Difference between revisions of "141.2 derivation"
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'''141.2''' is the well know constant which is used for converting from the [[Darcy's law]] units to the field units in the well's inflow equations. | '''141.2''' is the well know constant which is used for converting from the [[Darcy's law]] units to the field units in the well's inflow equations. | ||
− | For example Darcy's law for the single-phase flow is as follows<ref name=KermitBrown/>: | + | For example [[Darcy's law]] for the single-phase flow is as follows<ref name=KermitBrown/>: |
:<math> q_o = \frac{1}{141.2} \times \frac{k_oh}{B_o\mu_o} \times \Delta P \times J_D = 7.08 \times 10^-3 \times \frac{k_oh}{B_o\mu_o} \times \Delta P \times J_D</math> | :<math> q_o = \frac{1}{141.2} \times \frac{k_oh}{B_o\mu_o} \times \Delta P \times J_D = 7.08 \times 10^-3 \times \frac{k_oh}{B_o\mu_o} \times \Delta P \times J_D</math> | ||
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Converting to the field units: | Converting to the field units: | ||
− | :<math> \frac{[cm^3] \frac{[ft^3]}{[30.48^3 cm^3]} \frac{[bbl]}{[5.61458333 ft^3]} }{[sec] \frac{[day]}{[86400 sec]}} = - \frac{[D] \frac{[1000 mD]}{[D]}[cm^2] \frac{[ft^2]}{[30.48^2 cm]}}{[cP]} \frac{[atm] \frac{[14.695950253959 psia]}{[atm]}}{[cm] \frac{[ft]}{[30.48 cm]}}</math> | + | :<math> \frac{[cm^3] \frac{[ft^3]}{[30.48^3 cm^3]} \frac{[bbl]}{[5.61458333 ft^3]} }{[sec] \frac{[day]}{[86400 sec]}} = - \frac{[D] \frac{[1000 mD]}{[D]}[cm^2] \frac{[ft^2]}{[30.48^2 cm^2]}}{[cP]} \frac{[atm] \frac{[14.695950253959 psia]}{[atm]}}{[cm] \frac{[ft]}{[30.48 cm]}}</math> |
So: | So: | ||
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:<math> \frac{1}{C_{RF}} = \frac{1}{141.20546964} = 7.08E-03 </math> | :<math> \frac{1}{C_{RF}} = \frac{1}{141.20546964} = 7.08E-03 </math> | ||
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== Nomenclature == | == Nomenclature == | ||
− | :<math> | + | :<math> A </math> = [[Darcy's law]] cross-sectional area, cm<sup>2</sup> |
:<math> B_o </math> = oil formation volume factor, bbl/stb | :<math> B_o </math> = oil formation volume factor, bbl/stb | ||
− | :<math> C_{LF} </math> = linear flow | + | :<math> C_{LF} </math> = linear flow units conversion constant |
− | :<math> C_{RF} </math> = radial flow | + | :<math> C_{RF} </math> = radial flow units conversion constant |
:<math> h</math> = effective feet of oil pay, ft | :<math> h</math> = effective feet of oil pay, ft | ||
:<math> J_D </math> = dimensionless productivity index, dimensionless | :<math> J_D </math> = dimensionless productivity index, dimensionless | ||
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:<math> \mu </math> = [[Darcy's law]] oil viscosity, cp | :<math> \mu </math> = [[Darcy's law]] oil viscosity, cp | ||
:<math> \mu_o </math> = oil viscosity, cp | :<math> \mu_o </math> = oil viscosity, cp | ||
+ | |||
+ | ==See Also== | ||
+ | [[Darcy's law]]<BR/> | ||
+ | [[141.2 derivation]]<BR/> | ||
+ | [[18.41 derivation]] | ||
==References== | ==References== | ||
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[[Category:Technology]] | [[Category:Technology]] | ||
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+ | {{#seo: | ||
+ | |title=141.2 derivation | ||
+ | |titlemode= replace | ||
+ | |keywords=141.2 derivation | ||
+ | |description=141.2 derivation is the well know constant which is used for converting from the Darcy's law units to the field units in the well's inflow equations. | ||
+ | }} | ||
+ | <div style='text-align: right;'>By Mikhail Tuzovskiy on {{REVISIONTIMESTAMP}}</div> |
Latest revision as of 12:33, 12 July 2023
Brief
141.2 is the well know constant which is used for converting from the Darcy's law units to the field units in the well's inflow equations.
For example Darcy's law for the single-phase flow is as follows[1]:
The derivation of the 141.2 constant is given below.
Math and Physics
In Darcy's units:
Converting to the field units:
So:
And:
where
For the radial flow:
One can be familiar with the inverse of the 141.2 constant:
Nomenclature
- = Darcy's law cross-sectional area, cm2
- = oil formation volume factor, bbl/stb
- = linear flow units conversion constant
- = radial flow units conversion constant
- = effective feet of oil pay, ft
- = dimensionless productivity index, dimensionless
- = Darcy's law permeability, d
- = effective permeability to oil, md
- = Darcy's law length, cm
- = Darcy's law pressure, atm
- = drawdown, psia
- = Darcy's law flow rate, cm3/sec
- = oil flow rate, stb/d
Greek symbols
- = Darcy's law oil viscosity, cp
- = oil viscosity, cp
See Also
Darcy's law
141.2 derivation
18.41 derivation
References
- ↑ Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. 4. Tulsa, Oklahoma: PennWellBooks.
By Mikhail Tuzovskiy on 20230712123301