Role of petrophysicist

Petrophysics emphasizes those properties relating to the pore system and its fluid distribution and flow characteristics. These properties and their relationships are used to identify and evaluate:

·         Hydrocarbon reservoirs

·         Hydrocarbon sources

·         Seals

·         Aquifers

The petrophysicist or petrophysical engineer practices the science of petrophysics as a member of the reservoir management team. The petrophysicist provides answers on products needed and used by team members, as well as physical and chemical insights needed by other teammates.

The reservoir and fluid characteristics to be determined are:

·         Thickness (bed boundaries)

·         Lithology (rock type)

·         Porosity

·         Fluid saturations and pressures

·         Fluid identification and characterization

·         Permeability (absolute)

·         Fractional flow (oil, gas, water)

It is easy to define these characteristics and to appreciate their part in the assessment of reserves. The difficult part comes in determining their actual value at a level of certainty needed to make economic decisions leading to development and production. The seven characteristics listed are interdependent (i.e., to properly determine porosity from a wireline log, one must know the lithology, fluid saturations, and fluid types). The science of petrophysics is then used to unscramble the hidden world of rock and fluid properties in reservoirs from just below the Earth’s surface to ones more than four miles deep. The petrophysicist then takes on many characteristics of the fictional sleuth Sherlock Holmes to extrapolate, from the most meager of clues, the true picture of the subsurface reservoir using dogged determination to wrest all possible information from the available data, all the while enjoying the thrill of the hunt.

How does the petrophysicist solve this difficult problem? Archie’s general method is to subdivide the problem into smaller segments and iterate using all data until all data agree. One starting point is to determine rock types (petrofacies) wherein we identify:

·         Pore type

·         Pore size distribution

·         Pore throat type

·         Pore throat distribution

When coupled with fluid type, one can establish a capillary pressure model that will lead to understanding in-situ fluid saturations and fluid flow. However, the tools available to the petrophysicist are:

·         Mud logging (solids, liquids, gasses, volumes, rates, concentrations, and temperature)

·         Measurement while drilling (MWD) and Logging while drilling (LWD)

·         Wireline logging (open- and cased-hole)

·         Core sampling [(wireline (percussion and drilled) and whole] and core analysis

·         Fluid sampling (wireline and/or drillstem tests)

This list is arranged in order of the usual acquisition sequence. The economics of a given evaluation may restrict the application of any of these tools.