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Full similarity solutions for momentum and energy boundary layers in power law non-Newtonian fluids
Zheng Liancun 1 * #,Zhang Xinxin 2,He Jicheng 3
1.Department of Mathematics and Mechanics, University of Science and Technology Beijing
2.Mechanical Engineering School, University of Science and Technology Beijing
3.Thermal Engineering Department- Northeastern University
*Correspondence author
#Submitted by
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Funding: none
Opened online:26 October 2003
Accepted by: none
Citation: Zheng Liancun,Zhang Xinxin,He Jicheng.Full similarity solutions for momentum and energy boundary layers in power law non-Newtonian fluids[OL]. [26 October 2003] http://en.paper.edu.cn/en_releasepaper/content/21
 
 
A theoretical analysis for momentum and energy boundary layer transfer behavior in power law non-Newtonian fluids is made. The types of potential flows necessary for similar solutions are determined and the full similarity equations for both momentum and energy boundary layer are developed which may be characterized by a power law relationship between shear stress and velocity gradient with the Falkner-Skan equation as a special case. Furthermore, the numerical solutions are presented and the associated transfer behavior is discussed.
Keywords:Power law fluid, boundary layer, heat transfer, similarity solutions.
 
 
 

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