Difference between revisions of "Gilbert choke equation"
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+ | <div style='text-align: right;'>By Mikhail Tuzovskiy on {{REVISIONTIMESTAMP}}</div> | ||
__TOC__ | __TOC__ | ||
==Brief== | ==Brief== | ||
− | The most common formula used for multiphase flow through surface chokes by Gilbert <ref name=Gilbert/>. | + | The most common formula used for multiphase flow through surface chokes developed by '''Gilbert''' in 1954<ref name=Gilbert/>. |
Gilbert developed his empirical equation from field data in California<ref name=KermitBrown1984/>. | Gilbert developed his empirical equation from field data in California<ref name=KermitBrown1984/>. | ||
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:<math>P_{wh}=\frac{435 \times GLR^{0.546}}{D^{1.89}} \times q</math> | :<math>P_{wh}=\frac{435 \times GLR^{0.546}}{D^{1.89}} \times q</math> | ||
− | Note that the equation is independent of the downstream pressure and assumes that the downstream pressure is less than 70% of the upstream pressure, i.e. the flow is "critical" i.e. fluid reach sonic velocity in the throat of the choke. | + | Note that the equation is independent of the downstream pressure and assumes that the downstream pressure is less than 70% of the upstream pressure, i.e. the flow is "critical" i.e. fluid reach sonic velocity in the throat of the choke<ref name=Economides/>. |
==Example== | ==Example== | ||
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|place=Tulsa, Oklahoma | |place=Tulsa, Oklahoma | ||
}}</ref> | }}</ref> | ||
− | + | <ref name=Economides>{{cite book | |
+ | |last1= Economides |first1=M.J. | ||
+ | |last2= Hill |first2=A.D. | ||
+ | |last3= Economides |first3=C.E. | ||
+ | |last4= Zhu |first4=D. | ||
+ | |title=Petroleum Production Systems | ||
+ | |edition=2 | ||
+ | |date=2013 | ||
+ | |publisher=Prentice Hall | ||
+ | |place=Westford, Massachusetts | ||
+ | |isbn=978-0-13-703158-0 | ||
+ | }}</ref> | ||
</references> | </references> | ||
Latest revision as of 19:10, 8 November 2024
By Mikhail Tuzovskiy on 20241108191031
Contents
Brief
The most common formula used for multiphase flow through surface chokes developed by Gilbert in 1954[1].
Gilbert developed his empirical equation from field data in California[2].
Math and Physics
Note that the equation is independent of the downstream pressure and assumes that the downstream pressure is less than 70% of the upstream pressure, i.e. the flow is "critical" i.e. fluid reach sonic velocity in the throat of the choke[3].
Example
Given data
Oil rate = 600 bbl/d, GLR=400 scf/bbl, D=22/64 in, Line pressure = 180 psia
Calculate the well head pressure?
Solution
Validity check 180/474.7=0.38 < 0.7 OK
Nomenclature
- = choke beam diametr, 64th of an inch
- = gas liquid ratio, Mscf/bbl or 10^3 scf/bbl
- = well head pressure, psig
- = liquid flow rate, bbl/d
References
- ↑ Gilbert, W.E. (1954). Flowing and Gas-Lift Well Performance. Drilling and Production Practice API. p. 143.
- ↑ Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. Tulsa, Oklahoma: PennWellBookss.
- ↑ Economides, M.J.; Hill, A.D.; Economides, C.E.; Zhu, D. (2013). Petroleum Production Systems (2 ed.). Westford, Massachusetts: Prentice Hall. ISBN 978-0-13-703158-0.