Aerodynamic Studies in the Static Components of A Centrifugal Compressor Stage

Authors

  • K. Srinivasa Reddy Department of Mechanical Engineering, Aurora’s Engineering College, Bhongir, Nalgonda district, India
  • G.V. Ramana Murty Department of Mechanical Engineering, Vasavi College of Engineering, Ibrahimbagh, Hyderabad, India
  • K.V. Sharma Faculty of Mechanical Engineering, Universiti Malaysia Pahang, 26300 UMP, Kuantan, Pahang, Malaysia

DOI:

https://doi.org/10.15282/jmes.1.2011.7.0007%20%20

Keywords:

Return channel vanes; total pressure loss coefficient; static pressure recovery coefficient; vane surface static pressure coefficient; swirl angle.

Abstract

Aerodynamic studies in the static components of a centrifugal compressor stage were conducted using the computational fluid  dynamics solver FLUENT. For the simulation study, a typical centrifugal compressor stage geometry with a flow coefficient of 0.053 was chosen, The study is confined to the static components of the centrifugal compressor stage, i.e., the crossover bend (180° U-bend), a radial cascade of return channel vanes, and the exit ducting (90° L-turn). The aerodynamic performance is reported in terms of total pressure loss coefficient, static pressure recovery coefficient, return channel vane surface static pressure distribution, and stage exit swirl angle distribution. The simulated flow through the static components covered five different operating conditions of the actual  centrifugal compressor stage: the design point with 100% flow rate, and the off-design operating conditions with 70%, 80%, 110%, and 120% flow rates. The standard k-ε model was used with standard wall functions to predict the turbulence. A minimum total pressure loss coefficient was observed near 80% flow rate when the average flow angle at the U-bend inlet was 24°. Better static pressure  recovery was observed with 70%, 80%, and 100% flow rates. The swirl angle distribution at the stage exit was recognized as satisfactory.

References

Aungier, R. H. (1993). Aerodynamic design and analysis of vaneless diffusers and return channels. ASME, Paper No. 93-GT-101.

Aungier, R. H. (2000). Centrifugal compressors. New York: ASME Press.

Inoue, Y., & Koizumi, T. (1983). Experimental study on flow patterns and losses in return passages for centrifugal compressor. ASME Fluids engineering division, 3, 13-21.

Lenke, L. J., & Simon, H. (2000). Aerodynamic analysis of return channels of multistage centrifugal compressors. ASME PID-Vol. 5, Challenges and Goals in Industrial and Pipeline Compressors.

Lüdtke, K. H. (2004). Process centrifugal compressors. Berlin: Springer.

Oh, J. M., Engeda, A., & Chung, M. K. (2005). A numerical study of the U-turn bend in return channel systems for multistage centrifugal compressors. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 219(8), 749-756.

Reddy K. S., Murty, G. V. R., Dasgupta, A., & Sharma, K. V. (2010). Flow investigations in the crossover system of a centrifugal compressor stage. International Journal of Fluid Machinery and Systems, 3(1), 11-19.

Simon, H., & Rothstein, E. (1983). On the development of return passages of multistage centrifugal compressors. ASME Fluids Engineering Division, Return Passages of Multistage Turbo machinery, 3, 1-11.

Siva Reddy, T. C., Ramana Murty, G. V., Prasad, M. V. S. S. S. M., & Reddy, D. N. (2003). Theoretical and experimental studies on low solidity Vaned diffusers of a centrifugal compressor stage. Proceedings of 30th National Conference on Fluid Mechanics and Fluid Power, December 11-13, NIT, Surathkal, India, pp. 621-628.

Toyokura, T., Kanemoto, T., & Hatta, M. (1986). Studies on circular cascades for return channels of centrifugal turbomachinery. Bulletin of JSME, 29(255), 2885-2892.

Veress, A., & Braembussche, R. V. (2004). Inverse design and optimization of a return channel for a multistage centrifugal compressor. ASME, Journal of Fluids Engineering, 126(5), 799-806.

Downloads

Published

2011-12-31

How to Cite

[1]
K. . Srinivasa Reddy, G. . Ramana Murty, and K. . Sharma, “Aerodynamic Studies in the Static Components of A Centrifugal Compressor Stage”, J. Mech. Eng. Sci., vol. 1, no. 1, pp. 75–86, Dec. 2011.

Issue

Section

Article

Similar Articles

<< < 18 19 20 21 22 23 24 25 26 27 > >> 

You may also start an advanced similarity search for this article.