Computational Fluid Dynamics Simulation of Fouling on Axial Compressor Stages

Three-dimensional numerical simulations of the effect of fouling on an axial compressor stage were carried out. As a case study, the NASA Stage 37 was considered for the numerical investigation, which was performed by means of a commercial computational fluid dynamic code. The numerical model was validated against the experimental data available from literature. Computed performance maps and main flow field features showed a good agreement with the experimental data. The model was considered representative of a realistic compressor stage. The model was then used to simulate the occurrence of fouling by imposing different combinations of added thickness and surface roughness levels. The effect of fouling on compressor performances was studied. Reductions in the flow coefficient and in the pressure coefficient were found to be of the same order of magnitude of the experimental results found in literature. The model developed seems to overcome some of the limitations of other models found in literature that tend to significantly underestimate the actual values of performance reduction. The numerical results were also used to analyze and debug the stage performance scaling procedure used in stage-stacking models in order to represent fouling in multistage compressors. The analysis highlighted that scaling can adequately represent the behavior of the fouled stage in the choked flow region, but it does not capture the reduction in the maximum of the pressure coefficient, which is instead revealed by the numerical simulations. Finally, blockage due to fouling was investigated both qualitatively and quantitatively.

[1]  David D. Apsley CFD Calculation of Turbulent Flow with Arbitrary Wall Roughness , 2007 .

[2]  Klaus Brun,et al.  Degradation Effects on Industrial Gas Turbines , 2009 .

[3]  Ernesto Benini,et al.  Aerodynamics of swept and leaned transonic compressor-rotors , 2007 .

[4]  H. Schlichting Boundary Layer Theory , 1955 .

[5]  Aristide Massardo An Analytical Method for the Fault Diagnosis of Axial Multistage Compressors , 1991 .

[6]  Ernesto Benini,et al.  Validation of a Navier-Stokes Solver for CFD Computations of Transonic Compressors , 2006 .

[7]  Meherwan P. Boyce,et al.  Modeling and Analysis of Gas Turbine Performance Deterioration , 1994 .

[8]  Widen Tabakoff,et al.  Simulation of Compressor Performance Deterioration Due to Erosion , 1990 .

[9]  K. Bammert,et al.  The Influence of the Blading Surface Roughness on the Aerodynamic Behavior and Characteristic of an Axial Compressor , 1980 .

[10]  Tom Hynes,et al.  Influence of Surface Roughness on Three-Dimensional Separation in Axial Compressors , 2004 .

[11]  H. I. H. Saravanamuttoo,et al.  Predicting Gas Turbine Performance Degradation Due to Compressor Fouling Using Computer Simulation Techniques , 1989 .

[12]  L. Reid,et al.  Design and overall performance of four highly loaded, high speed inlet stages for an advanced high-pressure-ratio core compressor , 1978 .

[13]  H. Schlichting,et al.  Experimental Investigation of the Problem of Surface Roughness , 1937 .

[14]  C. C. Koch,et al.  Loss Sources and Magnitudes in Axial-Flow Compressors , 1976 .

[15]  Asher Sigal,et al.  New correlation of roughness density effect on the turbulent boundary layer , 1990 .

[16]  Lars E. Bakken,et al.  Axial Compressor Deterioration Caused by Saltwater Ingestion , 2005 .

[17]  J. Nikuradse Laws of Flow in Rough Pipes , 1950 .

[18]  Lars E. Bakken,et al.  The Impact of Surface Roughness on Axial Compressor Performance Deterioration , 2006 .

[19]  H. I. H. Saravanamuttoo,et al.  A Proposed Method for Assessing the Susceptibility of Axial Compressors to Fouling , 1990 .

[20]  Michele Pinelli,et al.  Influence of Blade Deterioration on Compressor and Turbine Performance , 2010 .

[21]  A. R. Howell,et al.  Overall and Stage Characteristics of Axial-flow Compressors , 1950 .

[22]  Pier Ruggero Spina Gas Turbine Performance Prediction by Using Generalized Performance Curves of Compressor and Turbine Stages , 2002 .

[23]  W. B. Roberts,et al.  The effect of adding roughness and thickness to a transonic axial compressor rotor , 1994 .

[24]  Michele Pinelli,et al.  Numerical analyses of high Reynolds number flow of high pressure fuel gas through rough pipes , 2010 .

[25]  D. J. Marshall,et al.  Health Monitoring of Variable Geometry Gas Turbines for the Canadian Navy , 1989 .