Implementation of the experience in designing APCS systems for nuclear facilities based on UMIKON package in the educational process

7/14/2014 2014 - #02 Personnel training

Lebedev V.O. Tolokonsky A.O. Korolev S.A. Vlasov V.A.

https://doi.org/10.26583/npe.2014.2.16

The paper describes the experience in creating a training laboratory for designing an Automated Process Control System (APCS) for nuclear facilities based on the UMIKON hardware and software package which facilitates the engineering design process and helps to achieve more flexibility in upgrading APCS. Some issues of creating modern digital real-time systems and distributed automated control systems with multi-level hierarchy are considered. The article provides a list of practical skills required for APCS development at all design stages. The paper presents an emulator of control objects described by first and second order differential equations to study the settings of model laws of regulation resulting both in a proportional actuator and in an integrating mechanism with pulse-width modulation.

References

1. Vlasov V.A., Tolokonskij A.O. Ispol’zovanie analiticheskogo konstruirovaniya regulyatorov pri vnezapnom izmenenii dinamicheskih kharakteristik ob’’ekta [Analytical design of regulators under sudden changes in the dynamic characteristics of an object]. Sbornik: Nauchnaya sessiya MIFI. 2005. v.1, p. 45 (in Russian).
2. Lebedev V.O., Tolokonskij A.O. Razrabotka PO ustrojstva funktsional’noj proverki avtomaticheskoj zaschity reaktora [Development of software for the functional testing device of the automatic reactor protection system]. Sbornik: Nauchnaya sessiya MIFI. 2002, v.1, p. 35 (in Russian).
3. Tolokonskij A.O. Sredstva adaptivnogo optimal’nogo upravleniya v SCADA-sisteme MikSIS. Pribory i sistemy upravleniya [Adaptive optimal control tools in the SCADA-MikSYS system]. 2007, no. 1, p. 15 (in Russian).
4. Slepetskij A.E., Tolokonskij A.O. Avtomatizatsiyaasosnoj stantsii №3 KSA [Automation of pumping station №3 of the integrated automation system]. Sbornik: Nauchnaya sessiya MIFI. 2001, v.1, p. 43 (in Russian).
5. Lebedev V.O., Tolokonskij A.O. Sistema pozharnoj signalizatsii, informatsionnogo obespecheniya I videonablyudeniya [Fire alarm, information support and video surveillance system]. Sbornik: Nauchnaya sessiya MIFI. 2003, v. 1, p. 29 (in Russian).
6. Vlasov V.A., Tolokonskij A.O. Prikladnoj paket sozdaniya ASUTP i konstruirovaniya operatora MikSIS [Application program package for SCADA development and MikSYS operator design]. Pribory i sistemy upravleniya. 1999, no. 9, p. 35.
7. Vlasov V.A., Tolokonskij A.O., Golovanev V.E. Veroyatnostnye kharakteristiki otkazov system otobrazheniya [Probabilistic characteristics of imaging system failures]. Sbornik: Nauchnaya sessiya MIFI. 2005, v.1, p. 42 (in Russian).
8. Vlasov V.A., Golovanev V.E. Statisticheskie ispytaniya programmnyh system [Statistical testing of software systems]. Sbornik: Nauchnaya sessiya MIFI. 2004, pp. 36-37 (in Russian).
9. Vlasov V.A., Golovanev V.E., Tolokonskij A.O. Analiz veroyatnosti otkaza system otobrazheniya [Analysis of imaging system failure rate]. Promyshlennye kontrollery ASU. 2005, no. 4, p. 25.
10. Lebedev V.O., Komisarchuk S.Yu., Obnosov A.V. Struktura i osnovnye osobennosti programmnogo kompleksa sozdaniya system upravleniya MikSIS PTK UMIKON [Structure and characteristics of the MikSYS software package for designing control systems based on the UMIKON complex]. Promyshlennye kontrollery ASU. 2004, no. 1, pp. 35-41.

Automated Process Control System (APCS) process control systems hardware and software package training laboratory technological process technological parameters

Link for citing the article: Lebedev V.O., Tolokonsky A.O., Korolev S.A., Vlasov V.A. Implementation of the experience in designing APCS systems for nuclear facilities based on UMIKON package in the educational process. Izvestiya vuzov. Yadernaya Energetika. 2014, no. 2, pp. 149-157; DOI: https://doi.org/10.26583/npe.2014.2.16 (in Russian).