Numerical analysis of hydrodynamic bearings using CIP method

2002 ◽  
Vol 2002.15 (0) ◽  
pp. 425-426
Author(s):  
Yousuke Watanabe ◽  
Yasuhiko Asaida ◽  
Takashi Yabe
Keyword(s):  
Numerical Analysis ◽  
Cip Method ◽  
Hydrodynamic Bearings

Numerical Analysis of Sharp Turn of a Killifish by the CIP Method

2002 ◽  
Vol 2002.15 (0) ◽  
pp. 423-424
Author(s):  
Kei WATAJI ◽  
Kazuki NAITO ◽  
Youichi OGATA ◽  
Takashi YABE
Keyword(s):  
Numerical Analysis ◽  
Cip Method ◽  
Sharp Turn

H32 Numerical analysis of microcavity in hydrodynamic lubrication with CIP method

2008 ◽  
Vol 2008.61 (0) ◽  
pp. 261-262
Author(s):  
Tsuyoshi URAMATSU ◽  
Hiroyoshi TANAKA ◽  
Joichi SUGIMURA
Keyword(s):  
Numerical Analysis ◽  
Hydrodynamic Lubrication ◽  
Cip Method

Numerical Analysis of Continuous Laser-Driving under Low Pressure Using CIP Method

2003 ◽  
Vol 2003.1 (0) ◽  
pp. 11-12
Author(s):  
Masashi SAKATA ◽  
Takashi YABE ◽  
Ryo NAKAGAWA ◽  
Masashi YAMAGUCHI ◽  
Choijil BAASANDASH ◽  
...  
Keyword(s):  
Numerical Analysis ◽  
Low Pressure ◽  
Cip Method ◽  
Continuous Laser

Numerical Analysis on the Effects of Cavity Geometry with Heat towards Contaminant Removal

2013 ◽  
Vol 393 ◽  
pp. 851-856 ◽  
Author(s):  
Mohd Noor Asril Saadun ◽  
C.S. Nor Azwadi ◽  
M.N. Hazwani ◽  
Mohamad Shukri Zakaria ◽  
Muhammad Zaidan Abdul Manaf ◽  
...  
Keyword(s):  
Heat Transfer ◽  
Numerical Analysis ◽  
Flow Field ◽  
Computational Analysis ◽  
Fluid Dynamic ◽  
Piping System ◽  
Contaminant Removal ◽  
Cip Method ◽  
Buoyancy Effect ◽  
Cavity Shape

Contaminants are recently discovered at the joint of large piping system and causing defect to industrial product. A computational analysis can be used as a solution of the hydrodynamic contaminant removal without any modification needed. In this paper, the effect of heat is introduced to analyze the heat transfer and flow field in a channel with cavity heated at the bottom sides coupled with different shape of cavity. The cavity shape used comes with three shapes i.e. square, triangle and semicircle. The process of fluid dynamic in a cavity is modeled via numerical solution of the NavierStokes equations using Cubic Interpolated Profile (CIP) method. By using the simulation of hydrodynamic contaminant removal, the flow of streamlines and vortices pattern was investigated in the cavities. In order to remove all of the contaminant, hydrodynamic need to take part in this simulation which is flow from the inlet of the channel and create vortices to remove it from the cavities. The result shows that the percentage of contaminant removal is higher for semicircle cavity with higher Grashof number. The result also indicates that vortices formation is highly dependent on the cavity geometry and creates a buoyancy effect.

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