Redirigiendo al acceso original de articulo en 17 segundos...
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.

 Artículos similares

       
 
Valeria Serrano-Núñez, Fernando Watson-Hernández, Isabel Guzmán-Arias, Laura Chavarría-Pizarro and Francisco Quesada-Alvarado    
When using numerical models for hydraulic simulations of rivers, calibration is key to be able to reflect accurately the interaction of water flow in the channel and to make it resemble what is observed. In this study, a calibrated two-dimensional hydrau... ver más
Revista: Hydrology

 
Jiaqi Guo, Lipan Cheng, Yongbiao Lai, Yongchao Tian and Lu Li    
The stability control of the surrounding rock is greatly influenced by the rock joint?s shear mechanical characteristics and deformation failure mechanism. A numerical model of the dentate joints was created using a particle flow discrete element method ... ver más
Revista: Buildings

 
Bo Sung Kim, O-il Kwon, Yong Hyuk Choi and Joon Kyu Lee    
Estimating the performance of foundations on rock mass is essential in designing buildings. Stability assessment of weathered rocks under foundation load is a complicated task if there is an internal opening within the foundation. This study applies fini... ver más
Revista: Buildings

 
Nicola Aldi, Nicola Casari, Michele Pinelli, Alessio Suman, Alessandro Vulpio, Ottavio Mantovani and Paolo Saccenti    
In industrial applications such as chemical plants, cement factories, and glassmakers, large-sized centrifugal fans are commonly used for dust-laden flow processing. In many cases, the contamination is due to solid particles responsible for fouling and e... ver más

 
Mustafa Alaskari, Arwa M. Kadhim, Ammar A. Farhan, Moustafa Al-Damook and Mansour Al Qubeissi    
Artificial roughness applied to a Solar Air Heater (SAH) absorber plate is a popular technique for increasing its total thermal efficiency (????-??h ? t - t h ). In this paper, the influence of geometrical parameters of V-down ribs attached below the cor... ver más