ARTÍCULO
TITULO

Numerical Determination of the Equivalent Sand Roughness of a Turbopump?s Surface and Its Roughness Influence on the Pump Characteristics

Benjamin Torner    
Duc Viet Duong and Frank-Hendrik Wurm    

Resumen

The correct computation of flows over rough surfaces in technical systems, such as in turbomachines, is a significant issue for proper simulations of their performance data. Once the flow over rough surfaces is adequately computed in these machines, simulations become more trustworthy and can replace experimental prototyping. Roughness modelling approaches are often implemented in a solver to account for roughness effects in flow simulations. In these approaches, the equivalent sand roughness ???? k s must be defined as a characteristic parameter of the rough surface. However, it is difficult to determine the corresponding ???? k s -value for a surface roughness. In this context, this paper shows a novel and time-efficient numerical method, the discrete porosity method (DPM), which can be used to determine the ???? k s -value of a rough surface. Applying this method, channel flow simulations were performed with an irregularly distributed cast iron surface from a turbopumps volute. After identifying the fully rough regime, the equivalent sand roughness was determined and a match with ???? k s -values from literature data was found. Subsequently, the established ???? k s -value for cast iron was used in a turbopump simulation with rough walls. The performance data of the pump were validated by experiments and a good agreement between the experimental and simulated performance data was found.

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