Calculation of Continuous NTG for Accurate Oil in Place Estimates
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1. The document discusses methods for calculating net-to-gross (NTG) ratios in heterolithic sequences with thin interbedded sands and shales at resolutions below conventional well log scale. 2. It presents thought experiments comparing binary and continuous NTG calculations, showing that continuous NTG is required to accurately capture NTG values when upscaling between core, log, and reservoir scales. 3. Various methods are proposed for determining continuous NTG, including cross-plots using additional logging data, modeling the effects of dispersed and laminated clays, and using NMR logging to partition porosity at the pore scale.
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Calculation of Continuous NTG for Accurate Oil in Place Estimates
- 1. Calculation and Application Of Continuous NTG Pore to Bed Scale and Impact on Oil In Place Calculations Simon Stromberg Study Centre, Petroleum Development Oman
- 2. Acknowledgements PDO Study Centre Robbert Nieuwenhuijs Herve Farran Caroline Hern Andy Griffin Marcel Braas PDO Kathy Heller Conrad Blumhagen Shell E. C. Thomas S. J. Stieber Others Bengt Pedersen Kjetil Nordahl Schlumberger (MRX Data Logging) SPWLA 16 th Annual Logging Symposium, 1975, Paper T. Norwegian University of Science and Technology. Semester Report. 1999.
- 4. NTG in Heterolithic Sequences – Thought Experiment - 1 High Res Log POROSITY DISTRIBUTIONS
- 5. NTG in Heterolithic Sequences – Thought Experiment - 1 High Res Log POROSITY DISTRIBUTIONS Change in net (10 p.u. cutoff)
- 6. NTG in Heterolithic Sequences – Thought Experiment - 1 High Res Log EPC = NTG * POR 10 p.u. cutoff 1.302 0.142 Log +26 0 Error % 1.035 0.141 High Res EPC Por Net Average Porosity
- 8. NTG in Heterolithic Sequences – Thought Experiment - 2 EPC = NTG * POR Shales have 0.08 v/v porosity 1.11 0.117 Log +62 6% Error % 0.69 0.124 High Res EPC Por Net Average Porosity
- 9. NTG in Heterolithic Sequences – Thought Experiment - 3 No Porosity Shale Model Average porosity at log scale is now 0.0725, and below Por cutoff Therefore EPC = 0 0 0.0725 Log 0.69 0.124 High Res EPC Por Net Average Porosity
- 11. NTG Correct Calculation 3. Calculate EPC as EPC = Continuous NTG * Clean Sand Porosity Calculation on a level by level basis Clean Sand Porosity = 0.207 1.30 0.142 Upscale to Log Resolution Incorrect Method 1.00 0.142 Upscale to Log Resolution Correct Method +26 +3 0 0 Error Incorrect Method % Error Correct Method % 1.035 0.141 High Resolution Case EPC Por Net Average Porosity
- 13. The Mixed Shaly Environment (Dispersed + Laminated Environment) Clean Sand with POR= 0.32 v/v (PORsand) Total Porosity (POR) = 0.32 v/v Sand completely filled with dispersed clay POR is destroyed by clay However clay has porosity (0.15), therefore POR = VSH * PORsh = (0.32 * 0.15) POR = 0.048 Sand with 5% dispersed clay: POReff = PORsand (0.32) – Fraction of Dispersed Clay (0.05) POReff = 0.27 Solid Fraction of Clay (SFC) = Fraction Clay *(1-Por Clay ) SFC = 0.05 * (1-0.15) = 0.0425 Total Porosity = PORsand – SFC = Total Porosity = 0.32 -0.0425 = 0.2775 DISPERSED CLAY THEORETICAL MODEL
- 15. Laminated Shale Resistivity Model Sand por = 32% Sand por = 32% Rt Rt sand Rt shale Rh Log Rh = Rt shale Rv = Rt Oil Filled Sand
- 16. Heterolithic Shaly Environment – Cross-Plot Solution Por Total GR (reversed scale) Clean sand point (sd, cln) - 100% shale point Sand completely filled with dispersed shale (Calculated point ) GR Sh Por Sand Clean GR Sand Clean Add dispersed Shale Add laminated Shale N/G 0.2 N/G 0.4 N/G 0.6 N/G 0.8 Por Sd = 0.8*Sd,cln Por Sd = 0.6*Sd,cln Por Sd = 0.4*Sd,cln Por Sd = 0.2*Sd,cln Add structural shale Shale indicator (GR) could be replaced by Another indicator such as RPD:
- 17. Red Lines = Continuous NTG Blue Lines = Porosity of the sand layer (Total Porosity) Por Total GR NTG = 0.4 & POR = (0.6*POR CLEAN SAND) NTG = 0.8 & POR = (0.8*POR CLEAN SAND) Sand with no dispersed clay POR CLEAN SAND
- 18. Heterolithic Shaly Environment – Cross-Plot Solution EPC = NTG * POR sandclean – (POR sh *(1-VOL dispsh )) Where NTG = VOL – VOL laminated clay (continuous NTG) POR sandclean = Sand porosity, no dispersed clay (or average clean sand porosity) POR sh = Shale porosity VOL dispsh = Volume of dispersed clay Porosity associated with clay Clay bound water
- 19. Example Application Preservation of total porosity Identification of thin pay Sands seen on core Shading difference between old Sh and new Sh Modelled Rt Used To Calc New Sh Calculated EPC Zone NTG 0.743 CONT. NTG 0.504 VSH & POR CUT EPC Net POR
- 20. Example Application Sands Previously Missed Not perforated Note correspondence with fluorescence
- 21. Method 2 Using NMR Data – Pore Scale Definition of NTG 0.1 1.0 10.0 100.0 1000.0 10000.0 Rock Bulk Volume Rock Matrix Clay Clay bound water Total Porosity Effective Porosity Capillary bound water Free water Hydrocarbons Minerals T2 cutoff NMR measures total porosity and can be partitioned into pore-size and fluid component NTG can be partitioned on the pore scale Flowing Non-flowing
- 22. NMR in Heterolithic Sandstones ft 0 50 100 150 In a laminated system – with clean sands The ratio of modes yields sand/shale ratio sand porosity shale porosity Mixed system
- 23. Scalability ft 0 50 100 150 NTG 50 % NTG 50% Porosity Non Flowing & Non Net Porosity Flowing & Net NMR offers consistent NTG calculation at a range of scales. NTG 25% NTG 75% Av NTG = 50%
- 24. Comparison of Two Methods
- 25. Shale Peak Poor Sand Peak Good Sand Peak
- 26. NTG Sand NTG Good Sand