Selection of options for the reconstruction of the power supply system based on the fuzzy sets theory and the crit eria of decision-making theory

The article proposes a method for selecting options for the reconstruction of the power  supply  system  based  on  the  criteria  of  decision-making  theory.  The  reconstruction process  is  considered  as  a  sequential  game  with  two  players :  active  and  passive.  The probability of possible states of the system is determined on the basis of the fuzzy sets theory. The main criterion for the choice of the reconstruction option is the value of damage from the power  supply  interruption.  The  application  of  the  proposed  method  is  considered  on  the example of a large metallurgical enterprise.

1. Konysheva L.K., Nazarov D.M. Fundamentals of the theory of fuzzy sets. - SPb .: Peter, 2011. 192 p.

2. Kovalenko I.V., Tremyasov V.A. Application of the theory of fuzzy sets in the problem of reconstruction options selection for the main power distribution schemes of power plants // Proceedings of the higher educational institutions. Energy sector problems. 2004. No. 5-6. P. 26–32.

3. Shevchenko N.Yu., Lebedeva Yu.V., Havronichev S.V. The algorithm for selection of optimal variant for the reconstruction of overhead transmission lines of 110–220 kV// Modern problems of science and education. 2013. No. 5. P. 10.

4. Malafeev A.V., Yuldasheva A.I. Application of the fuzzy sets theory for assessment of production risks in the task of modes control for the industrial power supply system // Electrical energy industry through the eyes of young people: proceedings of VI Intern. scientific and technical conference, November 9–13, 2015, Ivanovo. T. 2. Ivanovo, 2015. P. 294–297.

5. Metelkov A. A. Development of planning methodology for power supply systems of areas with low density loads, taking into account the uncertainty of the initial information: dis. ... cand. tech. sciences: 05.14.02. M., 2004. 208 p.

6. Semenova L.A. Multi-criteria analysis of the development models of power supply systems in uncertainty conditions// Cherepovets State University Bulletin. 2016. No. 4. P. 39–46.

7. Abdullazyanov E.Y., Vasiliev Y.A., Galiev I.F. Enterprises power supplying schemes reliability models for investments efficiency // Izvestiya vysshikh uchebnykh zavedenii. Pro blemy energetiki. 2009. No. 5-6. P. 67–74.

8. Abapour S., Zare K., Mohammadi-ivatloo B. Evaluation of technical risks in distribution network along with distributed generation based on active management // IET Generation, Transmission& Distribution. 2014. Vol. 8. Iss. 4. P. 609–618. doi: 10.1049/iet-gtd.2013.0666.

9. Cunbin L., Gefu. Q., Tingting Y. Operational Risk Assessment of Distribution Network Equipment Based on Rough Set and D-S Evidence Theory // Journal of Applied Math ematics. 2013. Article ID 263905. 7 p. http://dx.doi.org/10.1155/2013/263905.

10. Yuldasheva A.I., Malafeev A.V. Accounting the reliability index at planning the mode of industrial power supply system with own electric power stations // Electrotechnical Systems and Complexes. 2015. No. 3(28). P. 36–40.

11. Duplyakin V.M. Games theory. Samara: Publishing House of Samara Aerospace University, 2011. 191 p.

12. Koroteev M.V. Linguistic variables of economic indicators // Audit and financial analysis. - 2012. No. 2. 5 p.

13. Kudrin B.I., Zhilin B.V., Oshurkov M.G. Electric power supply. Rostov-on-Don: Phoenix, 2018. 382 p.

14. Nepomnyashchy V.A. Economic losses from a electric power supply failure. M: MPEI, 2010. 187 p.

15. Igumenschev V.A., Malafeev A.V., Panova E.A., Varganova A.V., Gazizova O.V., Kondrashova Yu.N., Zinoviev V.V., Savelieva K.S., Iuldasheva A.I., Krubtsova A.A., Kurilova N.A., Testimony 2015662725, Russia, Program “Complex of automated mode analysis KATRAN 9.0”. “Computer Program, Database, TIMS,” 2015.

16. Malafeev A.V. Algorithm of structural reliability calculation of large industrial works electric power supply systems based on sequential reduction method // Proceedings of the Russian Academy of Sciences. Power Engineering. 2016. No. 4. P. 62–72.

17. RUCABEL.RU [Electronic resource]. Access mode: http://www.rucabel.ru/asu/cabel_asu_400_93.html, free (access date: 10/20/2018).

18. RD 34.20.574. Guidelines for the application of indicators of reliability of elements of power systems and operation of power units with steam-turbine installations [Electronic resource]. Access mode: http://www.xjob.ru/RD_34.20.574 ,free (access date: 10/20/2018).