The prime aim of oil and gas industry, during reservoir exploration is knowing the
performance of wells. A method for calculating well performance is critical for achieving
this aim. The Inflow Performance Relationship (IPR) describes the behavior of the well’s
flowing pressure and production rate, which is assumed to be proportional. In addition,
the knowledge of Inflow Performance Relationship will provide essential information for
well performance evaluation and optimization. Therefore, this study aims at establishing
a technique for calculating the total composite inflow performance relationship (IPR) for
multi-layer wells. For single phase oil flow, production rate is directly proportional to
pressure drawdown and therefore the IPR curve is a straight line. Several empirical
relations have been proposed in the literature to predict the performance of oil wells
producing with two layers flow conditions. However, these relationships are empirical
and limited in application.
The use of Vogel’s model for computation of IPR curve has been widely used. Therefore,
in this study, Vogel’s model is employed to determine the inflow performance
relationship of every layer of well. Well data are sythesized with descretion within
reasonable well conditions constituting bottom hole pressure, as well as maximum flow
rate.Sensitivity analysis was also conducted for optimum tubing diameter. Thereafter,
those parameters were computed to generat drawdown and flowrate data,with which IPR
curves were plotted using excel. The results show high consistency with vogel’s model.