Presentation is loading. Please wait.

Presentation is loading. Please wait.

INSTRUCTOR © 2017, John R. Fanchi

Similar presentations


Presentation on theme: "INSTRUCTOR © 2017, John R. Fanchi"— Presentation transcript:

1 INSTRUCTOR © 2017, John R. Fanchi
All rights reserved. No part of this manual may be reproduced in any form without the express written permission of the author. © 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

2 To the Instructor The set of files here are designed to help you prepare lectures for your own course using the text Introduction to Petroleum Engineering, J.R. Fanchi and R.L. Christiansen (Wiley, 2017) File format is kept simple so that you can customize the files with relative ease using your own style. You will need to supplement the files to complete the presentation topics.

3 GEOPHYSICS – SEISMIC © 2017, John R. Fanchi
All rights reserved. No part of this manual may be reproduced in any form without the express written permission of the author. © 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

4 Outline Seismic Waves Acoustic Impedance and Reflection Coefficients
Seismic Data Acquisition, Propagation and Interpretation Homework: IPE Ch. 7

5 Data Sources have Different Scales Haldorsen and Lake [1989]
SIZE Micro Few pores only Macro Conventional core plugs Mega Reservoir delineation Flow model block size Giga Total field or regional scale Reservoir architecture

6 Geophysical Goals Exploration Geophysics
Limit Risk Reduce Capital Investment Minimize Time to First Commercial Production Development (Reservoir) Geophysics Optimize Recovery

7 SEISMIC WAVES © 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

8 Energy Propagation as Vibrations in the Subsurface
Seismic Waves Energy Propagation as Vibrations in the Subsurface

9 Compressional (Pressure) Wave Motion

10 Compressional (P) and Shear (S) Waves
P-Wave Motion S-Wave Motion S S Propagation H V Irrotational: ×u = 0 Rotational: ● u = 0 Vector u = displacement of medium from equilibrium

11 Compressional (P) and Shear (S) Waves

12 Compressional (P) and Shear (S) Waves
Impulse S H -Wave P V Geophone Downward Ray: Direction of energy propagation Upward Ray: Illustrates particle motion

13 Animation Compressional (P) and Shear (S) Waves
P-wave S-wave Images from

14 P-Wave and S-Wave Velocities
VP = Compressional velocity VS = Shear velocity S = Stiffness Ksat = Saturated bulk modulus  = Shear modulus B = Bulk density = (1 - ) ma + f ma = Matrix grain density f = Fluid density = oSo + wSw + gSg  = Porosity

15 Petrophysical Model Gassmann’s Equation [1951]
where Ksat = Bulk modulus of saturated porous material Kdry = Bulk modulus of dry porous material Km = Bulk modulus of matrix grains KF = Bulk modulus of fluid = 1/cf cf = Fluid compressibility = coSo + cwSw + cgSg

16 ACOUSTIC IMPEDANCE AND REFLECTION COEFFICIENTS
© 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

17 Seismic Velocity Model
Given Stratigraphy Lithology Fluid content Bulk density ρj in medium j Velocity Vj in medium j Calculate Acoustic impedance Zj Reflection coefficient R

18 Seismic Attributes for Reflection Coefficient
Wave reflected at interface between layers 1 and 2 Reflection coefficient R

19 Time to Depth Conversion
x y t Velocity Model x y z Time (t) Depth (z)

20 SEISMIC DATA ACQUISITION, PROCESSING AND INTERPRETATION
© 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

21 Motion of magnet induces current
Geophones Motion of magnet induces current

22 Seismic Response from Small Fault
Ruijtenberg, et al., JPT (Jan. 1990)

23 Seismic Response from Sand Wedge
Ruijtenberg, et al., JPT (Jan. 1990)

24 Seismic Response for Lithology Changes
Ruijtenberg, et al., JPT (Jan. 1990)

25 Multicomponent Seismic
3C Seismic P – wave and 2 S – wave components 1 vertical and 2 horizontal velocity components Seismic anisotropy corresponds to 2 shear waves S1 (faster) S2 (slower) 4C Seismic (Marine Surveys) Pressure (hydrophone) 1 vertical and 2 horizontal velocity components using ocean-bottom cables and 3C geophones

26 Multicomponent Seismic – Cont.
9C Seismic 3 sources * 3 receivers Sources 1 vertical (compressional impulse) 2 horizontal (orthogonal shears) Receivers P-wave 2 S-waves Sources Receivers *

27 3-D Seismic Geometry Reflecting Surface 2-D Array of Receivers

28 Video 3-D Seismic Survey

29 Vertical Seismic Profile (VSP)
Receiver in hole Source on surface Monitor Recording Wireline

30 VSP Options VSP with zero offset VSP with offset Reverse VSP
Source vertically above receiver VSP with offset Source not vertically above receiver Reverse VSP Source in hole; receiver on surface Seismic Tomography Source in one wellbore; receiver in another wellbore

31 Time-Lapse (4-D) Seismic (after Johnston, et al., SPE/OTC 12132, 2000)
Difference Survey 1st Survey 2nd Survey x y t - = 3D Survey - = 2D Attribute

32 Which Seismic Attribute to Monitor?
Seismic sees contrasts Select attribute(s) with the most contrast between original and repeat surveys Typical Attributes Acoustic Impedance, Vp, Vs, Vp/Vs

33 4-D Seismic Issues Seismic data recorded in time; logs in depth
In practice, time-depth conversions are not simple Repeatability Quality of base survey Feasibility of repeat survey Timing of repeat survey Source: Blank, et al., SPE (Oct. 1998) Middle East and North Sea Fields Source: Ross and Altan, OTC 8311 (May 1997) Resolution Horizontal Vertical

34 An INTEGRATED FLOW MODEL … couples geophysics and reservoir engineering
Petrophysical Model Porosity Lithology Saturation Pore Pressure Temperature Vs Shear Modulus Bulk Density Vp Eff. Bulk Modulus …to predict seismic response and improve reservoir understanding.

35 QUESTIONS? © 2004 John R. Fanchi All rights reserved. Do not copy or distribute.

36 SUPPLEMENT © 2004 John R. Fanchi All rights reserved. Do not copy or distribute.


Download ppt "INSTRUCTOR © 2017, John R. Fanchi"

Similar presentations


Ads by Google