
Design of a welltest for determining two-phase hydraulic properties
Author(s) -
Stefan Finsterle
Publication year - 1995
Language(s) - English
Resource type - Reports
DOI - 10.2172/90684
Subject(s) - relative permeability , permeability (electromagnetism) , test data , sequence (biology) , computer science , porosity , algorithm , mathematics , engineering , geotechnical engineering , chemistry , biochemistry , membrane , programming language
This report describes the design of a well test to determine two-phase hydraulic properties of a low permeability, low porosity formation. Estimation of gas-related parameters in such formations is difficult using standard pumping tests mainly because of the strong fluctuations in the pressure and flow rate data which are a consequence of gas bubbles evolving in the test interval. Even more important is the fact that the data do not allow distinguishing among alternative conceptual models. The estimated parameters are therefore uncertain, highly correlated, and ambiguous. In this study we examine a test sequence that could be appended to a standard hydraulic testing program. It is shown that performing a series of water and gas injection tests significantly reduces parameter correlations, thus decreasing the estimation error. Moreover, the extended test sequence makes possible the identification of the model that describes relative permeabilities and capillary pressures. This requires, however, that data of high accuracy are collected under controlled test conditions. The purpose of this report is to describe the modeling approach, assumptions and limitations of the procedure, and to provide practical recommendations for future testing