## Abstract

Production data from most fractured-horizontal wells in gas and liquid-rich unconventional reservoirs plot as straight lines with a one half slope on a log-log plot of rate versus time. This production signature (half slope) is identical to that expected from a one-dimensional linear flow from reservoir matrix to the fracture face, when production occurs at constant-bottomhole pressure. In addition, microseismic data obtained around these fractured wells suggest that an area of enhanced permeability is developed around the horizontal well, and outside this region is an undisturbed part of the reservoir with low permeability. Based on these observations geoscientists have, in general, adopted the conceptual double-porosity model in modeling production from fractured horizontal wells in unconventional reservoirs. The analytical solution to this mathematical model exists in Laplace space but it cannot be inverted back to real-time space without using a numerical inversion algorithm. We present a new approximate analytical solution to the double-porosity model in real-time space and its use in modeling and forecasting production from unconventional-oil reservoirs. The first step in developing the approximate solution was to convert the systems of partial differential equations for the dual-porosity model into a system of ordinary-differential equations. After which we developed a function that gives the relationship between the average pressures in the high-and the low-permeability regions. Using this relationship, the system of ordinary differential equations was solved and used to obtain a rate/time function that can be used to predict oil production from unconventional reservoirs. The approximate solution was validated with numerical reservoir simulation. We then performed a sensitivity analysis on the model parameters to understand how the model behaves. Once the model was validated and tested, we applied it to field production data by partially history matching and forecasting the expected ultimate recovery. The rate/time function fits production data and also yields realistic estimates of ultimate oil recovery. We also investigated the existence of any correlation between the model-derived parameters and available reservoir and well completion parameters.

Original language | English (US) |
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Title of host publication | Society of Petroleum Engineers Eastern Regional Meeting 2014 |

Subtitle of host publication | Ramping up in Appalachia |

Publisher | Society of Petroleum Engineers (SPE) |

Pages | 357-381 |

Number of pages | 25 |

Volume | 2014-January |

Edition | January |

State | Published - 2014 |

Externally published | Yes |

Event | Society of Petroleum Engineers Eastern Regional Meeting 2014: Ramping up in Appalachia - Charleston, United States Duration: Oct 21 2014 → Oct 23 2014 |

### Other

Other | Society of Petroleum Engineers Eastern Regional Meeting 2014: Ramping up in Appalachia |
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Country/Territory | United States |

City | Charleston |

Period | 10/21/14 → 10/23/14 |

## ASJC Scopus subject areas

- Engineering(all)