초록 ▼

A subsurface formation petrophysical evaluation method including: determining formation porosity and permeability using a quantitative indication of formation composition; estimating water-filled formation resistivity using the formation porosity; associating differences between measured formation r

A subsurface formation petrophysical evaluation method including: determining formation porosity and permeability using a quantitative indication of formation composition; estimating water-filled formation resistivity using the formation porosity; associating differences between measured formation resistivity and estimated water saturated formation resistivity with the presence of subsurface hydrocarbons; and estimating irreducible formation water saturation using the formation porosity and the formation permeability. The invention further involves an apparatus adapted to carry out the inventive method. Other aspects of the invention involve making a plurality of different measurements of a subsurface formation, including measuring indicators of a plurality of absolute or relative formation elemental concentrations; processing the measurements to determine a plurality of parameters associated with the subsurface formation, and determining either net pay intervals or drilling parameters using these formation parameters and either interval acceptance criteria or desired wellbore criteria, respectively.

대표청구항 ▼

1. A subsurface formation petrophysical evaluation method comprising: determining formation porosity and permeability using a quantitative indication of formation composition; estimating water-filled formation resistivity using said formation porosity; associating differences between measured f

1. A subsurface formation petrophysical evaluation method comprising: determining formation porosity and permeability using a quantitative indication of formation composition; estimating water-filled formation resistivity using said formation porosity; associating differences between measured formation resistivity and said estimated water-filled formation resistivity with the presence of subsurface hydrocarbons; and estimating irreducible formation water saturation using said formation porosity and said formation permeability. 2. A subsurface formation petrophysical evaluation method according to claim 1, wherein said quantitative indication of formation composition is provided by spectroscopy measurements. 3. A subsurface formation petrophysical evaluation method according to claim 2, wherein formation elemental concentrations derived from said spectroscopy measurements are used to compute formation matrix density. 4. A subsurface formation petrophysical evaluation method according to claim 3, wherein elemental concentrations derived from said spectroscopy measurements are used to compute formation matrix neutron and/or formation matrix hydrogen index. 5. A subsurface formation petrophysical evaluation method according to claim 4, wherein formation porosity is determined by selecting corrected density porosity values in the absence of neutron/density cross-over and by averaging corrected neutron and density porosity values in the presence of neutron/density cross-over. 6. A subsurface formation petrophysical evaluation method according to claim 1, wherein said quantitative indication of formation composition includes an estimate of formation clay fraction. 7. A subsurface formation petrophysical evaluation method according to claim 6, wherein said estimate of formation clay fraction is computed using a plurality of elemental indicators. 8. A subsurface formation petrophysical evaluation method according to claim 1, wherein said water-filled formation resistivity is estimated also using said quantitative indication of formation composition. 9. A subsurface formation petrophysical evaluation method according to claim 1, wherein said determining formation porosity and permeability, estimating water saturated formation resistivity, associating differences between measured formation resistivity and estimated water saturated formation resistivity, and estimating irreducible formation water saturation are performed in real time. 10. A subsurface formation petrophysical evaluation method according to claim 9, wherein said determining formation porosity and permeability, estimating water saturated formation resistivity, associating differences between measured formation resistivity and estimated water saturated formation resistivity, and estimating irreducible formation water saturation are performed at a wellsite. 11. A subsurface formation petrophysical evaluation method according to claim 1, further including acquiring spectroscopy, density, neutron, and resistivity data. 12. A subsurface formation petrophysical evaluation method according to claim 1, wherein said water-filled formation resistivity is determined using one or more of the following conductivity models: Waxman-Smits-Thomas, Clavier-Coates-Dumanoir, Waxman-Smits-Gravestock, and Sen-Goode-Sibbit. 13. Apparatus for petrophysically evaluating a subsurface formation comprising: a spectroscopy device, a density device, a neutron device, a resistivity device, means for determining formation porosity, permeability, hydrocarbon/water saturation, and irreducible water saturation using measurements from said spectroscopy, density, neutron, and resistivity devices.