Abstract
Abstract The aim of this work is to study the effects of the compressor blade roughness on the Off-Design performance of a microturbine. Compressor fouling is the most important factor of gas turbines performance deterioration and its main effect is compressor blade roughness growth. Hence understanding of microturbine behavior in case of blade roughness increment is an important step in gas turbine’s health monitoring. In current study a model is presented to simulate Off-Design performance of a Microturbine. The model is validated against experimental data. Characteristic map of a radial compressor in clean state and three different surface roughness has been employed in mentioned Off-Design model to calculate Effects of roughness growth on microturbine performance and determine sensitive parameters. This simulation’s results show blade roughness increment induces new condition which improves recuperator performance and micro turbine thermal efficiency in constant speed. But in this condition turbine inlet temperature is raised and exceeded from allowed temperature. So allowable output power fall significantly (about 8%). Results show that in constant power, combustion chamber inlet temperature with 2.8% and turbine exhaust temperature with 2.7% rise are most sensitive parameters to roughness changes while compressor discharge temperature has negligible sensitivity to roughness increment.
Published Version
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