Presentation is loading. Please wait.

Presentation is loading. Please wait.

Elements of 3D Seismology: Introduction to Interpretation

Published byShinta Setiawan Modified over 6 years ago

Similar presentations

Presentation on theme: "Elements of 3D Seismology: Introduction to Interpretation"— Presentation transcript:

1 Elements of 3D Seismology: Introduction to Interpretation
12/2/2018 Elements of 3D Seismology: Introduction to Interpretation Christopher L. Liner University of Tulsa November 2003

2 Synthetic Seismogram Assume: Zero offset, zero dip, and v(z)

3 Synthetic Seismogram Travel times Layer thickness and velocity
Reflection coefficients Velocity and density

4 Synthetic Seismogram R0 is important Reflection coefficient
Normal incidence (zero offset) Values [-1,+1] Commonly [-.3,.3] I = acoustic impedance Rock property influences Mineralogy Porosity Pore fluid Seismic peak amplitude ~ R0

5 Synthetic Seismogram Wavelet

6 Synthetic Seismogram Wavelet

7

8

9

10 Synthetic Seismogram Is peak amplitude ~ R0 …. ?
Modeling can supply the answer.

11

12 Field data stack (F) Resistivity log Stack of Z.O. synthetic
Lindsay and Koughnet, 2001, TLE Field data stack Stack of Z.O. synthetic Detail of B Gamma log AVO synthetic (F) Resistivity log (G) Bulk density log (H) P-wave sonic (I) S-wave sonic (J) Vp/Vs ratio

13 Tuning

14 Tuning

15 Vertical Resolution

16 Vertical Resolution

17 Tuning and Resolution Tuning and resolution thickness are equal
Wavelength/4 = v/(4 f) v is interval velocity of the thin bed f is dominant, or average, frequency About Hz Subresolution thickness mapping Difficult because top/base events commingle Tools Tuning curves, spectral decomposition,+

18

19

Download ppt "Elements of 3D Seismology: Introduction to Interpretation"

Similar presentations

Seismic Resolution Lecture 8 * Layer Thickness top 20 ms base

Seismic Resolution Lecture 8 * Layer Thickness top 20 ms base
Well-Seismic Ties Lecture 7 Depth Time Synthetic Trace SLIDE 1

Well-Seismic Ties Lecture 7 Depth Time Synthetic Trace SLIDE 1
Seismic Reflections Lecture Shot Receiver Seismic Record

Seismic Reflections Lecture Shot Receiver Seismic Record
Wedge Modeling HRS-9 Hampson-Russell Software

Wedge Modeling HRS-9 Hampson-Russell Software
4 June 2014© Earthworks Environment & Resources Ltd. All rights reserved1 Reservoir Connectivity and Fluid Uncertainty Analysis using Fast Geostatistical.

4 June 2014© Earthworks Environment & Resources Ltd. All rights reserved1 Reservoir Connectivity and Fluid Uncertainty Analysis using Fast Geostatistical.
Title Petrophysical Analysis of Fluid Substitution in Gas Bearing Reservoirs to Define Velocity Profiles – Application of Gassmann and Krief Models Digital.

Title Petrophysical Analysis of Fluid Substitution in Gas Bearing Reservoirs to Define Velocity Profiles – Application of Gassmann and Krief Models Digital.
Chapter 1- General Properties of Waves Reflection Seismology Geol 4068

Chapter 1- General Properties of Waves Reflection Seismology Geol 4068
Time-lapse Seismic and AVO Modeling, White Rose, Newfoundland

Time-lapse Seismic and AVO Modeling, White Rose, Newfoundland
Introduction to GeoProbe

Introduction to GeoProbe
3-D Fault Visualization with Fracture Swarms

3-D Fault Visualization with Fracture Swarms
AASPI Attribute-Assisted Seismic Processing and Interpretation

AASPI Attribute-Assisted Seismic Processing and Interpretation
Environmental and Exploration Geophysics II

Environmental and Exploration Geophysics II
I. Basic Techniques in Structural Geology

I. Basic Techniques in Structural Geology
Establishing Well to Seismic Tie

Establishing Well to Seismic Tie
Reflection Amplitude. Vertical Incidence R = A r =  2 v 2 –  1 v 1 = Z 2 – Z 1 A i  2 v 2 +  1 v 1 Z 2 + Z 1 AiAi ArAr AtAt T = A t = 2  1 v 1 =

Reflection Amplitude. Vertical Incidence R = A r =  2 v 2 –  1 v 1 = Z 2 – Z 1 A i  2 v 2 +  1 v 1 Z 2 + Z 1 AiAi ArAr AtAt T = A t = 2  1 v 1 =
Occurs when wave encounters sharp discontinuities in the medium important in defining faults generally considered as noise in seismic sections seismic.

Occurs when wave encounters sharp discontinuities in the medium important in defining faults generally considered as noise in seismic sections seismic.
Reflection Field Methods

Reflection Field Methods
Seismogram Relation between seismic trace and geology Wavelets

Seismogram Relation between seismic trace and geology Wavelets
Xi’an Jiaotong University 1 Quality Factor Inversion from Prestack CMP data using EPIF Matching Jing Zhao, Jinghuai Gao Institute of Wave and Information,

Xi’an Jiaotong University 1 Quality Factor Inversion from Prestack CMP data using EPIF Matching Jing Zhao, Jinghuai Gao Institute of Wave and Information,
Borehole Seismic Introduction

Borehole Seismic Introduction

Similar presentations

Ads by Google