Gene expression programming analysis of implicit colebrook-white equation in turbulent flow friction factor calculation
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- @Article{Samadianfard2012,
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author = "Saeed Samadianfard",
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title = "Gene expression programming analysis of implicit
colebrook-white equation in turbulent flow friction
factor calculation",
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journal = "Journal of Petroleum Science and Engineering",
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volume = "92-93",
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pages = "48--55",
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year = "2012",
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ISSN = "0920-4105",
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DOI = "doi:10.1016/j.petrol.2012.06.005",
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URL = "http://www.sciencedirect.com/science/article/pii/S0920410512001477?v=s5",
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keywords = "genetic algorithms, genetic programming, Gene
expression programming, Approximations, Colebrook-White
friction factor, Darcy-Weisbach equation, Turbulent
flow",
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abstract = "Estimating head losses due to friction in closed pipes
is an important task in the solution of many practical
problems in the different branches of the engineering
profession. The hydraulic design and analysis of water
distribution systems are two prime examples. Many
consider the Darcy-Weisbach equation to be the most
fundamentally sound method for evaluating head losses
due to friction in closed pipe conduits. The implicit
Colebrook-White equation has been widely used to
estimate the friction factor for turbulent fluid-flow
in Darcy-Weisbach equation. A fast, accurate, and
robust resolution of the Colebrook-White equation is,
in particular, necessary for scientific intensive
computations. For instance, numerical simulations of
pipe flows require the computation of the friction
coefficient at each grid point and for each time step.
For long-term simulations of long pipes, the
Colebrook-White equation must therefore be solved a
huge number of times and hence this is the main reason
for attempting to develop an accurate explicit
relationship that is a reasonable approximation for the
Colebrook-White equation. This paper examines the
potential of genetic programming (GP) based technique
in estimating flow friction factor in comparison with
the most currently available explicit alternatives to
the Colebrook-White equation. The performance of the
gene expression programming (GEP), a variant of GP, was
compared with most available approximations using some
statistic parameters for error estimation. The
comparison test results reveal that by using GEP, the
friction factor can be identified precisely.",
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notes = "See comment on in \cite{Vatankhah:2014:JPSE}",
- }
Genetic Programming entries for
Saeed Samadianfard
Citations