Determination of steam leaks through faulty labyrinth seals of a steam turbine

Andrey A. Zhinov; Denis V. Shevelev

doi:10.17816/2074-0530-104581

Izvestiya MGTU MAMI ›› 2022, Vol. 16 ›› Issue (1) : 21 -28. DOI: 10.17816/2074-0530-104581

Hydraulic and pneumatic systems

research-article

Determination of steam leaks through faulty labyrinth seals of a steam turbine

Author information +

History +

PDF

Abstract

BACKGROUND: When calculating the axial force acting on the thrust bearing of a steam turbine, when calculating the dimensions of the unloading piston, when calculating the efficiency of the turbine stages, it is necessary to determine the amount of steam leakage through its diaphragm and end seals. Existing methods make it possible to calculate leaks only through serviceable, undamaged labyrinth seals of several standard designs. However, during the operation of steam turbines, due to off-design axial and radial displacements of the rotor, labyrinth seals are often damaged - deformed, crushed or broken.

AIMS: The purpose of the study is to develop a method for calculating leaks using direct CFD modeling in serviceable and damaged seals with typical failures, verify the simulation results by comparison with known methods and experimental data, and determine critical steam leaks through faulty labyrinth turbine seals.

MATERIALS AND METHODS: A method for calculating the steam flow rate through serviceable and faulty labyrinth seals of a steam turbine using the capabilities of modern CFD methods is proposed and verified. The computational domain of modeling the front-end seal of the turbine, the features of setting the boundary conditions, the adaptive computational grid, and the numerical mathematical model used are described.

RESULTS: The results of a numerical study of steam leakage through serviceable and damaged labyrinth end seals of the turbine are presented: with bent ridges in the seals, with partial or complete absence of ridges. The operation of the front-end seal of the turbine was simulated with several typical failures. It is shown that partial damage to the ridges of the front-end seal of the turbine, which is often encountered during operation, leads to a significant increase in steam leakage. It has been established that with significant damage to the ridges, an increase in steam leakage can lead to the exhaustion of the capacity of the steam pressure regulator in the seal, which leads to a malfunction of the turbine thrust bearing unloading system.

CONCLUSIONS: The proposed technique and the results obtained can be used to calculate steam leakage through serviceable and faulty diaphragm and end labyrinth seals of turbines, when calculating the value of the axial force acting on the turbine thrust bearing in variable operating modes, the technique is useful in assessing the efficiency of the thrust bearing unloading system.

Keywords

labyrinth seal / end seals / steam turbine / axial force / numerical simulation

Cite this article

Download citation ▾

Andrey A. Zhinov, Denis V. Shevelev. Determination of steam leaks through faulty labyrinth seals of a steam turbine. Izvestiya MGTU MAMI, 2022, 16(1): 21-28 DOI:10.17816/2074-0530-104581

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	RTM 108.020.33-86 Uplotneniya labirintnye statsionarnykh parovykh i gazovykh turbin i kompres-sorov. Proektirovanie i raschet. Moscow: NPO TsKTI; 1988. (In Russ).

[2]	РТМ 108.020.33-86 Уплотнения лабиринтные стационарных паровых и газовых турбин и компрессоров. Проектирование и расчет. Москва: НПО ЦКТИ, 1988.

[3]	Zhinov AA, Shevelev DV, Gridchin NV. Investigation of Effect of Axial Displacement of Steam Turbine Rotor on Value of Steam Leakage through Diaphragm Seal of Stage. Modern High Technologies. 2020;(10):32-37. (In Russ). doi: 10.17513/snt.38251

[4]	Жинов А.А., Шевелев Д.В., Гридчин Н.В. Исследование влияния осевого смещения ротора паровой турбины на величину протечки пара через диафрагменное уплотнение ступени // Современные наукоемкие технологии. 2020. № 10. С. 32–37. doi: 10.17513/snt.38251

[5]	Kostyuk AG, Frolov VV, Bulkin AE, Trukhniy AD. Steam and gas turbines for power plants: a textbook. Moscow: MPEI; 2016. (In Russ).

[6]	Костюк А.Г., Фролов В.В., Булкин А.Е., Трухний А.Д. Паровые и газовые турбины для электростанций: учебник. Москва: МЭИ, 2016.

[7]	Goldberg AA, Ioffe LS, Kogan PV, et al. Steam turbines and turbine plants of the Ural Turbine Plant for CCGT. Yekaterinburg: UMC UPI Publishing House LLC; 2015.

[8]	Гольдберг А.А., Иоффе Л.С., Коган П.В., и др. Паровые турбины и турбоустановки Уральского турбинного завода для ПГУ. Екатеринбург: ООО «Издательство УМЦ УПИ», 2015.

[9]	Ilyichev VY, Yurik EA, Ibragimov SV. Development of a technique of determination of the axial forces arising in labyrinth consolidations of steam turbines // StroyMnogo. 2018;(1):3. (In Russ).

[10]	Ильичев В.Ю., Юрик Е.А., Ибрагимов С.В. Разработка методики определения осевых усилий, возникающих в лабиринтных уплотнениях паровых турбин // СтройМного. 2018. № 1. С. 3.