3D Hybrid Gravity Inversion for Base of Salt Modelling

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3D Hybrid Gravity Inversion for Base of Salt Modelling A base of salt test with gravity gradients Gerry Connard, Rob Ellis Tom Popowski and Gaud Pouliquen* Non-Seismic Geophysics, Finding Petroleum Event The Geological Society, Burlington House, London, February 2015

Outline Update on Geosoft s inversion technologies Introduction Inversion philosophy SEAM I data Previous work - Hatch, et. al. paper Hybrid models VALEM/VOXI Base of salt example using SEAM data Summary Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 2

Inversion Philosophy Essentially, all models are wrong, but some are useful. George E. P. Box http://en.wikiquote.org/wiki/george_e._p._box Box argues that the simplest model that satisfies the information is the most useful model. Occam s Razor (~1300): "If you have two equally likely solutions to a problem, choose the simplest. To paraphrase: Inversion should aim for the simplest model that honors the constraints and fits the observed data within the uncertainty of that data. Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 3

Reducing Exploration Risk using Potential Field Data The Base of Salt Problem Seismic exploration is the primary geophysical method used in O&G Exploration. Top of Salt Interpretation can be improved by using - high resolution - potential field data in conjunction with seismic data. The Base of Salt problem is a case where gravity data are used to assist the picking of base of salt horizons. Base of Salt?? Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 4

SEAM I Density Model Designed by industry consortium to test major challenges of subsalt imaging in Tertiary basins in deepwater Gulf of Mexico. Includes rugosity, overhangs, grottos, mini-basins, 11 km deep salt feeder, mother salt, and more. See Pangman, 2007 Leading Edge Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 5

Earlier Inversion Results 2013 SEAM Workshop, Geoscience Advancements With SEAM Data Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 6

GM-SYS 3D inversion using Pearson approach (From Hatch et. al., 2013 with permission) Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 7

Interface Inversion: Line 12960 Base of salt error (m RMS) Noise free 1 Eo noise 10 Eo noise 424 510 662 Gzz data misfit (Eo RMS) Noise-free 1 Eo noise 10 Eo noise 0.035 0.28 1.32 8

Interface Inversion: Base of Salt True base of salt Inverted base of salt (0 Eo noise) Inverted base of salt (1 Eo noise) Inverted base of salt (10 Eo noise) Gzz Misfit Copyright Gedex Inc. 2013 9

New Hybrid models Hybrid data structures Grids bathymetry Voxels seismic volume Geosurfaces complicated salt body Hybrid calculations Frequency domain very fast but inflexible Space domain slower but very flexible Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 10

VALEM Voxel Assisted Layer Enhanced Modeling. New inversion option in GM-SYS 3D One single platform Sends inversion volume to VOXI (Voxel Inversion) VOXI space-domain uses High Performance Computing Assimilates results back into GM-SYS 3D Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 11

VOXI interface accessible to VALEM Additional constraints available in VOXI interface: Constant or voxel constraints Upper & lower density bounds Parameter weighting Gradient weighting: EW, NS, & vertical Allows inclusion of faults, boreholes, varying uncertainty in starting model, etc. Can invert on: Gravity Magnetics All FTG components All Falcon TM AGG components Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 12

Inversion model setup Bathy, autochthonous salt, & basement represented by grids Slightly simplified SEAM density cube Replaced allochthonous salt with interpolated fill Constraints: Top of salt Active area with salt boundaries Top of autochthonous salt is base of active volume Interpolated fill Demonstrate the maximum that can be achieved with perfect data Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 13

Inversion Methodology 1 1. Define Active Inversion Domain below top of salt. 2. Define the Sediment Reference Model 1. Active Domain 2. Sediment Model Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 14

Inversion Methodology 1 3. Form the Residual Data: G NE and G UV (Observed data Sediment response) Residual Data: Falcon TM AGG G NE and G UV 16 Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015

Inversion Methodology 1 4. Invert the Residual Data 5. Iteratively enforce Salt Density or Sediment Density Smooth Inversion Salt Salt Sediments Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 17

Inversion Methodology 1 IRI Salt Focusing Iterative Reweighting Inversion (IRI) focusing takes an initial inversion result and uses it as an iterative reweighting constraint in a subsequent inversion. This process is repeated several times in order to produce a refined or "focused" final inversion result. Sediments Salt Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 18

Inversion Results 1 The IRI Salt Focusing model: 1. Response fits gravity gradient data to 0.5 Eo. 2. Does not show salt feeder or thin salt extrusion. 3. Reflects a realistic measure of the ability of gravity gradient data to map the Base of Salt with only top of salt constraint. SEAM Model IRI Salt Focusing Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 19

Inversion Methodology 2 Define salt to a depth of 1km below top of salt. Starting Model Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 20

Inversion Methodology 2 4. Invert the Residual Data 5. Iteratively enforce Salt Density or Sediment Density Smooth Inversion Salt Sediments Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 21

Inversion Methodology 2 4. Invert the Residual Data 5. Iteratively enforce Salt Density or Sediment Density IRI Salt Focusing (5) Salt Sediments Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 22

Inversion Methodology 2 4. Invert the Residual Data 5. Iteratively enforce Salt Density or Sediment Density IRI Salt Focusing (20) Sediments Salt Honoring Occam s Razor With just these constraints, we are at the limit of what gravity gradient inversion can achieve! Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 23

Inversion Results 2 Observed Data and Misfit: G NE (same colour scale) Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 24

Inversion Results 2 Observed Data and Misfit: G UV (same colour scale) Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 25

Inversion Results 2 The IRI Salt Focusing model: 1. Response fits gravity gradient data to 0.5 Eo. 2. Does not show salt feeder. 3. Reflects a realistic measure of the ability of gravity gradient data to map the Base of Salt with top of salt constraint and 1km of salt. SEAM Model IRI Salt Focusing Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 26

Inversion Results 2 The difference between the SEAM model and the model recovered by inversion. Note that the sediment density is correctly determined to an accuracy of ~0.026 g/cm 3 and the salt density is exact. This indicates that for all practical purposes, gravity gradient data will not resolve the salt feeder. IRI Salt Focusing (20) Salt Sediments g/cm 3 Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 27

Inversion Results 3 The IRI Salt Focusing model: 1. Response fits gravity gradient data to 0.1 Eo. 2. Does not show salt feeder. 3. Reflects a realistic measure of the ability of gravity gradient data to map the Base of Salt with top of salt constraint and 1km of salt. SEAM Model IRI Salt Focusing Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 28

Feeder Response Feeder Model: Computing the response from the feeder. Observed Data and Feeder Response: G UV 7 km Feeder 4 km Range: 50.0 Eo Range: 0.7 Eo Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 29

Summary Hybrid inversion (layer earth + sharp boundary voxel inversion) of gravity data can improve seismic imaging Inversion should aim for the simplest model that honors the constraints and fits the observed data within the uncertainty of that data. Current gravity data has limited ability to detect deep, shortwavelength salt features. Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 31

Thank you We love to hear from our customers, so if you have any questions, e-mail us at explore@geosoft.com or visit www.geosoft.com. Non-Seismic Geophysics, Finding Petroleum Workshop, London 2015 32