LAS Header
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Specific Well--15-129-21957
LAS Header |
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~VERSION INFORMATION
VERS. 2.0 :CWLS Log ASCII Standard - VERSION 2.0
WRAP. NO :One Line per depth step
PROD. Schlumberger :LAS Producer
PROG. DLIS to ASCII 2.3 :LAS Program name and version
CREA. 2013/12/13 08:50 :LAS Creation date {YYYY/MM/DD hh:mm}
DLIS_CREA. 2013-Dec-12 15:58 :DLIS Creation date and time {YYYY-MMM-DD hh:mm}
SOURCE. 15129219570000_R_R1.dlis :DLIS File Name
FILE-ID. MaxWell_3Dlis :File Identification Number
#--------------------------------------------------
~WELL INFORMATION
#MNEM.UNIT DATA DESCRIPTION
#---- ------ -------------- -----------------------------
STRT .F 5270.5 :START DEPTH
STOP .F 4950.5 :STOP DEPTH
STEP .F -0.5 :STEP
NULL . -999.25 :NULL VALUE
COMP . Anadarko E&P Onshore LLC
:COMPANY
WELL . Murphy 1-31 M :WELL
FLD . Greenwood :FIELD
LOC . 497.46' FEL & 1335.13' FSL :LOCATION
CNTY . Morton :COUNTY
STAT . Kansas :STATE
CTRY . :COUNTRY
API . 15-129-21957 :API NUMBER
UWI . :UNIQUE WELL ID
DATE . 12-Dec-2013 :LOG DATE {DD-MMM-YYYY}
SRVC . Schlumberger :SERVICE COMPANY
LATI .DEG 37° 13' 5.029" N :LATITUDE
LONG .DEG 101° 55' 10.591" W :LONGITUDE
GDAT . :GeoDetic Datum
SECT . 31 :Section
RANG . 42W
:Range
TOWN . 32S :Township
#-----------------------------------------------------------------------------
~PARAMETER INFORMATION
#MNEM.UNIT VALUE DESCRIPTION
#---- ----- -------------------- ------------------------
RUN . One :RUN NUMBER
PDAT . MSL :Permanent Datum
EPD .F 0.000000 :Elevation of Permanent Datum above Mean Sea Level
LMF . GL :Logging Measured From (Name of Logging Elevation Reference)
APD .F 3538.189941 :Elevation of Depth Reference (LMF) above Permanent Datum
#-----------------------------------------------------------------------------
~CURVE INFORMATION
#MNEM.UNIT API CODE DESCRIPTION
#---- ----- -------- -----------------------
DEPT .F :DE
PTH (BOREHOLE) {F10.1}
TDEP ..1IN :Tool Depth {F13.4}
D1ST_HNGS. :Detector 1 Status {I11}
PSGR .GAPI :Upper Limit of SGR {F13.4}
NPOR_SAN.CFCF :Enhanced Thermal Neutron Porosity (matrix Sandstone) {F13.4}
HV .V :Head Voltage {F13.4}
UMA_HILT. :Matrix_Apparent Volumetric Photoelectric Factor of Matrix from HILT Lithology Computation {F13.4}
SPAR .MV :SP, Armor Return Compensated {F13.4}
HURA .PPM :HNGS Formation Uranium Concentration {F13.4}
IDWD .F :Borehole depth as measured by the IDW (Integrated Depth Wheel) {F13.4}
NPOR .CFCF :Enhanced Therm
al Neutron Porosity in Selected Lithology {F13.4}
RXIG .MA :Global Current {F13.4}
DEPTH.F :Depth Index {F13.4}
NPHI_SAN.CFCF :Thermal Neutron Porosity (Ratio Method) (matrix Sandstone) {F13.4}
FCD .IN :Future Casing Diameter {F13.4}
S2DT .HZ :Detector 2 Dead Time Count Rate {F13.4}
RCFT .HZ :Raw Corrected Thermal Far Count Rate {F13.4}
CFGR . :Gamma Ray Correction Coefficient {F13.4}
ND .F :North Departure {F13.4}
MCGR .GAPI :Lower Limit of CGR {F13.4}
GDEV .DEG :HGNS Hole Deviation from Gravity {F13.4}
GR_EDTC.GAPI
:Gamma Ray {F13.4}
RO_HILT.OHMM :Water-filled Resistivity from HILT Lithology Computation {F13.4}
D2ST_HNGS. :Detector 2 Status {I11}
S1TM .DEGF :Detector 1 Temperature {F13.4}
PFK .% :Upper Limit of Formation Potassium Concentration {F13.4}
QCMCFL. :Hardware LQC Flag {F13.4}
S1DT .HZ :Detector 1 Dead Time Count Rate {F13.4}
HCGR .GAPI :HNGS Computed Gamma Ray {F13.4}
VBF2 . :Detector 2 Variable Barite Factor {F13.4}
ED .F :East Departure {F13.4}
S2AT .S :Detector 2 Spectrum Accumulation Time {F13.4}
TNPH_SAN.CF
CF :Thermal Neutron Porosity (matrix Sandstone) {F13.4}
RSP .MV :Raw SP {F13.4}
RWA_HILT.OHMM :Apparent Formation Water Resistivity from HILT Lithology Computation {F13.4}
VBF1 . :Detector 1 Variable Barite Factor {F13.4}
GTEM .DEGF :Generalized Borehole Temperature {F13.4}
PHIE_HILT.CFCF :Effective Porosity from HILT Lithology Computation {F13.4}
BS .IN :Bit Size {F13.4}
CTEM .DEGF :Cartridge Temperature {F13.4}
BHRM .OHMM :Borehole Mud Resistivity {F13.4}
NPHI .CFCF :Thermal Neutron Porosity (original Ratio Method) in Selected Lithology {F13.4}
NPOR_L
IM.CFCF :Enhanced Thermal Neutron Porosity (matrix Limestone) {F13.4}
MFK .% :Lower Limit of Formation Potassium Concentration {F13.4}
ECGR_EDTC.GAPI :Environmentally Corrected Gamma Ray {F13.4}
LSD1 . :Filter Coefficient from Long Spacing {F13.4}
DPHI_SAN.CFCF :Density Porosity (matrix Sandstone) {F13.4}
HTHO .PPM :HNGS Formation Thorium Concentration {F13.4}
INCL .DEG :Hole inclination {F13.4}
TNPH .CFCF :Thermal Neutron Porosity (Ratio Method) in Selected Lithology {F13.4}
HFK .% :HNGS Formation Potassium Concentration {F13.4}
IHV .F3 :Integrat
ed Hole Volume {F13.4}
TVDSS.F :Sub-sea TVD: True Vertical Depth measured from Mean Sea Level {F13.4}
HLRGB. :HILT encoded RGB Color for Image Coding {F13.4}
HTPR . :HNGS Thorium/Potassium Ratio {F13.4}
GDEV_EDTC.DEG :EDTC Hole Deviation from Gravity {F13.4}
DLS .DEG/100FT :Dog Leg Severity {F13.4}
RSPA .MV :Raw SP Armor To Fish {F13.4}
CSTS_HNGS. :GammaRay Combined Tool Status Word {I11}
ASCA .MV :Array Induction SP to Armor Calibrated {F13.4}
SSD1 . :Filter Coefficient from Short Spacing {F13.4}
SW_HILT.CFCF :HILT Water Saturation from simple
Archie equation {F13.4}
ATCA .DEGF :Array Induction Array Temperature Calibrated {F13.4}
SP .MV :Spontaneous Potential {F13.4}
TALP . :Thermal Alpha Factor {F13.4}
TNPH_LIM.CFCF :Thermal Neutron Porosity (matrix Limestone) {F13.4}
C1SP[0]. :Detector 1 Coincidence Spectrum {AI11}
S2SP[0]. :Detector 2 Anti-Coincidence Spectrum {AI11}
TNPH_DOL.CFCF :Thermal Neutron Porosity (matrix Dolomite) {F13.4}
PURA .PPM :Upper Limit of Formation Uranium Concentration {F13.4}
HPATT. :HILT Lithology Pattern Driving Channel {F13.4}
PBHK .% :Upper Limit of
Borehole Potassium Concentration {F13.4}
RDF1 . :Detector 1 Resolution Degradation Factor {F13.4}
QCBSL. :Hardware Quality Indicator for Back Scatter, Short Spacing and Long Spacing Devices {F13.4}
HTUR . :HNGS Thorium/Uranium Ratio {F13.4}
DCAL .IN :Differential Caliper {F13.4}
TVD .F :True Vertical Depth {F13.4}
HBHK .% :Borehole Potassium Concentration {F13.4}
RGR .GAPI :Raw Gamma Ray {F13.4}
RDF2 . :Detector 2 Resolution Degradation Factor {F13.4}
DPHI_LIM.CFCF :Density Porosity (matrix Limestone) {F13.4}
AZIM .DEG :Measured A
zimuth {F13.4}
TENS .LBF :Cable Tension {F13.4}
DRTA . :Depth Derivative of Raw TALP {F13.4}
NCYT .DEGF :Nuclear Averaged Estimated Crystal Temperature {F13.4}
S2TM .DEGF :Detector 2 Temperature {F13.4}
CDF .LBF :Calibrated Downhole Force {F13.4}
HET .DEGF :Electronic Temperature {F13.4}
GCF2 . :Detector 2 Gain Correction Factor {F13.4}
CHI2 . :Detector 2 Chi-Squared {F13.4}
C2SP[0]. :Detector 2 Coincidence Spectrum {AI11}
TNRA . :Thermal Neutron Ratio {F13.4}
MURA .PPM :Lower Limit of Fo
rmation Uranium Concentration {F13.4}
NPHI_DOL.CFCF :Thermal Neutron Porosity (Ratio Method) (matrix Dolomite) {F13.4}
VCL_HILT.CFCF :Volume of Clay type Material relative to Total Volume from HILT Lithology Computation {F13.4}
TDSP .F :Total Displacement (of survey measure point from vertical) {F13.4}
ECGR .GAPI :Environmentally Corrected Gamma Ray {F13.4}
ICV .F3 :Integrated Cement Volume {F13.4}
CS .F/HR :Cable Speed {F13.4}
MBHK .% :Lower Limit of Borehole Potassium Concentration {F13.4}
DF .LBF :Uncalibrated Downhole Force {F13.4}
HUPR . :HNGS Uranium/Potassium Ratio {F13.4}
RHGX_
HILT.G/C3 :Grain Density from HILT Lithology Computation {F13.4}
STIT .F :Stuck Tool Indicator, Total {F13.4}
RTNR . :Raw Thermal Neutron Ratio {F13.4}
FF . :Formation Factor {F13.4}
NPHI_LIM.CFCF :Thermal Neutron Porosity (Ratio Method) (matrix Limestone) {F13.4}
GCF1 . :Detector 1 Gain Correction Factor {F13.4}
ROAZ .DEG :Azimuth from rotary table to target {F13.4}
ESSZ[0].% :Reconstruction Error on Short Spacing - Standard Resolution {AF13.4}
CVEL .F/HR :Cable Velocity {F13.4}
PTHR .PPM :Upper Limit of Formation Thorium Concentration {F13
.4}
RCNT .HZ :Raw Corrected Thermal Near Count Rate {F13.4}
EBSZ[0].% :Reconstruction Error on Back Scatter - Standard Resolution {AF13.4}
CNTC .HZ :Corrected Near Thermal Count Rate {F13.4}
RHET .DEGF :Raw Electronic Temperature {F13.4}
GR .GAPI :Gamma Ray {F13.4}
MSGR .GAPI :Lower Limit of SGR {F13.4}
ELSZ[0].% :Reconstruction Error on Long Spacing - Standard Resolution {AF13.4}
PXND_HILT.CFCF :Crossplot Porosity from HILT Lithology Computation {F13.4}
BSD1 . :Filter Coefficient from Back Scatter {F13.4}
CHI1 . :Detector 1 Chi-Squared {F13.
4}
HTEM .DEGF :HGNS Telemetry Board Temperature {F13.4}
GHD .IN :Borehole Diameter {F13.4}
S1AT .S :Detector 1 Spectrum Accumulation Time {F13.4}
VSEC .F :Vertical Section {F13.4}
DNPH .CFCF :Difference between Corrected Thermal Neutron Porosity and Uncorrected {F13.4}
BHPR .PSI :Borehole Pressure {F13.4}
RMFA_HILT.OHMM :Apparent Mud Filtrate Resistivity from HILT Lithology Computation {F13.4}
QCPOR. :Porosity Quality Indicator Obtained by Comparison Between Uncorrected and Corrected Thermal Neutron Porosity {F13.4}
RAZ_EDTC.F/S2 :EDTC Raw Z-Axis Acceleration Data {F13.4}
HDAR .IN
:Hole Diameter from Area {F13.4}
HSGR .GAPI :HNGS Standard Gamma-Ray {F13.4}
CFTC .HZ :Corrected Far Thermal Count Rate {F13.4}
DPHI_DOL.CFCF :Density Porosity (matrix Dolomite) {F13.4}
S1SP[0]. :Detector 1 Anti-Coincidence Spectrum {AI11}
MTHO .PPM :Lower Limit of Formation Thorium Concentration {F13.4}
PCGR .GAPI :Upper Limit of CGR {F13.4}
NPOR_DOL.CFCF :Enhanced Thermal Neutron Porosity (matrix Dolomite) {F13.4}
MD ..1IN :Measured Depth {F13.4}
AREA .IN2 :Area of Borehole {F13.4}
RCOR . :Cost Function Measur
ement {F13.4}
ERMC . :Confidence on Standoff Zone Resistivity {F13.4}
QCRXO. :RXO Quality Check Flag {F13.4}
RSOI .IN :Resistivity Standoff Very High Resolution {F13.4}
RVV .MV :Vertical-Mode Voltage from Semi-Active Imager Device {F13.4}
RXV .MV :Main Electrode voltage from Semi-Active Imager Device {F13.4}
FCBR[0].OHMM :Filtered Resistivity Buttons {AF13.4}
RCOS . :Cost Function {F13.4}
EHMR . :Confidence on Mudcake Thickness {F13.4}
HRCAL.IN :HRCC Caliper Uncalibrated {F13.4}
ERBR[0]. :Resistivity Reconstruction Errors {AF13.
4}
BSW[0].HZ :Calibrated Count Rate (Array) of Gamma Rays from Back Scatter Device {AF13.4}
RXOI .OHMM :Invaded Formation Resistivity Very High resolution {F13.4}
HCAL .IN :HRCC Caliper Calibrated {F13.4}
LSW[0].HZ :Calibrated Count Rate (Array) of Gamma Rays from Long Spacing Device {AF13.4}
SSW[0].HZ :Calibrated Count Rate (Array) of Gamma Rays from Short Spacing Device {AF13.4}
HDRX . :Correction Factor {F13.4}
ERXO . :Confidence on Invaded Zone Resistivity {F13.4}
BSWU[0].HZ :Uncalibrated Count Rate (Array) of Gamma Rays from Back Scatter Device {AF13.4}
LHEW .HZ :High Energy Wi
ndow from Long Spacing {F13.4}
LSWU[0].HZ :Uncalibrated Count Rate (Array) of Gamma Rays from Long Spacing Device {AF13.4}
LWTO .HZ :Window Total from Long Spacing {F13.4}
SSWU[0].HZ :Uncalibrated Count Rate (Array) of Gamma Rays from Short Spacing Device {AF13.4}
DPH8 .CFCF :High Resolution Density Porosity {F13.4}
PEFSA. :Formation Photoelectric Factor from Short Spacing Monosensor Inversion {F13.4}
PEMZ . :Standard Resolution Mudcake Photoelectric Factor {F13.4}
EHGR .GAPI :High Resolution Corrected Gamma Ray {F13.4}
COF4 . :Fourth Term of Cost Function: Delta-Rho {F13.4}
HDRA .G/C3
:Density Standoff Correction {F13.4}
PEA . :Short Spacing Formation Photoelectric Factor {F13.4}
HTNP .CFCF :High Resolution Thermal Neutron Porosity (Ratio Method) in Selected Lithology {F13.4}
HGR_EDTC.GAPI :High Resolution Gamma Ray {F13.4}
RHO8 .G/C3 :High Resolution Formation Density {F13.4}
PEFLA. :Formation Photoelectric Factor from Long Spacing Monosensor Inversion {F13.4}
RHSA .G/C3 :Short Spacing Apparent Density {F13.4}
QCRH . :RHOZ Quality Flag {F13.4}
U8 . :High Resolution Volumetric Photoelectric Factor {F13.4}
RHBA .G/C3 :Apparent Density from Back Scatter Monosen
sor Inversion {F13.4}
HTNP_DOL.CFCF :HiRes Thermal Neutron Porosity (matrix Dolomite) {F13.4}
HNPO .CFCF :High Resolution Enhanced Thermal Neutron Porosity in Selected Lithology {F13.4}
HDRT . :Depth Derivative of Raw HTAL {F13.4}
RHFT .HZ :Raw High Resolution Far Thermal Count Rate {F13.4}
RXOZ .OHMM :Invaded Formation Resistivity filtered at 18 inches {F13.4}
ROMZ .G/C3 :Standard Resolution Mudcake Density {F13.4}
DSO8 .IN :High Resolution Density Standoff {F13.4}
EPE8 . :Confidence on High Resolution Formation Photoelectric Factor {F13.4}
HDRB .G/C3 :Difference Between Bulk Density (RH
OZ) and Apparent Density from Back Scatter Monosensor Inversion (RHBA) {F13.4}
RSO8 .IN :Resistivity Standoff High Resolution {F13.4}
EHM8 .F :Confidence on High Resolution Mudcake Thickness {F13.4}
EHGR_EDTC.GAPI :High Resolution Corrected Gamma Ray {F13.4}
HNPO_SAN.CFCF :HiRes Enhanced Thermal Neutron Porosity (matrix Sandstone) {F13.4}
HTAL . :High Resolution Thermal Alpha Correction Factor {F13.4}
HPRA . :Photoelectric Factor Correction {F13.4}
QCPEF. :PEFZ Quality Flag {F13.4}
DSOZ .IN :Standard Resolution Density Standoff {F13.4}
RHGR .GAPI :High Resolution Raw Gamma Ray {F13.4}
ERO8 .G/C3 :Confidence on High Resolution Formation Density {F13.4}
HNPO_LIM.CFCF :HiRes Enhanced Thermal Neutron Porosity (matrix Limestone) {F13.4}
HTNP_LIM.CFCF :HiRes Thermal Neutron Porosity (matrix Limestone) {F13.4}
PEFBA. :Formation Photoelectric Factor from Back Scatter Monosensor Inversion {F13.4}
HMIN .OHMM :HIP Micro Inverse Resistivity {F13.4}
HDPH_DOL.CFCF :HiRes Density Porosity (matrix Dolomite) {F13.4}
DPHZ .CFCF :Standard Resolution Density Porosity {F13.4}
RHNT .HZ :Raw High Resolution Near Thermal Count Rate {F13.4}
HCNT .HZ :High Resolution Near Thermal Count Rate {F13.4}
RHOZ
.G/C3 :Standard Resolution Formation Density {F13.4}
HDPH_SAN.CFCF :HiRes Density Porosity (matrix Sandstone) {F13.4}
PEM8 . :High Resolution Mudcake Photoelectric Factor {F13.4}
EHMZ .F :Confidence on Standard Resolution Mudcake Thickness {F13.4}
HTNP_SAN.CFCF :HiRes Thermal Neutron Porosity (matrix Sandstone) {F13.4}
COF2 . :Second Term of Cost Function: Smoothness {F13.4}
EROZ .G/C3 :Confidence on Standard Resolution Formation Density {F13.4}
RHLA .G/C3 :Long Spacing Apparent Density {F13.4}
RSOZ .IN :Resistivity Standoff Standard Resolution {F13.4}
HDPH_LIM.CFCF
:HiRes Density Porosity (matrix Limestone) {F13.4}
EPEZ . :Confidence on Standard Resolution Formation Photoelectric Factor {F13.4}
RXO8 .OHMM :Invaded Formation Resistivity filtered at 8 inches {F13.4}
PEF8 . :High Resolution Formation Photoelectric Factor {F13.4}
HNPO_DOL.CFCF :HiRes Enhanced Thermal Neutron Porosity (matrix Dolomite) {F13.4}
COF3 . :Third Term of Cost Function: Model Constraint {F13.4}
RMCZ .OHMM :Mudcake Resistivity Standard Resolution {F13.4}
HMNO .OHMM :HIP Micro Normal Resistivity {F13.4}
GREZ . :Global Reconstruction Error - Standard Resolution {F13.4}
HCFT .HZ
:High Resolution Far Thermal Count Rate {F13.4}
UZ . :Volumetric Photoelectric Factor {F13.4}
PEFZ . :Standard Resolution Formation Photoelectric Factor {F13.4}
HGR .GAPI :High Resolution Gamma Ray {F13.4}
ROM8 .G/C3 :High Resolution Mudcake Density {F13.4}
RXGR .OHMM :Global Current Based Resistivity {F13.4}
FTIM .MS :Fast Channels Acquisition Time {F13.4}
RXRU .OHMM :Main Resistivity Uncalibrated {F13.4}
RVSRU.OHMM :Shallow Resistivity Uncalibrated {F13.4}
FCAZ .F/S2 :Fast Channel (High Resolution) Acceleration on Z Axis {F13.4}
RVDRU.OHMM
:Deep Resistivity Uncalibrated {F13.4}
AMC[0].OHMM :Array Induction Mud Resistivity Electronically Calibrated {AF13.4}
AMF .OHMM :Array Induction Mud Resistivity Fully Calibrated {F13.4}
ATCE .DEGF :Array Induction Cartridge Electronics Temperature {F13.4}
ATSE .DEGF :Array Induction Sonde Electronics Temperature {F13.4}
ADES . :Array Induction Diagnostic Executive Summary {I11}
ATOM . :Array Induction Tool Mode {I11}
ABFR . :Array Induction Quality Control Borehole Formation Ratio {F13.4}
ACES .IN :Array Induction Computed Effective Standoff {F13.4}
ADI07.OHMM
:AIT Dip Invariant 7 inch Resistivity {F13.4}
ADI11.OHMM :AIT Dip Invariant 11 inch Resistivity {F13.4}
ADI15.OHMM :AIT Dip Invariant 15 inch Resistivity {F13.4}
ADI22.OHMM :AIT Dip Invariant 22 inch Resistivity {F13.4}
ADI27.OHMM :AIT Dip Invariant 27 inch Resistivity {F13.4}
AE10 .OHMM :Array Induction Resistivity Environmentally Compensated Log Processing AE10 {F13.4}
AE20 .OHMM :Array Induction Resistivity Environmentally Compensated Log Processing AE20 {F13.4}
AE30 .OHMM :Array Induction Resistivity Environmentally Compensated Log Processing AE30 {F13.4}
AE60 .OHMM :Array Induction Resistivity Environmentally Compensated Log Processing
AE60 {F13.4}
AE90 .OHMM :Array Induction Resistivity Environmentally Compensated Log Processing AE90 {F13.4}
AECEF. :Array Induction End Of Casing Effect Flag {F13.4}
AECF . :Array Induction Environmentally Compensated Log Processing Chart Flag {F13.4}
AECO10.MM/M :Array Induction Conductivity Environmentally Compensated Log Processing AE10 {F13.4}
AECO20.MM/M :Array Induction Conductivity Environmentally Compensated Log Processing AE20 {F13.4}
AECO30.MM/M :Array Induction Conductivity Environmentally Compensated Log Processing AE30 {F13.4}
AECO60.MM/M :Array Induction Conductivity Environmentally Compensated Log Processing AE60 {F13.4}
AECO90.MM/M
:Array Induction Conductivity Environmentally Compensated Log Processing AE90 {F13.4}
AECW . :Array Induction Environmentally Compensated Log Processing Combined Weights {F13.4}
AEHF . :Array Induction Environmentally Compensated Log Processing Hole Flag {F13.4}
AEMF . :Array Induction Environmentally Compensated Log Processing Magnetic Mud Flag {F13.4}
AERS . :Array Induction Environmentally Compensated Log Processing Resolution Flag {F13.4}
AF10 .OHMM :Array Induction Four Foot Resistivity A10 {F13.4}
AF20 .OHMM :Array Induction Four Foot Resistivity A20 {F13.4}
AF30 .OHMM :Array Induction Four Foot Resistivity A30 {F13.4}
AF60 .OHMM
:Array Induction Four Foot Resistivity A60 {F13.4}
AF90 .OHMM :Array Induction Four Foot Resistivity A90 {F13.4}
AFCB[0].MM/M :Array Induction Four Foot Conductivity Background {AF13.4}
AFCO10.MM/M :Array Induction Four Foot Conductivity A10 {F13.4}
AFCO20.MM/M :Array Induction Four Foot Conductivity A20 {F13.4}
AFCO30.MM/M :Array Induction Four Foot Conductivity A30 {F13.4}
AFCO60.MM/M :Array Induction Four Foot Conductivity A60 {F13.4}
AFCO90.MM/M :Array Induction Four Foot Conductivity A90 {F13.4}
AFD1 .IN :Array Induction Four Foot Inner Diameter of Invasion {F13.4}
AFD2 .IN
:Array Induction Four Foot Outer Diameter of Invasion {F13.4}
AFOO . :Array Induction Four Foot Curves Out of Order Flag {F13.4}
AFRT .OHMM :Array Induction Four Foot Rt {F13.4}
AFRX .OHMM :Array Induction Four Foot Rxo {F13.4}
AFVM .G/FT :Array Induction Four Foot Volume Mud Filtrate {F13.4}
AIBC[0].MM/M :Array Induction Borehole Corrected {AF13.4}
AIBD .IN :Array Induction Input Borehole Diameter To AIT Processing {F13.4}
AIEC[0].MM/M :Array Induction Electronically Calibrated {AF13.4}
AIFC[0].MM/M :Array Induction Fully Calibrated {AF13.4}
AIMR .OHMM :Array Induction Input Borehole Mud Resi
stivity To AIT Processing {F13.4}
AO10 .OHMM :Array Induction One Foot Resistivity A10 {F13.4}
AO20 .OHMM :Array Induction One Foot Resistivity A20 {F13.4}
AO30 .OHMM :Array Induction One Foot Resistivity A30 {F13.4}
AO60 .OHMM :Array Induction One Foot Resistivity A60 {F13.4}
AO90 .OHMM :Array Induction One Foot Resistivity A90 {F13.4}
AOCB[0].MM/M :Array Induction One Foot Conductivity Background {AF13.4}
AOCO10.MM/M :Array Induction One Foot Conductivity A10 {F13.4}
AOCO20.MM/M :Array Induction One Foot Conductivity A20 {F13.4}
AOCO30.MM/M :Array Induction One Foot Conductivity A30 {F13.4}
AOCO60.MM
/M :Array Induction One Foot Conductivity A60 {F13.4}
AOCO90.MM/M :Array Induction One Foot Conductivity A90 {F13.4}
AOD1 .IN :Array Induction One Foot Inner Diameter of Invasion {F13.4}
AOD2 .IN :Array Induction One Foot Outer Diameter of Invasion {F13.4}
AOOO . :Array Induction One Foot Curves Out of Order Flag {F13.4}
AORT .OHMM :Array Induction One Foot Rt {F13.4}
AORX .OHMM :Array Induction One Foot Rxo {F13.4}
AOVM .G/FT :Array Induction One Foot Volume Mud Filtrate {F13.4}
AQABN[0].MM/M :Array Induction Quality Control Borehole Corrected Non-Filtered Array Signal {AF13.4}
AT10 .OHMM
:Array Induction Two Foot Resistivity A10 {F13.4}
AT20 .OHMM :Array Induction Two Foot Resistivity A20 {F13.4}
AT30 .OHMM :Array Induction Two Foot Resistivity A30 {F13.4}
AT60 .OHMM :Array Induction Two Foot Resistivity A60 {F13.4}
AT90 .OHMM :Array Induction Two Foot Resistivity A90 {F13.4}
ATCB[0].MM/M :Array Induction Two Foot Conductivity Background {AF13.4}
ATCO10.MM/M :Array Induction Two Foot Conductivity A10 {F13.4}
ATCO20.MM/M :Array Induction Two Foot Conductivity A20 {F13.4}
ATCO30.MM/M :Array Induction Two Foot Conductivity A30 {F13.4}
ATCO60.MM/M :Ar
ray Induction Two Foot Conductivity A60 {F13.4}
ATCO90.MM/M :Array Induction Two Foot Conductivity A90 {F13.4}
ATD1 .IN :Array Induction Two Foot Inner Diameter of Invasion {F13.4}
ATD2 .IN :Array Induction Two Foot Outer Diameter of Invasion {F13.4}
ATOO . :Array Induction Two Foot Curves Out of Order Flag {F13.4}
ATRT .OHMM :Array Induction Two Foot Rt {F13.4}
ATRX .OHMM :Array Induction Two Foot Rxo {F13.4}
ATVM .G/FT :Array Induction Two Foot Volume Mud Filtrate {F13.4}
NPOR_SAN.CFCF :Enhanced Thermal Neutron Porosity (matrix Sandstone) {F13.4}
NPOR_LIM.CFCF :Enhanced Thermal Neutron Porosity
(matrix Limestone) {F13.4}
NPHI_LIM.CFCF :Thermal Neutron Porosity (Ratio Method) (matrix Limestone) {F13.4}
NPHI_SAN.CFCF :Thermal Neutron Porosity (Ratio Method) (matrix Sandstone) {F13.4}
TNPH_LIM.CFCF :Thermal Neutron Porosity (matrix Limestone) {F13.4}
TNPH_SAN.CFCF :Thermal Neutron Porosity (matrix Sandstone) {F13.4}
#-----------------------------------------------------------------------------
#
# DEPT TDEP D1ST_HNGS PSGR NPOR_SAN HV UMA_HILT SPAR HURA IDWD NPOR RXIG DEPTH NPHI_SAN FCD S2DT RCFT CFGR ND MCGR GDEV GR_EDTC RO_HILT D2ST_HNGS S1TM PFK QCMCFL S1DT HCGR VBF2 ED S2AT TNP
H_SAN RSP RWA_HILT VBF1 GTEM PHIE_HILT BS CTEM BHRM NPHI NPOR_LIM MFK ECGR_EDTC LSD1 DPHI_SAN HTHO INCL TNPH HFK IHV TVDSS HLRGB HTPR GDEV_EDTC DLS RSPA CSTS_HNGS ASCA SSD1 SW_HILT ATCA SP TALP TNPH_LIM C1SP[0] S2SP[0] TNPH_DOL PURA HPATT PBHK RDF1 QCBSL HTUR DCAL TVD HBHK RGR RDF2 DPHI_LIM AZIM TENS DRTA NCYT S2TM CDF HET GCF2 CHI2 C2SP[0] TNRA MURA NPHI_DOL VCL_HILT TDSP ECGR ICV CS MBHK DF HUPR RHGX_HILT STIT RTNR FF NPHI_LIM GCF1 R
OAZ ESSZ[0] CVEL PTHR RCNT EBSZ[0] CNTC RHET GR MSGR ELSZ[0] PXND_HILT BSD1 CHI1 HTEM GHD S1AT VSEC DNPH BHPR RMFA_HILT QCPOR RAZ_EDTC HDAR HSGR CFTC DPHI_DOL S1SP[0] MTHO PCGR NPOR_DOL MD AREA RCOR ERMC QCRXO RSOI RVV RXV FCBR[0] RCOS EHMR HRCAL ERBR[0] BSW[0] RXOI HCAL LSW[0] SSW[0] HDRX ERXO BSWU[0] LHEW LSWU[0] LWTO SSWU[0] DPH8 PEFSA PEMZ EHGR COF4 HDRA PEA HTNP HGR_EDTC RHO8 PEFLA RHSA QCRH U8 RHBA HTNP_DOL HNPO HDRT RHFT RXOZ ROMZ
DSO8 EPE8 HDRB RSO8 EHM8 EHGR_EDTC HNPO_SAN HTAL HPRA QCPEF DSOZ RHGR ERO8 HNPO_LIM HTNP_LIM PEFBA HMIN HDPH_DOL DPHZ RHNT HCNT RHOZ HDPH_SAN PEM8 EHMZ HTNP_SAN COF2 EROZ RHLA RSOZ HDPH_LIM EPEZ RXO8 PEF8 HNPO_DOL COF3 RMCZ HMNO GREZ HCFT UZ PEFZ HGR ROM8 RXGR FTIM RXRU RVSRU FCAZ RVDRU AMC[0] AMF ATCE ATSE ADES ATOM ABFR ACES ADI07 ADI11 ADI15 ADI22 ADI27 AE10 AE20 AE30 AE60 AE90 AECEF AECF AECO10 AECO20 AECO30 AECO60 AECO90 AECW AEH
F AEMF AERS AF10 AF20 AF30 AF60 AF90 AFCB[0] AFCO10 AFCO20 AFCO30 AFCO60 AFCO90 AFD1 AFD2 AFOO AFRT AFRX AFVM AIBC[0] AIBD AIEC[0] AIFC[0] AIMR AO10 AO20 AO30 AO60 AO90 AOCB[0] AOCO10 AOCO20 AOCO30 AOCO60 AOCO90 AOD1 AOD2 AOOO AORT AORX AOVM AQABN[0] AT10 AT20 AT30 AT60 AT90 ATCB[0] ATCO10 ATCO20 ATCO30 ATCO60 ATCO90 ATD1 ATD2 ATOO ATRT ATRX ATVM NPOR_SAN NPOR_LIM NPHI_LIM NPHI_SAN TNPH_LIM TNPH_SAN
#
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