Difference between revisions of "Gray correlation"
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[[Gray correlation|Gray]] is the default [[VLP]] correlation for the '''gas wells''' in the [[PQplot]]. | [[Gray correlation|Gray]] is the default [[VLP]] correlation for the '''gas wells''' in the [[PQplot]]. | ||
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+ | [[File: GRAY.png|thumb|500px|link=https://www.pengtools.com/pqPlot?paramsToken=d14638acea57a4523b4553153a5dcb5a|Gray in PQplot Vs Prosper & Kappa |right]] | ||
== Math & Physics == | == Math & Physics == | ||
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2. Use [[WCUT| watercut]] instead of [[WOR]] to account for the [[OGR]]=0 case. | 2. Use [[WCUT| watercut]] instead of [[WOR]] to account for the [[OGR]]=0 case. | ||
− | 3. If relative roughness > 0.05 use 0.05 in Moody Diagram <ref name = Moody1944/> | + | 3. If the relative roughness: <math> \frac{\varepsilon'}{D} > 0.05 </math> use 0.05 in the Moody Diagram <ref name = Moody1944/>. |
− | 4. If H<sub>L</sub> can't be calculated then H<sub>L<sub | + | 4. If H<sub>L</sub> can't be calculated then H<sub>L</sub> = C<sub>L</sub>. |
== Nomenclature == | == Nomenclature == | ||
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[[Category:pengtools]] | [[Category:pengtools]] | ||
[[Category:PQplot]] | [[Category:PQplot]] | ||
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+ | {{#seo: | ||
+ | |title=Gray correlation | ||
+ | |titlemode= replace | ||
+ | |keywords=Gray correlation | ||
+ | |description=Gray correlation is an empirical two-phase flow correlation published in 1974. | ||
+ | }} |
Latest revision as of 09:10, 6 December 2018
Contents
Brief
Gray is an empirical two-phase flow correlation published in 1974 [1].
Gray is the default VLP correlation for the gas wells in the PQplot.
Math & Physics
Following the law of conservation of energy the basic steady state flow equation is:
where
- , slip mixture density [1].
- , no-slip mixture density [1].
Colebrook–White [2] equation for the Darcy's friction factor:
The pseudo wall roughness:
- , with the limit [1]
Reynolds two phase number:
Discussion
Why Gray correlation?
The Gray correlation was found to be the best of several initially tested ...— Nitesh Kumar l[5]
Workflow Hg & CL
Modifications
1. Use Fanning correlation for the dry gas (WGR=0 and OGR=0 case).
2. Use watercut instead of WOR to account for the OGR=0 case.
3. If the relative roughness: use 0.05 in the Moody Diagram [3].
4. If HL can't be calculated then HL = CL.
Nomenclature
- = correlation group, dimensionless
- = flow area, ft2
- = correlation group, dimensionless
- = formation factor, bbl/stb
- = no-slip holdup factor, dimensionless
- = pipe diameter, ft
- = depth, ft
- = holdup factor, dimensionless
- = friction factor, dimensionless
- = gas-liquid ratio, scf/bbl
- = total mass of oil, water and gas associated with 1 bbl of liquid flowing into and out of the flow string, lbm/bbl
- = pipe diameter number, dimensionless
- = velocity number, dimensionless
- = pressure, psia
- = conversion constant equal to 32.174049, lbmft / lbfsec2
- = production rate, bbl/d
- = superficial liquid to gas ratio, dimensionless
- = Reynolds number, dimensionless
- = specific gravity, dimensionless
- = temperature, °R or °K, follow the subscript
- = velocity, ft/sec
- = water-oil ratio, bbl/bbl
- = gas compressibility factor, dimensionless
Greek symbols
- = absolute roughness, ft
- = pseudo wall roughness, ft
- = viscosity, cp
- = density, lbm/ft3
- = slip density, lbm/ft2
- = surface tension of liquid-air interface, dynes/cm
Subscripts
g = gas
K = °K
L = liquid
m = gas/liquid mixture
o = oil
R = °R
SL = superficial liquid
SG = superficial gas
w = water
References
- ↑ 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 Gray, H. E. (1974). "Vertical Flow Correlation in Gas Wells". User manual for API 14B, Subsurface controlled safety valve sizing computer program. API.
- ↑ Colebrook, C. F. (1938–1939). "Turbulent Flow in Pipes, With Particular Reference to the Transition Region Between the Smooth and Rough Pipe Laws". Journal of the Institution of Civil Engineers. London, England. 11: 133–156.
- ↑ 3.0 3.1 Moody, L. F. (1944). "Friction factors for pipe flow". Transactions of the ASME. 66 (8): 671–684.
- ↑ 4.0 4.1 Hagedorn, A. R.; Brown, K. E. (1965). "Experimental study of pressure gradients occurring during continuous two-phase flow in small-diameter vertical conduits". Journal of Petroleum Technology. 17(04): 475–484.
- ↑ Kumar, N.; Lea, J. F. (January 1, 2005). "Improvements for Flow Correlations for Gas Wells Experiencing Liquid Loading" (SPE-92049-MS).
- ↑ 6.0 6.1 6.2 Lyons, W.C. (1996). Standard handbook of petroleum and natural gas engineering. 2. Houston, TX: Gulf Professional Publishing. ISBN 0-88415-643-5.