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The development of a computer model for the circulation system used at OAO Mosenergo’s TETs-23 cogeneration station and calculation of its optimal operating conditions

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Abstract

A computer model of the circulation system used at OAO Mosenergo’s TETs-23 cogeneration station is developed that allows the hydraulic processes occurring in the system to be fully simulated, including those in the cooling towers, the flow in which becomes discontinuous. The optimal operating conditions of the circulation system are calculated, and the most efficient options of operation with the existing equipment are determined. Quantitative assessments characterizing the effectiveness of each option are presented.

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References

  1. S. V. Kolesnikov, V. V. Dikop, and V. A. Kudinov, “Investigation of the Hydraulic Operating Conditions of the Circulation System at the Tol’yatti Cogeneration Station on a Computer Model,” Izv. Vyssh. Uchebn. Zaved., No. 6, 90–95 (2002).

  2. V. A. Kudinov, A. G. Kovalenko, S. V. Kolesnikov, and Yu. S. Ponomarev, “Developing a Computer Model and Studying the Operation of the Circulation System of the Novokuibyshev Cogeneration Station TETs-2,” Izv. Akad. Nauk, Energetika, No. 6, 118–124 (2001).

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Authors and Affiliations

  1. OAO Mosenergo TETs-23 Cogeneration Station, ul. Montazhnaya 1/4, Moscow, 104497, Russia

    N. A. Zroichikov, A. G. Moskvin & V. I. Lisitsa

  2. Samara State Technical University (SamGTU), ul. Molodogvardeiskaya 244, Samara, 443100, Russia

    V. A. Kudinov, A. G. Kovalenko & S. V. Kolesnikov

Authors
  1. N. A. Zroichikov
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  2. V. A. Kudinov
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  3. A. G. Kovalenko
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  4. S. V. Kolesnikov
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  5. A. G. Moskvin
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  6. V. I. Lisitsa
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Additional information

Original Russian Text © N.A. Zroichikov, V.A. Kudinov, A.G. Kovalenko, S.V. Kolesnikov, A.G. Moskvin, V.I. Lisitsa, 2007, published in Teploenergetika.

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Zroichikov, N.A., Kudinov, V.A., Kovalenko, A.G. et al. The development of a computer model for the circulation system used at OAO Mosenergo’s TETs-23 cogeneration station and calculation of its optimal operating conditions. Therm. Eng. 54, 863–870 (2007). https://doi.org/10.1134/S004060150711002X

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  • DOI: https://doi.org/10.1134/S004060150711002X

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