On Rotor-Blade Deterioration and Pressure Losses in a Gas-Turbine Plant

Discovery and Innovation Pub Date : 2009-11-25 DOI:10.4314/DAI.V21I1-2.48189
Bt Lebele-Alawa
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Abstract

Sustenance of rotor-blade design shape is fundamental to the gas-turbine compressor performance. Blade deterioration causes adverse pressure gradient which imposes unfavourable force on the boundary layer, resulting in aerodynamic losses. This paper investigates the relationship between rotor-blade deterioration and pressure losses in a gas-turbine plant. This was achieved by measuring certain performance characteristics of an operational gas-turbine. Corresponding theoretical predictions were obtained from computer simulations. Rotor-blade deterioration result in 1.2 percent drop in pressure ratio across the compressor, with a corresponding drop in isentropic efficiency from 0.83 to 0.72.
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燃气轮机装置动叶劣化与压力损失研究
维持转子叶片的设计形状是燃气轮机压气机性能的基础。叶片劣化导致不利的压力梯度,对边界层施加不利的力,导致气动损失。本文研究了某燃气轮机装置动叶劣化与压力损失的关系。这是通过测量运行中的燃气轮机的某些性能特征来实现的。通过计算机模拟得到了相应的理论预测。动叶劣化导致压气机压比下降1.2%,等熵效率从0.83下降到0.72。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Discovery and Innovation
Discovery and Innovation
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