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Autochthonous Salt Deformation Integrated with Basin Modeling

Autochthonous Salt Deformation Integrated with Basin Modeling. Example on a GulfSpan Dip Line. Allochthonous Salt. Present Day. Basement. Autochthonous Salt. 159 MYBP.

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Autochthonous Salt Deformation Integrated with Basin Modeling

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  1. Autochthonous Salt Deformation Integrated with Basin Modeling Example on a GulfSpan Dip Line

  2. Allochthonous Salt Present Day Basement Autochthonous Salt

  3. 159 MYBP • The Sediment temperature history is calculated with an energy balance and a heat flux boundary condition at the base of the model and a surface temperature boundary condition • Taking the initial autochthonous salt thickness as the present day thickness results in the top geometry. • Assuming that the autochthonous salt deforms according the principle shown in Figure 3 of the text suggests an initial salt thickness shown in the bottom geometry. • Advance the slide to view a time history of autochthonous salt deformation.

  4. 159 MYBP

  5. 144 MYBP

  6. 102 MYBP

  7. 93.5 MYBP

  8. 65 MYBP

  9. 33.7 MYBP

  10. 23.80 MYBP

  11. 20.47 MYBP

  12. 19.74 MYBP

  13. 16.40 MYBP

  14. 14.06 MYBP

  15. 13.05 MYBP

  16. 11.20 MYBP

  17. 8.55 MYBP

  18. 7.97 MYBP

  19. 5.32 MYBP

  20. 4.10 MYBP

  21. 3.83 MYBP

  22. 2.60 MYBP

  23. 1.65 MYBP

  24. 1.45 MYBP

  25. 0.50 MYBP

  26. 0.27 MYBP

  27. 0.23 MYBP

  28. Present Day

  29. Discussion • Lateral changes in vertical effective stress leads to deformation of autochthonous salt • Sedimentation rate determines the loading history • The distribution of permeable sand has a significant effect on the vertical effective stress • Sediment temperature near the salt is significantly affected by the autochthonous salt history • Source rock maturation is decreased by millions of years when the source rock is above the salt • This development assumes that all the salt deformation occurs in autochthonous salt • The reality is that allochthonous salt plays a large role in basin development • Including allochthonous salt deformation would require a full stress simulation at every time step • Gradients in lateral stress become important at shallow depths • Simulations would require regridding at each time step to account for the mass and momentum transport of allochthonous salt across time lines

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