Научная электронная библиотека ULRICH'S Periodicals Directory

Сибирский государственный университет
науки и технологий имени академика М.Ф. Решетнева

Сибирский аэрокосмический журнал
ISSN 2712-8970 (Print) ISSN 2782-5760 (on-line)

Сведения об образовательной организации

UDK 519.866:621.039.514.25
ASSESSMENT OF DYNAMIC STABILITY OF A SIMPLE POWER SYSTEM IN AN OBJECT-ORIENTED PROGRAMMING ENVIRONMENT DELPHI
L. L. Latushkina
Khakassia Technical Institute, branch of Siberian Federal University 27, Shchetinkina Str., Abakan, 655017, Russian Federation E-mail: Latush2003@mail.ru
This article discusses the materials for creating a software development for analysis of dynamic stability of a simple adjustable electrical system. The aim of development is to assess the dynamic stability of power transmission the simplest electrical system by the appearance of symmetrical short circuit (SC) on the air line, as well as to consider changes resistance with the variation of load power in a given schema, the change in long air line and change the configuration schema with two transformers one transformer. The solution of the problem of analysis of dynamic stability of power system is implemented in an object-oriented programming environment Delphi. The article also provides an assessment of existing programs for the calculation of dynamic stability of electric circuits, the possibility of their application for solving the task. The article deals with the formulation and condition assessment objectives dynamic stability of the simplest electrical system, briefly considered the method of determining the angle limit disable the generator, shows the implementation of the tasks and the working principle of the application, the main working window, work with them and the conclusions. We plan to expand the program: its application to the calculation of the assessment of dynamic stability with asymmetrical short circuits in the power lines.
software, Delphi, dynamic stability.
References
  1. Dalibor Filipović-Grčić, Božidar Filipović-Grčić, Kosjenka Capuder. Modeling of three-phase autotransformer for short-circuit studies. International Journal of Electrical Power & Energy Systems, 2014, Vol. 56, March, P. 228–234.
  2. Jinxin Ouyang, Xiaofu Xiong. Research on short-circuit current of doubly fed induction generator under non-deep voltage drop. Electric Power Systems, 2014, Vol. 107, February, P. 158–166.
  3. Sun W., Su Y. S., Zhang J. F., Li X. M. Enhance power system transient voltage stability by difference coefficient of generator excitation system optimization. Advanced Materials Research, 2014, Vol. 1008–1009, P. 409–416.
  4. Zhou N., Wang P., Wang Q., Loh P. C. Transient stability study of distributed induction generators using an improved steady-state equivalent circuit method. Source of the Document. IEEE Transactions on Power Systems, 2014, Vol. 29 (2), 6632970, P. 608–616.
  5. Platonova E. V., Elizarieva L. L. [New methodological and program development at the organization of laboratory practical work using PC]. Tezisy dokladov vtoroy regional’noy nauchno-prakticheskoy konferentsii “Intelektual’nye resursy Khakaskii” [Proc. 2th reg. scientific-practical Symp. “Intellectual resources KTI – KSTU branch of Khakassia”]. Abakan, 1999, P. 78–79 (In Russ.).
  6. Platonova E. V., Khokhryakova E. N, Elizarieva L. L. [Information technologies in training of engineers-electricians]. Proc. Nauchno-methodicheskoy conferentsii “Obrazovatel’nye technologii: sostoyanie I perspektivy” [Proc. Scientific-methodical conference “Educational technology: status and prospects”]. Tomsk, 1999, P. 129–130 (In Russ.).
  7. Platonova E. V., Elizarieva L. L. [Application of mathematical models for simulation and analysis of transient processes in power systems]. Vestnik KhTI KGTU. 1998, No. 4, P. 49–57 (In Russ.).
  8. Federico Milano, Kailash Srivastava. Dynamic REI equivalents for short circuit and transient stability analyses. Electric Power Systems Research, 2009, Vol. 79, Iss. 6, June, P. 878–887.
  9. Zhenhua Wang, Elham B. Makram, Ganesh Kumar Venayagamoorthy, Chaoqi Ji. Dynamic estimation of rotor angle deviation of a generator in multi-machine power systems. Electric Power Systems Research, 2013, Vol. 97, April, P. 1–9.
  10. Anya Castillo. Risk analysis and management in power outage and restoration: A literature survey. Electric Power Systems, 2014, Vol. 107, February, P. 9–15.
  11. Regimov.net. Programma DIgSILENT PowerFactory [Program DIgSILENT PowerFactory] (In Russ.). Available at: http://regimov.net/content.php/79-DIgSILENT-PowerFactory (accessed 18 March 2012).
  12. Thekla N. Boutsika, Stavros A. Papathanassiou . Short-circuit calculations in networks with distributed generation. Electric Power Systems Research, 2008, Vol. 78, Iss. 7, July, P. 1181–1191.
  13. Regimov.net. Programma MUSTANG [Program MUSTANG] (In Russ.). Available at: http://regimov.net/ content.php/73-MUSTANG (accessed 18 March 2012).
  14. Iván García-Magariño. A collection of method fragments automated with model transformations in agent-oriented modeling. Engineering Applications of Artificial Intelligence, 2013, Vol. 26, Iss. 3, March,  P. 1131–1148.
  15. José A. S. Sena, Maria C. P. Fonseca, Italo F. Di Paolo, Walter Barra Jr., José A. L. Barreiros, Carlos T. Costa Jr., Fabrício G. Nogueira. An object-oriented framework applied to the study of electromechanical oscillations at Tucuruí hydroelectric power plant. Electric Power Systems Research, 2011, Vol. 21, December, P. 2081–2087.
  16. Wang J., Lü Q., Liu H. Reactive power optimization software design based on hybrid programming of Delphi and Matlab for distribution system. Dianli Zidonghua Shebei/Electric Power Automation Equipment, 2011, Vol. 31 (4), P. 112–115.
  17. Kulikov Yu. A. Perekhodnie protsessi v elektricheskikh sistemakh [Transient processes in power systems]. Novosibirsk, NGTU, Moscow, Mir Publ., AST Publ., 2003, 283 p.
  18. Enrique A. Zamora-Cárdenas, Claudio R. Fuerte-Esquivel. Computation of multi-parameter sensitivities of equilibrium points in electric power systems. Electric Power Systems Research, 2013, Vol. 96, March, P. 246–254.

Latushkina Larisa Leonidovna – Senior Lecturer, Khakassia Technical Institute, a branch of Siberian Federal University. E-mail: Latush2003@mail.ru