Improvement method for calculation gate circuit insulation monitoring 3B with measuring relay consisting of two coils

Authors

  • Александр Александрович Харитонов SHEI "National University of Krivoy Rog", XXII Party Congress 11, Krivoy Rog, Ukraine, 50027, Ukraine
  • Анатолий Григорьевич Ликаренко SHEI "National University of Krivoy Rog", Ukraine https://orcid.org/0000-0003-4331-1768
  • Ольга Евгеньевна Мельник SHEI "National University of Krivoy Rog", Ukraine https://orcid.org/0000-0002-7517-6815
  • Надежда Николаевна Ляхова SHEI "National University of Krivoy Rog", Ukraine https://orcid.org/0000-0002-2117-0530

DOI:

https://doi.org/10.15587/2312-8372.2014.28086

Keywords:

leakage relay, the sensitivity of the circuit, the coil, valve, insulation, relay operation, current

Abstract

Efficiency of electrical breaker is identified with the level reached in their risk of electric shock, and this level is determined by the following parameters.

The first - a line of protective characteristics circuit breakers electrical safety requirements, the second - the ability to retain this correspondence for all occurring negative impacts of factors of production, and the third - the ability to provide a functional interaction, members of the circuit breakers leakage relay and power switching device network. The second and third parameters are determined on the basis of compliance with the requirements of the circuit breakers imposed operating conditions of mining production.

The paper presents an improved method of calculating the gate control circuit with two-winding insulation 3B measuring relays. In the research proposed a new method of calculation and the optimization of circuit parameters the automatic control of isolation  ACI-380 in order to increase its sensitivity from 0.33 to 0.63 mA/com in the same functional characteristics.The results of the research will enhance the reliability of the relay leakage, thereby improving the protection of persons against electric shock in LV networks with isolated neutral and will reduce the likelihood of ignition of fire-damp and coal dust leakage current. 

Author Biographies

Александр Александрович Харитонов, SHEI "National University of Krivoy Rog", XXII Party Congress 11, Krivoy Rog, Ukraine, 50027

Анатолий Григорьевич Ликаренко, SHEI "National University of Krivoy Rog"

Рrofessor of department

Department of Automated electromechanical systems in industry and transport

Ольга Евгеньевна Мельник, SHEI "National University of Krivoy Rog"

Рrofessor of department

Department of electricity and energy management

Надежда Николаевна Ляхова, SHEI "National University of Krivoy Rog"

Graduate student

Department of Automated electromechanical systems in industry and transport

References

  1. Kolosyuk, B. N. (1980). Zaschitnoe otklyuchenie rudnichnyih elektroustanovok. Moscow, Nedra, 463.

    Bunko, C. A., Volotovsky, C. A., Pivnyak, G. G. (1978). Povyishenie bezopasnosti rudnichnoy elektrovoznoy otkatki. Moscow, Nedra, 200.

    Likarenko A. G. (1976). Issledovanie i sovershenstvovanie sredstv zaschitnogo otklyucheniya elektricheskih setey napryazheniem do 1000 V shaht i karerov: Dissertation of candidate of technical Sciences. 05.09.03. MHI, Moscow, 152.

    Štěpán, F. (2001). Protective cutout Device, controlled by the differential current. Edited by V. I. Mozyr. Prague, 81.

    Monika Yadav, Shyam Akashe, Dr.Yogesh Goswami (2011). Analysis of Leakage Reduction Technique on Different SRAM Cells. International Journal of Engineering Trends and Technology. – Vol 2, Iss 3. – P. 78–83. ISSN(s): 2231-5381.

    International Electrotechnical Commission (1994). IEC Report Publication 60479-1 Third edition. Effect of current on human beings and livenstock. Part 1. General aspects.

    Benabid Rabah, Chaghi Abdelaziz, Boudour Mohamed (2013). Zellagui Mohamed Impact of GCSC on IDMT directional overcurrent relay in the presence of phase to earth fault. Serbian Journal of Electrical Engineering. – Vol 10, Iss 3. – P. 381–398. ISSN(s): 1451- 4869. DOI: 10.2298/SJEE130505011Z.

    Вondarenko E. A. (2012). Determination technique of overload capacity of contact voltage and currents. European Science and Technology: materials of the 2dn International scientific conference, Wiesbaden, Germany, May 9th-10th. – Vol. II «Bildungszentrum Rodnik e. V.» – P. 189–193.

    Bukhtoyarov, W. F. (1981). Sistema obespecheniya elektrobezopasnosti pri ekspluatatsii elektroustanovok razrezov. Bezopasnoe vedenie rabot na razrezah: Sb. nauch. trudov UkrNIIproekt., 43-48.

    Zhelihovskiy H. M. (1971) Metod rascheta parametrov zaschityi ot utechek tipa UAKI v shahtnyih elektricheskih setyah. Gornaya elektromehanika i avtomatika. – Harkov, – Vyip.18 HGU, 14-16.

    Volkotrub, S. A., Volkotrub, S. A., Gryin, K. A., Kolosyuk, V. P., Radyukov, V. V. (1982) Ustroystva zaschitnogo otklyucheniya kontaktnyih setey. Trudyi II Vsesoyuznoy nauchno-tehnicheskoy konferentsii. «Elektrobezopasnost na gornorudnyih predpriyatiyah chernoy metallurgii SSSR», Dnepropetrovsk. 88-89.

    Syichev, L. I. (1976) Emkost kabelya, primenyaemogo v podzemnyih elektricheskih setyah do 1000 V otnositelno zemli. Bezopasnost truda v promyishlennosti, 7, 40-42.

    Kochetkov, V. D. (1970) Razrabotka i issledovanie sredstv avtomaticheskoy zaschityi ot utechek toka v shahtnyih nizkovoltnyih elektricheskih setyah. Avtoreferat diss. kand. tehn. nauk. / Novocherkassk, NPI. 15.

    Zhelihovskiy, H. M. (1965) Deliteli napryazheniya v shemah zaschityi ot utechek s trehfaznyim vyipryamitelem. Trudyi nauch. – tehn. konf. «Elektrobezopasnost na predpriyatiyah gornodobyivayuschey promyishlennosti», – M.: Nedra, 81-94.

Published

2014-10-17

How to Cite

Харитонов, А. А., Ликаренко, А. Г., Мельник, О. Е., & Ляхова, Н. Н. (2014). Improvement method for calculation gate circuit insulation monitoring 3B with measuring relay consisting of two coils. Technology Audit and Production Reserves, 5(1(19), 17–21. https://doi.org/10.15587/2312-8372.2014.28086

Issue

Section

Technology audit