РАЗРАБОТКА МОДЕЛЕЙ ДЛЯ ИССЛЕДОВАНИЯ ВЛИЯНИЯ ТЕМПЕРАТУРНОГО ПЕРЕКОСА ПО ФЛАНЦАМ КОРПУСА ЦИЛИНДРА НА РАБОТУ СИСТЕМЫ ТЕПЛОВЫХ РАСШИРЕНИЙ ПАРОВОЙ ТУРБИНЫ

A.Yu. Sosnovskiy; B.E. Murmanskiy2; M.F. Tselishchev; Yu.M. Brodov

doi:10.14529/power160201

Authors

A.Yu. Sosnovskiy CJSC “Engineers center ‘Uraltekhenergo’”, Ekaterinburg, Russian Federation,
B.E. Murmanskiy2 Ural Federal University named after the first President of Russia B.N. Yeltsin, Ekaterinburg, Russian Federation
M.F. Tselishchev CJSC “Engineers center ‘Uraltekhenergo’”, Ekaterinburg, Russian Federation,
Yu.M. Brodov CJSC “Engineers center ‘Uraltekhenergo’”, Ekaterinburg, Russian Federation,

DOI:

https://doi.org/10.14529/power160201

Keywords:

turbine unit, thermal expansions, bearing pedestal, feather tongues, reliability, thermal condition

Abstract

The authors propose a generalized scheme of interaction between some steam turbine cylinder, a corresponding bearing pedestal and a turbine unit base (feather tongues). Based on this scheme, a simplified analytical
model has been developed with methods of theoretical mechanics and strength of materials. It enables determination of the value of friction force applied at the feather tongues at the temperature difference between the left
and right flanges of turbine case horizontal joint (temperature stratification).To verify assumptions of the analytical model, the authors have developed a model of interaction between the cylinder, bearing pedestal and feather tongues based on the finite element method.
Comparative calculations considering both models have proved that the values of friction forces at
the feather tongues – bearing pedestal couple with the temperature stratification at flanges of the horizontal joint
of the turbine high-pressure cylinder are almost the same for an actual operational range of temperature stratification. An analytical model provides with somewhat overestimated results.
The modeling results may be used for evaluation of friction forces at feather tongues of a front bearing pedestal under conditions of temperature stratification across the flanges of the conjugated high-pressure cylinder
of the steam turbine. With the models proposed, designers of multi-cylinder steam turbines can make justified
decisions when specifying the gap values for the feather tongues – bearing pedestal couple.

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