Environmental and Exploration Geophysics II Coincident Source receiver

  • Slides: 22
Download presentation
Environmental and Exploration Geophysics II Coincident Source receiver Concepts Extracting Velocities from Seismic Data

Environmental and Exploration Geophysics II Coincident Source receiver Concepts Extracting Velocities from Seismic Data tom. h. wilson tom. wilson@mail. wvu. edu Department of Geology and Geography West Virginia University Morgantown, WV Tom Wilson, Department of Geology and Geography

Common Midpoint (CMP) gather, also often referred to as Common Depth Point (CDP) Tom

Common Midpoint (CMP) gather, also often referred to as Common Depth Point (CDP) Tom Wilson, Department of Geology and Geography

Common Midpoint Gather Doug Smith’s seismic Data Processing site http: //www-geo. phys. ualberta. ca/~doug/G

Common Midpoint Gather Doug Smith’s seismic Data Processing site http: //www-geo. phys. ualberta. ca/~doug/G 438/Assignments 07/Lectures/Common_Midpoint. pdf Tom Wilson, Department of Geology and Geography

Moveout and the moveout correction Tom Wilson, Department of Geology and Geography

Moveout and the moveout correction Tom Wilson, Department of Geology and Geography

Redefine the reflection time equal to the 0 -offset arrival time (t 0) plus

Redefine the reflection time equal to the 0 -offset arrival time (t 0) plus the t (drop from t 0 or “moveout”). Tom Wilson, Department of Geology and Geography

Assume t 2 is small relative to other terms and can be ignored to

Assume t 2 is small relative to other terms and can be ignored to approximate the moveout t is the normal moveout correction Tom Wilson, Department of Geology and Geography

Look at the reflection time distance relationship in terms of t 2 versus x

Look at the reflection time distance relationship in terms of t 2 versus x 2 Square both sides of this equation Tom Wilson, Department of Geology and Geography

The hyperbola becomes a straight line Tom Wilson, Department of Geology and Geography

The hyperbola becomes a straight line Tom Wilson, Department of Geology and Geography

In the t 2 -x 2 form, the slope is 1/V 2 Tom Wilson,

In the t 2 -x 2 form, the slope is 1/V 2 Tom Wilson, Department of Geology and Geography

The moveout velocity V is derived from the slope of the reflection event as

The moveout velocity V is derived from the slope of the reflection event as portrayed in the t 2 -x 2 plot. The derived velocity is referred to as the Normal Moveout Velocity, NMO velocity, or, just VNMO. Tom Wilson, Department of Geology and Geography

The VNMO is used as a correction velocity If the velocity is accurately determined

The VNMO is used as a correction velocity If the velocity is accurately determined the corrected time equals t 0 Tom Wilson, Department of Geology and Geography

Fun with hyperbolas and ellipses Tom Wilson, Department of Geology and Geography

Fun with hyperbolas and ellipses Tom Wilson, Department of Geology and Geography

If the correction velocity (VNMO) is too high then the correction is too small

If the correction velocity (VNMO) is too high then the correction is too small and we still have a hyperbola Tom Wilson, Department of Geology and Geography

And we have Tom Wilson, Department of Geology and Geography

And we have Tom Wilson, Department of Geology and Geography

Velocity Analysis Tom Wilson, Department of Geology and Geography

Velocity Analysis Tom Wilson, Department of Geology and Geography

Discussion of problems 4. 1 Read over and think about how you are going

Discussion of problems 4. 1 Read over and think about how you are going to solve problems 4. 5 and 4. 8 Tom Wilson, Department of Geology and Geography

Dix Interval Velocities The Dix interval velocity assumes VNMO velocities are equivalent to RMS

Dix Interval Velocities The Dix interval velocity assumes VNMO velocities are equivalent to RMS velocities. Starting with the basic definition of the RMS velocity we derive the interval velocity Vn. Read over discussions of Dix Interval Velocities (pages 170 -181) Tom Wilson, Department of Geology and Geography

Using Fault Polygons General Steps • Create a fault polygon set: usually identified by

Using Fault Polygons General Steps • Create a fault polygon set: usually identified by horizon • Digitize your fault polygon, double click and assign a fault to it • Digitize fault polygons for all faults intersecting that surface and assign the appropriate fault to each polygon • Under Fault Polygon Management Specify “Fill Color Based on Associated Fault Surface” • Go to next horizon Tom Wilson, Department of Geology and Geography

See revisions (on line) to Parts 3 and 4 of the 3 D seismic

See revisions (on line) to Parts 3 and 4 of the 3 D seismic Interpretation procedural notes Tom Wilson, Department of Geology and Geography

Horizon > Polygon Smooth Another useful tool – smoothing can help fill gaps in

Horizon > Polygon Smooth Another useful tool – smoothing can help fill gaps in your interpretations Tom Wilson, Department of Geology and Geography

Some structural views and potential traps should be emerging in your interpretations Tom Wilson,

Some structural views and potential traps should be emerging in your interpretations Tom Wilson, Department of Geology and Geography

To Do List • Work problem 4. 1 (Bring questions in Monday). 4. 1

To Do List • Work problem 4. 1 (Bring questions in Monday). 4. 1 is due next Wednesday. • Digitize additional horizons • Discuss divisions of labor with your team mates • Read over discussions of Dix Interval Velocities (pages 170 - 181) Tom Wilson, Department of Geology and Geography