyi. Ternopil, 2010. [In Ukrainian].
18. Orobchuk B. Ya. Laboratornyy kompleks dlya pobudovy system telekeruvannya i dyspetcherskoho upravlinnya v elektroenerhetytsi. Materialy XX naukovoyi konferentsiyi TNTU im. I. Pulyuya (Ternopil, traven 2017 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2017. P. 170–171. [In Ukrainian].
19. Modbus Technical Resources [Veb-sayt]. Andover, Massachuset·s, SShA, 2023. URL: https://modbus.org/ tech.php (data zvernennya: 15.08.2023).
|
References: |
1. Burbelo M. Y., Biryukov O. O., Melnychuk L. M. Systemy elektropostachannya. Elementy teoriyi ta pryklady rozrakhunkiv: navchalnyy posibnyk. Vinnytsya: VNTU, 2011. 204 p. ISBN 978-966-641-450-5. [In Ukrainian].
2. Orobchuk B. Ya., Bunyak O. A. Metodyka zastosuvannya systemy keruvannya rezhymamy elektropostachannya u navchalnomu protsesi. Materialy VII mizhnarodnoyi naukovo-tekhnichnoyi konferentsiyi “Pidvyshchennya rivnya efektyvnosti enerhospozhyvannya v elektrotekhnichnykh prystroyakh i systemakh” (Lutsk, 23 chervnya 2018 r.), M-vo osvity i nauky Ukrayiny, Lutskyy natsion. tekhn. un-t [ta in]. Lutsk: LNTU, 2018. P. 67–71. [In Ukrainian].
3. Orobchuk B. Ya. Dilovi ihry v navchal'nomu protsesi v yakosti instrumenta profesiynoyi pidhotovky mahistriv. VI Mizhnarodna naukovo-tekhnichna konferentsiya “Svitlotekhnika y elektroenerhetyka: istoriya, problemy, perspektyvy” (Ternopil – Yaremche, 30 sichnya – 2 lyutoho 2018 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2018. P. 95–96. [In Ukrainian].
4. Diponkar Paul, Md. Shariful Islam, Syed Khalid Rahman. Performance evaluation and operation of Auto Load transfer switch, International Journal of Renewable and Sustainable Energy 2013; 2 (6): P. 205–211
5. ZHU Zefeng, ZHAO Jinquan, WEI Wenhui, LIN Changnian, YU Yiping. Optimal Charging and Discharging Scheme of Battery Energy Storage System in Active Distribution Network. Journal: Automation of Electric Power Systems. 2016. Issue 20. P. 47–54.
6. Diduk V. A. Metodychni vkazivky do vykonannya laboratornykh robit z kursu “Mikroprotsesorna tekhnika” dlya studentiv napryamku pidhotovky 6.050202 “Avtomatyzatsiya ta kompyuterno-intehrovani tekhnolohiyi”. Cherkasy, ChNU im. B. Khmelnytskoho, 2013. 56 p. [In Ukrainian].
7. Tsyrulnyk S. M., Roptanov V. I.. Kompyuteryzovanyy laboratornyy virtualnyy stend. Visnyk Vinnytskoho politekhnichnoho instytutu. 2010. Vol. 4. ISSN 1997-9266. [In Ukrainian].
8. Savchenko O. V., Bilyuk I. S., Fomenko A. M., Shareyko D. Yu., Havrylov S. O., Buhrim L. I., Kyrychenko O. S., Olshevskyy S. I., Fomenko L. A. Pat. 136572 Ukrayina. Laboratornyy stend dlya prohramuvannya mikrokontroleriv AVR. Zayavl. 04.03.2019; opubl. 27.08.2019, Byul. Vol 16. [In Ukrainian].
9. Orobchuk B., Sysak I., Babiuk S., Rajba T., Karpinski M., Klos-Witkowska A., Szkarczyk R., Gancarczy J. Development of simulator automated dispatch control system for implementation in learning, 2017 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications (IDAACS). IEEE, Buharest. Vol. 1. September 2017. P. 210–214.
10. Orobchuk B. Ya., Piskun S. O., Rafalyuk O. O. Vprovadzhennya system telemekhaniky keruvannya enerho-obyektamy v navchalnomu protsesi. III Vseukrayinska naukova-tekhnichna konferentsiya “Teoretychni ta prykladni aspekty radiotekhniky i pryladobuduvannya” (Ternopil, cherven 2017 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2017. P. 224–226. [In Ukrainian].
11. Orobchuk B., Buniak O., Babiuk S., Sysak I. Design of an intelligent system to control educational laboratory equipment based on a hybrid mini-power plant. Eastern-European Journal of Enterprise Technologies. 2023. 2 (9-–122). P. 59–72. (Scopus ISSN 1729-3774)
12. Vymykachi navantazhennya, Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/vimikachi-navantazhennya-abb.
13. Sylovi avtomatychni vymykachi, Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/silovi-avtomatichni-vimikachi.
14. Reversyvni vymykachi navantazhennya. Ofitsiynyy predstavnyk ABB v Ukrayini [Veb-sayt]. Kharkiv, 2023. URL: https://abbua.com.ua/nizkovoltne-obladnannya/vimikachi-navantazhennya-abb/reversivni-vimikachi-navantazhennya.
15. Bazhenov V. M., Odehov M. M. Kharkiv Avtomatyka elektroustanovok elektroenerhetychnykh system: navchalnyy posibnyk. Planeta-Print, 2022. 186 p. [In Ukrainian].
16. Automatic control units, OMD800. Installation and operating instructions. ABB Oy, Protection and Connection. P.O. Box 622, FI-65101 Vaasa, Finland. URL: http://new.abb.com/low-voltage.
17. Avtomatyzovana systema dyspetcherskoho keruvannya “Strila”. Tekhnichnyy opys i instruktsiya z ekspluatatsiyi. Ternopil, 2010. [In Ukrainian].
18. Orobchuk B. Ya. Laboratornyy kompleks dlya pobudovy system telekeruvannya i dyspetcherskoho upravlinnya v elektroenerhetytsi. Materialy XX naukovoyi konferentsiyi TNTU im. I. Pulyuya (Ternopil, traven 2017 r.), M-vo osvity i nauky Ukrayiny, Tern. natsion. tekhn. un-t im. I. Pulyuya [ta in]. Ternopil: TNTU, 2017. P. 170–171. [In Ukrainian].
19. Modbus Technical Resources [Veb-sayt]. Andover, Massachuset·s, SShA, 2023. URL: https://modbus.org/ tech.php (data zvernennya: 15.08.2023).
|
Завантажити | |
|