Effect of Operating Conditions of a T-250/300-240 Turbine on the Level of Wetness in the Stages of the Low-Pressure Cylinder

Simoyu, L. L.; Efros, E. I.; Gutorov, V. F.

doi:10.1007/s10749-005-0314-4

Power Technol Eng

2005

DOI: 10.1007/s10749-005-0314-4

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Effect of Operating Conditions of a T-250/300-240 Turbine on the Level of Wetness in the Stages of the Low-Pressure Cylinder

L. L. Simoyu

E. I. Efros

V. F. Gutorov

Abstract: The operation of the low-pressure turbine part in variable condensing and extraction regimes is analyzed. The effect of steam parameters at the inlet to the low-pressure part (in the lower extraction chamber) and of operation of the regulating stage of the LPP on the level of wetness in the low-pressure stages is determined. It is shown that the moving blades of the last stages of cogeneration turbines operate under heavier erosion conditions than in condensing turbines. This is one of the main causes of their… Show more

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Cited by 3 publications

(4 citation statements)

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“…The value q is defined as the difference between the heat consumption for turbine installation Q o and the magnitude of heat supply to external customers Q t is divided by the electric power N e [7]. This value allows to consider the effectiveness of joint generation and subsequent supply to consumers of both electrical and heat energy in cogeneration mode.…”

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confidence: 99%

“…where add q and ( ) add o q -are specific consumptions of heat for electricity generation unit changes in estimated (non-zero parameters with predetermined coefficients a and k) and the base (from their zero values) modes, respectively [4] The value add q is defined as the difference between the change of consumption of heat for turbine unit and change of heat supply to the external heat consumer, divided by the change in the electrical power [7]. It indicates the efficiency of the final change of power generation in the given boundary conditions.…”

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confidence: 99%

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Results of Mathematical Modeling to Study the Influence of Accounting the Process Moisture on Energy Indicators of Cogeneration Steam Turbines

Tatarinova¹,

Суворов²

2015

AMM

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confidence: 99%

mentioning

confidence: 99%

Results of Mathematical Modeling to Study the Influence of Accounting the Process Moisture on Energy Indicators of Cogeneration Steam Turbines

Tatarinova¹,

Суворов²

2015

AMM

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“…2 A weld-bead technique for repairing damaged working turbine blades has been developed and carried out at the Central Mechanical Repair Plant (TsRMZ) of Mosénergo. More than 3000 blades have been fixed this way.…”

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Increasing the efficiency of the power stations of JSC “Mosénergo”

2008

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“…Blades of last stages of T-250/300-240 turbines, which have the greatest height (L = 940 mm) of all operating cogeneration turbines, are no exception [1].…”

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confidence: 99%

Efficiency of operation of a T-250/300–240 turbine without moving blades of last stages of the low-pressure cylinder

Simoyu¹,

Barinberg²,

Gutorov³

2006

Power Technol Eng

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The results of detailed computations performed for actual electric and heat loads, pressure in the condenser, and other operating parameters are used to consider the changes in the efficiency of operation of a T-250/300-240 turbine after the removal of moving blades of the last stages of the low-pressure cylinder. It is shown that the expediency of running the turbine with removed blades should be determined proceeding from the expected modes of operation of the cogeneration plant in question for the whole year.Experience in the operation of cogeneration turbines has shown that the inlet edges of moving blades of low-pressure stages experience considerable erosion wear. Blades of last stages of T-250/300-240 turbines, which have the greatest height (L = 940 mm) of all operating cogeneration turbines, are no exception [1].In this connection it has been suggested to solve the problem of their reliability "radically" by operating with removed moving blades of the last (31 and 40) stages (the baffles of these stages are preserved in order to prevent damage of the penultimate stages). The topics of economic expediency and efficiency of such operation for the turbosets considered came to the fore.When a low-pressure cylinder (LPC) operates without moving blades of the last stages, the production of internal power can either decrease or grow depending on the steam flow rate in the LPC and on the pressure in the condenser. At the same time, the available heat load of the turboset can be increased because it becomes possible to lower the minimum (ventilation) steam flows into the LPC necessary for maintaining the permissible thermal state of the exhaust part.It is hard to determine the efficiency of the engineering solution in question experimentally and to obtain an accurate enough estimate. Primarily, this is connected with the fact that the capacity of the LPC during testing is determined as the difference between the measured capacity of the whole of the turbine and the capacities of the HPC and both IPC calculated from the measured values of the pressures, temperatures, and steam flow rates. All the errors in the measurement of steam parameters, temperature differences, and efficiencies of the high-pressure and intermediate-pressure cylinders, and steam flows through them are summed and divided by the determined capacity of the low-pressure cylinder. In addition, the tests are performed at different times, i.e., before and after an overhaul of the turbine, which also influences the accuracy of the final result. The errors in the determination of the capacity of the LPC at low steam flows into the condenser, which are typical for cogeneration regimes and the most interesting for realization of the engineering solution considered, are especially high.Taking into account the circumstances mentioned we determined the efficiency of the updating using computational analysis based on the method of computation of quasi-stationary flows developed at the VTI in the 1970s and supplemented and advanced considerably by the presen...

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Effect of Operating Conditions of a T-250/300-240 Turbine on the Level of Wetness in the Stages of the Low-Pressure Cylinder

Cited by 3 publications

References 0 publications

Results of Mathematical Modeling to Study the Influence of Accounting the Process Moisture on Energy Indicators of Cogeneration Steam Turbines

Results of Mathematical Modeling to Study the Influence of Accounting the Process Moisture on Energy Indicators of Cogeneration Steam Turbines

Increasing the efficiency of the power stations of JSC “Mosénergo”

Efficiency of operation of a T-250/300–240 turbine without moving blades of last stages of the low-pressure cylinder

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