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Process-Based Friction Factor for Pipe Flow
Process-Based Friction Factor for Pipe Flow
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摘要:
The Moody Diagram is widely used to determine the friction factor for fluid flow in pipes. The diagram combines the effects of Reynolds number and relative roughness to determine the friction factor. The relationship is highly non-linear and appears to have a complex interaction between viscous and boundary roughness effects. The Moody Diagram is based on predictions from an equation developed by Colebrook in 1939. The relationship requires an iteration process to make predictions. While empirical relationships have been developed that provide good predictions without an iteration process, no one has fully explained the cause for the observed results. The objective of this paper is to present a logical development for prediction of the friction factor. An equation has been developed that models the summed effect of both the laminar sublayer and the boundary roughness on the fluid profile and the resulting friction factor for pipes. The new equation does not require an iteration procedure to obtain values for the friction factor. Predicted results match well with values generated from Colebrook’s work that is expressed in the Moody Diagram. Predictions are within one percent of Colebrook values and generally less than 0.3 percent error from his values. The development provides insight to how processes operating at the boundary cause the friction factor to change.
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FRICTION
BOUNDARY
ROUGHNESS
TURBULENCE
PIPE
Flow
Moody
DIAGRAM
研究起点
研究来源
研究分支
研究去脉
引文网络交叉学科
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期刊影响力
流体动力学(英文)
主办单位:
美国科研出版社
出版周期:
季刊
ISSN:
2165-3852
CN:
开本:
出版地:
武汉市江夏区汤逊湖北路38号光谷总部空间
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出版文献量(篇)
302
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0
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0
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