Difference between revisions of "Dranchuk correlation"
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To solve the [[Dranchuk correlation| Dranchuk]] equation use the iterative secant method. | To solve the [[Dranchuk correlation| Dranchuk]] equation use the iterative secant method. | ||
− | To find the pseudo critical properties given the gas specific gravity | + | To find the pseudo critical properties given the gas specific gravity <ref name=Standing&Katz />: |
:<math> P_{pc} = 4.6+0.1\ SG_g-0.258\ SG^2_g</math> | :<math> P_{pc} = 4.6+0.1\ SG_g-0.258\ SG^2_g</math> |
Revision as of 13:45, 25 April 2017
Contents
Brief
Dranchuk correlation is the fitting equation of the classic Standing and Katz [1] gas compressibility factor correlation.
Math & Physics
A1 = 0.3265
A2 = –1.0700
A3 = –0.5339
A4 = 0.01569
A5 = –0.05165
A6 = 0.5475
A7 = –0.7361
A8 = 0.1844
A9 = 0.1056
A10 = 0.6134
A11 = 0.7210
where:
Discussion
Why Dranchuk correlation?
It's classics!— www.pengtools.com
Workflow
To solve the Dranchuk equation use the iterative secant method.
To find the pseudo critical properties given the gas specific gravity [1]:
Application range
Nomenclature
- = coefficients
- = reduced density, dimensionless
- = pressure, psia
- = pseudo critical pressure, psia
- = pseudoreduced pressure, dimensionless
- = gas specific gravity, dimensionless
- = temperature, °R
- = pseudo critical temperature, °R
- = pseudoreduced temperature, dimensionless
- = gas compressibility factor, dimensionless
References
- ↑ 1.0 1.1 Standing, M. B.; Katz, D. L. (December 1942). "Density of Natural Gases". Transactions of the AIME. Society of Petroleum Engineers. 146 (SPE-942140-G).
- ↑ 2.0 2.1 2.2 Dranchuk, P. M.; Abou-Kassem, H. (July 1975). "Calculation of Z Factors For Natural Gases Using Equations of State". The Journal of Canadian Petroleum. 14 (PETSOC-75-03-03).