HGS General Lunch- Automated scanning of fine-scale geological, petrophysical and geomechanical rock properties and its application in reservoir characterization

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Wednesday, April 24
The Petroleum Club of Houston
1201 Louisiana Street, 35th floor, Houston, TX
- If you valet park we can give you a discount coupon, the Petroleum Club does NOT validate parking
Social 11:15 AM, Luncheon 11:30 AM- 1:00 PM
Cost: $35 pre-registered members; $40 for non-members/ALL walk-ups;
$35 for Emeritus/Life/Honorary; $15 for HGS student members if pre-registered and pre-paid.

To guarantee a seat, you must pre-register on the HGS website and pre-pay with a credit card.  You may walk up and pay at the door if extra seats are available.  Please cancel by phone or email within 24 hours before the event for a refund.  Online & pre-registration closes Wednesday, April 24 at 5:00 AM

Speaker: Ramil D. Ahmadov, New England, Greg N. Boitnott*

Automated scanning of fine-scale geological, petrophysical and geomechanical rock properties and its application in reservoir characterization


In this paper, we will first present the results of the geological, geophysical and geomechanical profiling conducted with an automated set of probes and assess the presence of notable small-scale heterogeneities under the well log resolution. These results will then be compared with fine scale compositional profiles obtained from FTIR measurements at the same locations in order to tie our observations to the lithology. And finally, three examples of use of the data using automatic profiling will be presented to address some of the issues in reservoir characterization.


The presence of mechanical heterogeneity under the well log resolution is commonplace in unconventional plays and can deeply impact geomechanical assessments ranging from wellbore integrity to completion design. Thin (<1 inch in thickness) discrete layers may locally exhibit order of magnitude contrast in stiffness and strength relative to the surrounding material. Depending on stress magnitude and orientation, relatively weak or strong layers may lead to unexpected failure, mechanical decoupling between adjacent blocks, and complicate the understanding of fracture propagation by causing additional energy dissipation.

To validate these potential adverse effects, a thorough screening was conducted using a petrophysical scanner on sections of core recovered from the Permian Basin,Vaca Muerta unconventional formation and deep GOM sandstones and shales. The petrophysical scanner was sequentially run with the following probes: Vp and Vs to provide geophysical information, a geomechanical probe named the Impulse Hammer, and an FTIR (Fourier Transform Infrared Spectroscopy) probe to provide mineralogical information, all at the same indexed locations along a vertical profile with a 5 mm spacing.

Method and Examples

        New England Research’s Core AutoScan (Figure 1) is a unique measurement platform developed for the detailed quantitative and efficient description of core properties. It is capable of scanning slabbed and whole core or plugs for gas permeability, resistivity, ultrasonic compressional- and shear-wave velocities, composition, mechanical strength, and elastic stiffness (Impulse Hammer) at the mm scale.


Figure 1.  AutoScan – robotically-controlled gantry system for physical property measurements of several different types of core.


        The Impulse Hammer was originally developed to provide a non-destructive method to measure the mechanical profile along a core. The Impulse Hammer captures the physics of the impact by measuring the force-time function at the indenter – a small instrumented sensor is free falling onto the core surface from a preset height. Two independent parameters can be extracted, a reduced Young’s modulus and an impulse hardness. The spatial resolution of a single measurement is of the order of 2 mm and the footprint is comparable to that of a micro-indentation test. An example of a representative data set is shown in Figure 2.


Figure 2. A representative example from a Permian Basin core showing fine scale heterogeneity information and comparison between mechanical properties and composition.



The combination of fast and non-destructive physical property measurement platorm with workflows capable of relating these measurements across scales is a powerful tool at all stages of field life from exploration and development to production.  



Boitnott, G. N., Louis, L.O., Hampton, J. C., Lionel Martinez, Bernard Labeyrie, Idriss Friry, Alain Lejay High resolution geomechanical profiling in heterogeneous source rock from the Vaca Muerta Formation, Neuquén Basin, Argentina, to be presented, ARMA, 2018.

Gramin, P., Fisher, R., Frooqnia, R.A., Ai, A., Hojnacki, P., Boitnott, G., Louis, L., Hampton, J., Evaluation of the Impulse Hammer Technique for Core Mechanical Properties Profiling, International Symposium of the Society of Core Analysts, Snowmass, Colorado, USA, 21-26 August 2016

Hampton, J., (2017), “A Novel Geomechanical Characterization Methodology for Quantifying Fine Scale Heterogeneity”, Houston Geological Society, Applied Geoscience Conference.

Lejay, Alain, Johannes Monkenbusch, Lionel Martinez, Gregory Boitnott, Laurent Louis and François Gelin., When the syn-depositional climatic variations influence my source rock properties – the case study of the Vaca Muerta, to be presented AAPG, 2018

Rathbun, A.P., Carlson, S.R., Ewy, R.T., Hagin, P.N. and Bovberg, C.A., Boitnott, G. N.,Non-Destructive Impulse Based Index Testing of Rock Core 48th US Rock Mechanics / Geomechanics Symposium held in Minneapolis, MN, USA, 1-4 June 2014.



Ramil Ahmadov is a principal geoscientist at New England Research. He is an integrated scientist with experience in conducting pure and applied research in the area of geoscience and engineering who has held various roles at BP, Ikon Science and New England Research. Dr. Ahmadov has considerable experience integrating laboratory, well log, seismic and production data within integrated multidisciplinary teams at all stages from exploration and development to production. Ramil holds PhD and MS degrees in geophysics and geology from Stanford University and BS and MS degrees in
petroleum engineering from Azerbaijan State Oil Academy and University of Wyoming, respectively."


Gregory Boitnott is a principal scientist with New England Research, Inc. since 1992, and NER vice president since 2005. He is a designer of the AutoScan and AutoLab systems at NER and is the inventor of NER’s patented method for estimating pore structure of earth formations from their petrophysical properties. Boitnott combines laboratory and theoretical studies of fundamental rock properties and studies their relationship to the microstructural variables that control them. His work has resulted in the development of new testing methods and data mining software used for quantitative model building. His current research involves building physical models of heterogeneous and anisotorpic rocks and sediments at the millimeter to meter scale. Boitnott’s work is used by NER to understand the implications of heterogeneity in rock physical properties to assist clients in the areas of reservoir engineering, petrophysics and geophysics. Greg holds MS and PhD degrees in geophysics from Columbia University.

April 24th, 2019 11:15 AM   through   1:00 PM
The Petroleum Club of Houston, Total Plaza Building
1201 Louisiana St
Houston, TX
United States
Event Fee(s)
Member $ 35.00
Non-Member $ 40.00
Emeritus/Honorary Life $ 35.00
Student $ 15.00
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