AIP Advances (Jun 2016)

Derivation and application of mathematical model for well test analysis with variable skin factor in hydrocarbon reservoirs

  • Pengcheng Liu,
  • Wenhui Li,
  • Jing Xia,
  • Yuwei Jiao,
  • Aifang Bie

DOI
https://doi.org/10.1063/1.4954997
Journal volume & issue
Vol. 6, no. 6
pp. 065324 – 065324-11

Abstract

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Skin factor is often regarded as a constant in most of the mathematical model for well test analysis in oilfields, but this is only a kind of simplified treatment with the actual skin factor changeable. This paper defined the average permeability of a damaged area as a function of time by using the definition of skin factor. Therefore a relationship between a variable skin factor and time was established. The variable skin factor derived was introduced into existing traditional models rather than using a constant skin factor, then, this newly derived mathematical model for well test analysis considering variable skin factor was solved by Laplace transform. The dimensionless wellbore pressure and its derivative changed with dimensionless time were plotted with double logarithm and these plots can be used for type curve fitting. The effects of all the parameters in the expression of variable skin factor were analyzed based on the dimensionless wellbore pressure and its derivative. Finally, actual well testing data were used to fit the type curves developed which validates the applicability of the mathematical model from Sheng-2 Block, Shengli Oilfield, China.