Effects of Flow Coefficient on Turbine Aerodynamic Performance and Loss Characteristics

Yang, Shaoyun; Du, Wei; Luo, Lei; Wang, Songtao

doi:10.1155/2022/4633333

International Journal of Aerospace Engineering

2022

DOI: 10.1155/2022/4633333

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Effects of Flow Coefficient on Turbine Aerodynamic Performance and Loss Characteristics

Shaoyun Yang

Wei Du

Lei Luo

et al.

Abstract: The effects of flow coefficient on the gas flow and loss characteristics inside the high-pressure turbine is investigated using a numerical simulation. In this paper, the midspan of the first stator of the “Lisa” 1.5 stage high-pressure turbine is used as a prototype to obtain different flow coefficients by changing the stagger angle and the exit angle. The boundary conditions of all cases are consistent with the experimental data of “Lisa”. The results show that the flow coefficient is decreased from 0.478 to… Show more

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2024

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Cited by 2 publications

References 29 publications

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The Effect of High-Speed Steam Discharged from the Bypass Diffusers on Low-Pressure Turbine Blades

Chen,

Zhong,

Bai

et al. 2024

Processes

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Bypass diffusers are used to drain the excess steam generated in the steam generator in case of sudden load reduction or shutdown of the steam turbine. However, the steam at the orifice outlet with the high flow velocity may reverse into the space of last-stage blades and cause forced vibration of the turbine blades. For this study, a full-scale CFD calculation model which couples the last stage and the second-last stage with the bypass diffusers was constructed. The fluid dynamic characteristics of the high-speed steam discharged from the outlet of the bypass diffusers and the effect of steam on the last-stage rotating blades were analyzed comprehensively via both steady and transient numerical methods. The steady results show that the steam at the orifice outlet of the bypass diffusers presents a typical jet flow with some steam flowing back into the last-stage blades region through the exhaust of the cylinders. This results in a notable disturbance to the last-stage rotating blades, characterized by a non-uniform circumferential pressure distribution. The transient numerical simulation results reveal that the outlet mass flow rate of the steam from the second-last-stage stationary blades has a significant effect on both the Mach number distribution and the surface forces acting on the last-stage rotating blades. The higher outlet mass flow rate of the steam escalates the instability of the flow field. The difference in the Mach number at the same position can reach as high as 60% or more under different operating conditions. The forces acting on the last-stage rotating blades in different directions change periodically with time, and the magnitude and period of the variation correlate with the outlet mass flow rate of the steam.

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The Effect of High-Speed Steam Discharged from the Bypass Diffusers on Low-Pressure Turbine Blades

Chen,

Zhong,

Bai

et al. 2024

Processes

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Study on Part Clearance Flow Field for Variable Area LP Turbine Nozzle Vane using Different Turbulence Models

Bhavsar,

Mistry

2024

JGPP

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The part-load performance of the gas turbine engine can be improved in a Variable Cycle Engine (VCE) using variable geometry components. The Variable Area Nozzle Turbine (VANT) is one of the variable geometry components of the gas turbine engine that meets the power requirement at part load conditions by controlling the mass flow rate through the engine turbine section. However, the provision of the part clearances near the hub and casing endwall allows the leakage flow to occur. This leakage flow further increases the loss at the exit of the turbine nozzle vane. The provision of the pivot to hold the vane in endwalls creates a blockage to the leakage flow and changes the flow field of the turbine nozzle passage. As the operating Reynolds number of the LPT is of the order of 10 5 , flow experiences a transition between laminar and turbulent flow regimes. Hence, the present study is conducted with two different turbulent models, i.e., widely used SST k-ω and SST γ-Reθ, to analyze the part clearance flow field. The flow field is analyzed in the present study using streamlines plotted at different streamwise planes superimposed on non dimensional vorticity contours, and total pressure loss coefficient (Cpt) at the exit of the turbine nozzle vane.

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Effects of Flow Coefficient on Turbine Aerodynamic Performance and Loss Characteristics

Cited by 2 publications

References 29 publications

The Effect of High-Speed Steam Discharged from the Bypass Diffusers on Low-Pressure Turbine Blades

The Effect of High-Speed Steam Discharged from the Bypass Diffusers on Low-Pressure Turbine Blades

Study on Part Clearance Flow Field for Variable Area LP Turbine Nozzle Vane using Different Turbulence Models

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