Add to ORKGThe time-space location of an advancing front has been described in such a manner as to permit the calculation of frontal pressures when a heterogeneous (in permeability) radial system is subjected to water encroachment. A finite difference application has been developed to calculate these pressures at specified radial distances from the injection or production wellbore. These pressure have been further utilized to predict the pressures at the advancing front for different time intervals --Abstract, page iii
Streamline simulation is a powerful tool that can be used for full field forecasting, history match...
The prediction of coning behavior at a producing oil well is one of the most difficult numerical sim...
The complex behavior exhibited by gas condensate reservoirs due to the existence of a two-phase syst...
Numerical simulation enables improved quantitative understanding of pressure diffusion phenomena in ...
This presentation consists of the application of empirical equations for the calculation of the wate...
The diffusivity equation for the transient flow of slightly-compressible liquids has been solved for...
Rapid modeling of multi-well interactions is extremely useful for infill drilling optimization and i...
A generalized mathematical model is described for the thermal recovery of oil in a radial system in ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Computational instability may occur in the mathematical simulation of hydrocarbon reservoirs when sm...
A three-phase, one-dimensional radially layered reservoir simulator is programmed for a large memory...
Non-Newtonian foam flow in a reservoir can be modeled numerically by discretization of the correspon...
The analysis of production from fractured Ultra-Low Permeability (ULP) reservoirs is routinely condu...
Coning phenomenon is an unfavourable experience and should be prevented by the predicting of control...
Injection/fall-off tests are one of the most promising alternatives to the conventional production/b...
Streamline simulation is a powerful tool that can be used for full field forecasting, history match...
The prediction of coning behavior at a producing oil well is one of the most difficult numerical sim...
The complex behavior exhibited by gas condensate reservoirs due to the existence of a two-phase syst...
Numerical simulation enables improved quantitative understanding of pressure diffusion phenomena in ...
This presentation consists of the application of empirical equations for the calculation of the wate...
The diffusivity equation for the transient flow of slightly-compressible liquids has been solved for...
Rapid modeling of multi-well interactions is extremely useful for infill drilling optimization and i...
A generalized mathematical model is described for the thermal recovery of oil in a radial system in ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Computational instability may occur in the mathematical simulation of hydrocarbon reservoirs when sm...
A three-phase, one-dimensional radially layered reservoir simulator is programmed for a large memory...
Non-Newtonian foam flow in a reservoir can be modeled numerically by discretization of the correspon...
The analysis of production from fractured Ultra-Low Permeability (ULP) reservoirs is routinely condu...
Coning phenomenon is an unfavourable experience and should be prevented by the predicting of control...
Injection/fall-off tests are one of the most promising alternatives to the conventional production/b...
Streamline simulation is a powerful tool that can be used for full field forecasting, history match...
The prediction of coning behavior at a producing oil well is one of the most difficult numerical sim...
The complex behavior exhibited by gas condensate reservoirs due to the existence of a two-phase syst...