Difference between revisions of "Beggs and Robinson Oil Viscosity correlation"

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(References)
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=== References ===
 
=== References ===
 
<references>
 
<references>
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<ref name=BB1975>{{cite journal
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|last1=Beggs|first1=H. D.
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|last2= Robinson |first2=J. R.
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|title=Estimating the Viscosity of Crude Oil Systems
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|journal=Journal of Petroleum Technology
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|number=SPE-5434-PA
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|date=September 1975
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|volume=27(09)
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|url=https://www.onepetro.org/journal-paper/SPE-5434-PA
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|url-access=registration
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}}</ref>
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<ref name={Beggs - Robinson}>
 
<ref name={Beggs - Robinson}>
 
{{cite journal
 
{{cite journal

Revision as of 15:30, 24 July 2017

Brief

Beggs - Robinson correlation is an empirical correlation for oil viscosity published in 1975 .

Math & Physics

Dead oil viscosity:

\mu_{od} = 10^X-1[1]

where:

A0 = -1.163
A1 = 13.108
A2 = 6.591

X = T^{A_0} \times e^{A_1-A_2/SG_{o}}

Saturated oil viscosity:

\mu_{os} =  \alpha1 \mu^{\alpha2}_{od}

where:

B0 = 10.715
B1 = 5.615
B2 = 0.515

 \alpha1 = B_0 * (B_1 * R + 100)^B2)

C0 = 5.44
C1 = 5.615
C2 = 0.338

 \alpha2 = C_0 * pow(C_1 * R + 150, -C_3)

Discussion

Workflow

Application range

Nomenclature

 A_0..A_{2} = coefficients
 B_0..B_{2} = coefficients
 C_0..C_{2} = coefficients
 P = pressure, MPA
 P_{bp} = bubble point pressure, MPA
 R_s = oil gas ration, m3/m3
 SG_g = gas specific gravity, dimensionless
 T = temperature, °R
 Y_{oil_API} = oil API gravity, dimensionless

References

  1. Vazquez, M.; Beggs, H.D. (1980). "Correlations for Fluid Physical Property Prediction."Free registration required. Society of Petroleum Engineers (SPE-6719-PA). 

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