Today, I finished selecting data from Hess. In addition, I tried to find some papers and books about predicting NMR permeability and pore size distribution. I also read one of the book about NMR.
Parameters:
| Wire:DPHI_SAN |
ft3/ft3
| Wire:RVDRU |
ohm.m
| Wire:RVSRU |
ohm.m
| SonicScanner:AT10 |
OHMM
| SonicScanner:AT90 |
OHMM
| Core_SGR4:Kdsbu |
%
| Core_SGR4:Udsbu |
PPM
| Core_CT:Densitybuds |
gm/cc
| ELLAN2:BOUND_WATER_QEds |
v/v
| ELLAN2:CALCITE_QEds |
v/v
| ELLAN2:CHLORITE_QEds |
v/v
| ELLAN2:DOLOMITE_QEds |
v/v
| ELLAN2:HALITE_QEds |
v/v
| ELLAN2:ILLITE_QEds |
v/v
| ELLAN2:KEROGEN_QEds |
v/v
| ELLAN2:MONTMORILLONITE_QEds |
v/v
| ELLAN2:QUARTZ_QEds |
v/v
| ELLAN2:N-FELDSPAR_QEds |
v/v
| ELLAN2:K-FELDSPAR_QEds |
v/v
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(Do you have any recommendations of these parameters? should I delete or add some parameters else?)
Tomorrow, I will read books and papers about predicting NMR permeability and pore size distribution.
you need to start coding. you have been reading for last one semester.
ReplyDeleteOk, I think so.
DeleteRemove the core logs. these are not commonly available,
ReplyDeleteCore_SGR4:Kdsbu
%
Core_SGR4:THdsbu
PPM
Core_SGR4:Udsbu
PPM
Core_CT:Densitybuds
gm/cc
Use AT60 that investigates area between AT10 and AT90
ReplyDeleteThis comment has been removed by the author.
ReplyDeleteWhat is
ReplyDeleteWire:RVDRU
ohm.m
Wire:RVSRU
ohm.m
I think you need to remove this.
AT10, AT60, AT90 are resistivity measurements and they should be used instead of RVDRU RVSRU
deep resistivity uncalivated and shallow resistivity uncalivated
Deleteok, I will remove them.
what are the other physics that can be correlated with NMR?
ReplyDeletetill now you have included mineralogy, resistivity, and porosity.
Add Sonic slowness data, use raw neutron and density tool data.
Ok, I will select them from Hess data.
Delete