All of the above major areas of rock physics are covered in great detail between the departments of eaps and cee. It will be located at china university of petroleum digital rock physics 2016 will be the worlds popular. Also, rock physics modeling can be utilized to build. Pdf survey of recent advances in digital rock physics. Evaluation and application of digital rock physics drp. The drp technique applied in this study employs the. Experimental systems are available to perform analysis on a wide variety of parameters as the research area might warrant. For those evaluating the relative hazards of radioactive waste sites, investigating energy resources such as oil, gas, and hydrothermal energy, studying the behavior of natural hazards like earthquakes and volcanoes, or charting the flow of groundwater. Digital rock physics for fast and accurate special core. Chenchen wang irock this symposium will include keynote speeches, technical presentations, poster exhibition and digital rock laboratory visiting.
Rock physics templates rpts are geologically constrained rock physics models that serve as tools for lithology and fluid prediction avseth et al. Tosaya 1982 equations for shaley sandstones empirical, ultrasonic lab measurements pressure saturation equations comments 40 mpa 100% water vp5. Information and documents that will be helpful as we start the class, and as the year progresses. Digital rock physics helps scientists understand porous. Digital rock physics drp has been applied to reveal the mechanisms how porescale processes govern macroscopic rock properties, such as transport, elastic, thermal and electrical properties, in. Digital rock physics and applications 31 march 2016 china university of petroleum beijing, china scientific committee.
Abstract a pilot study to evaluate the quality and validity of special core analysis sca data from digital rock physics drp has provided results that are comparable to laboratory measurements. Scanners reconstruct image projections to create a stack of images that can be exported in different formats, such as bmp, tif, or png, which then somehow need to be transformed so that the properties of the core. Abstract the key paradigm of digital rock physics drp image and compute implies imaging and digitizing the pore space and mineral matrix of natural rock and then numerically simulating various physical processes in this digital object to obtain. Digital rock physics drp investigates and calculates the physical and fluid flow properties of porous rocks. Rock physics is a key component in oil and gas exploration, development, and production. Rock physics diagnostic models and gassmann fluid substitution relations are essential ingredients in generating the templates for a reservoir. Using ct scans to compute rock properties article pdf available in ieee signal processing magazine 352. What is the bearing capacity of rock on surface an at depths.
The company specialises in the application of seismic technologies to decision making in exploration and production and particularly in the application of rock physics to seismic interpretation. For numerical experimentation to find its way into the mainstream, it has to be practical and easily repeatable, i. Vs ratio, cannot be constrained independently if lithology is unknown. This relationship is a key indication of hydrocarbon storage and. International symposium on digital rock physics and applications, to be held from 30 mar to 31 mar 2016 the society of core analysts and european association of geoscientists and engineers invites you to beijing, for its international symposium on digital rock physics and applications. Each of my students is expected to read and abide by the course expectations for this course. Tang department of geological sciences the university of texas at austin abstract here i solve for the stresses in a shale sample after applying a strain by using a digital rock physics approach. We know from laboratory work and theory that poor sorting can also in. Rock physics has emerged as a tool for geophysicists to characterize reservoir properties as they pertain to seismic elastic parameters. What is the response of rocks under dynamic earthquake type loading. Rock physics integrating petrophysical, geomechanical, and seismic measurements.
An acknowledgement form signed by both the student and a parent is due by tuesday, september 10. Rock physics template rpt analysis of well logs for. Rock physics basics static and dynamic moduli in sand. Digital rock physics for fast and accurate special core analysis in carbonates 205 calculated saturation exponent n for primary drainage displacement as a function of total porosity for the ecore models compared to available experimental data. Digital rock analysis with ingrain services halliburton. This class will hopefully open your eyes to the beauty of the physics you experience in your life daily.
Supplements to digital rock physics benchmarks github. Rock physics integrating petrophysical, geomechanical. We invite abstracts for the following topics oral and posters. The key paradigm of digital rock physics drp image and compute implies imaging and digitizing the pore space and mineral matrix of natural rock and then numerically simulating various physical processes in this digital object to obtain such macroscopic rock properties as permeability, electrical conductivity, and elastic moduli. Today, i introduce to you the rock physics cheatsheet. Digital rock physics and applications 3031 march 2016 china university of petroleum beijing, china scientific committee. Stewart abstract two rock physics models for cracked media are investigated in this paper. Digital rock physics modeling is useful to understand microstructural parameters of rocks pores and rock matrks, quite quickly and in detail. Organize and preserve images and related experimental measurements of different porous materials, improve access to them for a wider community of geosciences and engineering researchers not necessarily trained in computer science or data analysis, and thus. Experimental systems are available for microoptical, microdigital, core and. An example of the grain partitioning of the sandstone sample is given in figure 1. Rock physics explore the link between reservoir properties and seismic data.
Rock physics models for cracked media zimin zhang and robert r. This condition reduces the feasible size of a digital sample to just a few grains across. In this approach, highresolution images of the rocks pores and mineral grains are obtained and processed, and the rock properties are evaluated by numerical simulation at the pore scale. It is everywhere in the world around youyou cannot avoid physics. Ingrain integrated digital and physical core analysis provides a robust understanding of reservoir quality. We will show the equations and the concepts behind the theory using graphical methods. Digital rock, pioneers in digital rock for the oil and gas. Jan is currently working with scott pickford in calgary, with a special enthusiasm for communicating technical concepts including avo, inversion, modeling, vsp and transfer filter processing, rock physics, and just about anything else that can be puzzling to the average bear. Physics is the building block for all other natural sciences.
Use full febased simulations with builtin solver or quick calculation of analytical bounds solid, laplace reduce effects of boundary conditions. Rock property determination using digital rock physics conference paper pdf available in seg technical program expanded abstracts 221 october 2003 with 296 reads how we measure reads. Thanks to the ctr and the petrophysics lab at repsol digital petrophysics team. Build rock physics models and calibrate them to well data. The rock physics handbook, second edition tools for seismic analysis of porous media the science of rock physics addresses the relationships between geophysical observations and the underlying physical properties of rocks, such as composition, porosity, and pore fluid content. Admittedly, there are several equations, but i hope they are laid out in a simple and systematic way. Rock physics associates consultancy and training for oil. Structure parameters characterizat ion, materials identification, fluid modeling, and elastic properties estimation o f sa turated s andstones, hagi proceeding. Lectures on rock mechanicslectures on rock mechanics. Hess digital rock physics lab brings worldclass focus to. While thermo fisher scientific has been a leader in industries such as electronics, life sciences, and materials science, we are also pioneers in digital rock for the oil and gas industry. The main goal of digital rock physics drp is to image and digitalize the rocks under study and then, numerically simulate physical processes to obtain the rock properties, such as permeability. Rock physics associates is a ukbased independent consultancy and training business to the oil and gas industry run by dr rob simm. Development of a digital rock physics workflow for the.
Survey of recent advances in digital rock physics benefits of drp and their application to reservoir characterization. I am looking for publications in which acoustic velocities, organic content, porosity and density are reported, in order to examine. Since the beginning of the 21st century, research topics and methods for oil and gas rock physics petrophysics have undergone significant changes. Organicrich carbonates i have been dealing with rock physics analysis of an organicrich chalk, and there is a new approach that we are trying to extrapolate to organicrich carbonate formations e. Solving for stress allows for the calculation of the overall elastic properties in.
Geo expro simplifying digital rock physics workflows. Pdf rock property determination using digital rock physics. Rock mechanics problemsrock mechanics problems how will rock react when put to mens use. Velocity versus porosity left and dynamic and static bulk moduli. The hess digital rock physics laboratory includes the most advanced highresolution 3d xray microscope available, making uw the worlds first university to put this stateoftheart tool in the hands of faculty and researchers to increase understanding of underground oil. In a standard digital rock physics workflow, a sample object is scanned, with microct typically producing the highestquality images. Rock physics for the rest of us an informal discussion. Development of a digital rock physics workflow for the analysis of sandstones and tight rocks. This new approach establishes the relationship between bulk rock properties and multiscale image analysis for a more holistic understanding of the effective rock properties. Shale a rock composed of mudsized particles, such as silt and clay boggs, 2001. Supplements to digital rock physics benchmarks authors. As with many fields, computing is changing how geologists conduct their research. Digital rock physics drp is becoming a standard tool for rock characterization. The effects of crack shape, aspect ratio and crack density are discussed using rock properties.
Finding viable solutions to many of the problems threatening our environment hinges on understanding the rocks below the earths surface. Textural descriptions, traditionally obtained via 2d petrographic analysis, are directly measured on 3d digital images of core material saadatfar et al. This document discusses the rock physics templates rpt, and how we have implemented the rpt approach in the hampsonrussell software release hrs9. Quantify scanned rock samples with an easytouse software workflow.