LAS Header
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Specific Well--15-055-22240
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
~Well Information Block
#MNEM.UNIT VALUE/NAME DESCRIPTION
#--------- ----------- ---------------------------
STRT.F 1614.5000: START DEPTH
STOP.F 5281.0000: STOP DEPTH
STEP.F 0.5000: STEP DEPTH
NULL. -999.2500: NULL VALUE
LOC . (SHL) 414' FSL & 1672' FEL: LOCATION
SECT. 36: SECTION
TOWN. 25 S: TOWNSHIP
RANG. 33 W: RANGE
CNTY. FINNEY: COUNTY NAME
FLD . HUGOTON GAS AREA: FIELD NAME
UWI . 15055222400000: UNIQUE WELL IDENTIFIER
API . 15055222400000: API NUMBER
WELL. DRUSSEL E-4: WELL NAME
COMP. OXY USA INC.: COMPANY
DATE. 09-Oct-2013: DATE
PROV. KANSAS: PROVINCE
STAT. KANSAS: ST
ATE NAME
CTRY. USA: COUNTRY NAME
SRVC. Halliburton: SERVICE COMPANY
~Parameter Information Block
#MNEM.UNIT Value Description
#--------- ----------- ---------------------------
CBL .ft 1640.000000: Casing Logged
BRMP. 0: BromidePresent
DLAB. 09-Oct-13: LogStartDateT
TLAB. 08 45: LogStartTimeT
DATE. 09-Oct-13: Run Date
LSTM.ucts 08.44.48 09-Oct-13: Log Start Time
SVCS. RWCH, GTET, HFDT-I, DSNT, SDLT, BSAT, ACRt Sonde: Services
SVCN. SP-GTET-HFDT-DSN-SDL-FLEX-BSAT-ACRT-CH: Service Name
RUN . ONE: Run Number
IQVR. WL INSITE R3.8.4 (Build 5): WLIQ Version
TDCE.ucts 05.43.28 09-Oct-13: Time Circ End
TCS . 05 42: Time Ciculation Ended
DCS . 09-Oct-13: DateCircEndT
ENGI. J. BOLLOM: Engineer Name
LUN . 11230668: LoggingUnitNu
m
LUL . LIBERAL: LoggingUnitLoc
R1 . ANNULAR HOLE VOLUME CALCULATED FOR 5.5-INCH CASING: Remarks Line 1
R2 . CHLORIDES REPORTED AT 3,000 MG/L: Remarks Line 2
R3 . LCM REPORTED AT 2 LB/BBL: Remarks Line 3
R4 . GTET-HFDT-DSNT-SDLT-BSAT-ACRT RUN IN COMBINATION: Remarks Line 4
TDL .ft 5293.000000: Depth Logger
TCS .hr 5.000000: Time Ciculation Ended
DFT . WATER BASED MUD: Mud Type
DFD .ppg 10.000000: Mud Density
DFV .s/qt 42.000000: Mud Viscosity
PH .pH 9.900000: Mud pH
DFL .cptm 8.800000: Fluid Loss
MRT .degF 140.000000: Maximum Recorded Temperature
MSS . MUD PIT: Mud Sample Source
RMCS. MEASURED: Mud Cake Resistivity
MFSS. MEASURED: Rmf Source
RMS .ohmm 1.300000: Mud Resistivity
MST .degF 75.000000: Mud Sample Temperature
RMCS.ohmm 1.55
0000: Mud Cake Resistivity
MCST.degF 75.000000: Mud Cake Sample Temperature
RMFS.ohmm 1.070000: Mud Filtrate Resistivity
RMFT.degF 75.000000: Mud Filtrate Sample Temperature
RMB .ohmm 0.720000: Rm @ BHT
MTD .ft 5293.000000: Max Temp Depth
BHT .degF 140.000000: BottomHole Temp
WITN. G. FLAGG: Witness Name
TDD .ft 5293.000000: Depth Driller
CBD .ft 1640.000000: Casing Depth
BS .in 7.875000: Bit Size
CS .in 8.625000: Casing OD
CDS .ft 0.000000: CasingStartDep
~Curve Information Block
#MNEM.UNIT API CODE Curve Description
#--------- ----------- ---------------------------
DEPT.F 00 000 000 000: Depth
RT90.ohmm 00 000 000 000: RT90
RT60.ohmm 00 000 000 000: 60in Resistivity 2ft Res
RT30.ohmm 00 000 000 000: 30in Resistiv
ity 2ft Res
RT20.ohmm 00 000 000 000: 20in Resistivity 2ft Res
RT10.ohmm 00 000 000 000: RT10
GR .api 00 000 000 000: Gamma API
RULC.ohmm 00 000 000 000: FRUL_C
PULC.decp 00 000 000 000: FPHXUL_C
EULC. 00 000 000 000: FEUL_C
CALI.in 00 000 000 000: Caliper
SP .mV 00 000 000 000: SP
XPHI.decp 00 000 000 000: CrossplotPhi
~OTHER INFORMATION SECTION
DRUSSEL_E-4\0001 SP-GTET-HFDT-DSN-SDL-FLEX-BSAT-ACRT-CH\004 09-Oct-13 10:01 Up @5294.3f
SERVICE
SP-GTET-HFDT-DSN-SDL-FLEX-BSAT-ACRT-CH
-----------------------------------------------------------------------------------------------
Tool Tool Name Serial Weight Length Length
Mnemonic Number (lbs) (ft) Accumulation(ft)
--------
---------------------------------------------------------------------------------------
RWCH RWCH 11435227 135.00 6.25 90.17
SP SP Sub 12345678 60.00 3.74 86.43
GTET GTET 10748374 165.00 8.52 77.91
HFDT HFDT-I I258M331P434 435.00 16.14 61.77
DSNT DSNT* 10735145 180.60 9.69 52.08
SDLT SDLT** 10673803 433.00 10.81 41.27
IQF IQ Flex 10000954 140.00 5.67 35.60
BSAT BSAT* 10747684 308.00 15.77 19.83
ACRt ACRt Instrument* 10929776 58.00 5.03 14.80
ACRt ACRt Sonde 10929775
200.00 14.22 0.58
CBHD Cabbage Head 00000954 10.00 0.58 0.00
-----------------------------------------------------------------------------------------------
Total 2124.60 96.42
" * " = Overbody Attached
PARAMETERS
--------------------------------------------------------------------------------------------------------------------------
Tool Name Mnemonic Description Value Units
--------------------------------------------------------------------------------------------------------------------------
TOP --------------------------------------------
SHARED BS Bit Size 7.875 in
SHARED
UBS Use Bit Size instead of Caliper for all applications. No
SHARED MDBS Mud Base Water
SHARED MDWT Borehole Fluid Weight 10.000 ppg
SHARED WAGT Weighting Agent Natural
SHARED BSAL Borehole salinity 0.00 ppm
SHARED FSAL Formation Salinity NaCl 0.00 ppm
SHARED KPCT Percent K in Mud by Weight? 0.00 %
SHARED RMUD Mud Resistivity 2.000 ohmm
SHARED TRM
Temperature of Mud 75.0 degF
SHARED CSD Logging Interval is Cased? No
SHARED ICOD AHV Casing OD 5.500 in
SHARED ST Surface Temperature 75.0 degF
SHARED TD Total Well Depth 5293.00 ft
SHARED BHT Bottom Hole Temperature 200.0 degF
SHARED SVTM Navigation and Survey Master Tool NONE
SHARED AZTM High Res Z Accelerometer Master Tool GTET
SHARED TEMM Temperature Mas
ter Tool NONE
SHARED BHSM Borehole Size Master Tool NONE
Rwa / CrossPlot XPOK Process Crossplot? Yes
Rwa / CrossPlot FCHO Select Source of F Automatic
Rwa / CrossPlot AFAC Archie A factor 0.6200
Rwa / CrossPlot MFAC Archie M factor 2.1500
Rwa / CrossPlot RMFR Rmf Reference 0.10 ohmm
Rwa / CrossPlot TMFR Rmf Ref Temp 75.00 degF
Rwa / CrossPlot RWA Resistivity of Formation Water
0.05 ohmm
Rwa / CrossPlot ADP Use Air Porosity to calculate CrossplotPhi No
GTET GROK Process Gamma Ray? Yes
GTET GRSO Gamma Tool Standoff 0.000 in
GTET GEOK Process Gamma Ray EVR? No
GTET TPOS Tool Position for Gamma Ray Tools. Eccentered
HFDT-I HFOK Do HFDT Calculations? Yes
HFDT-I RMF Mud Filtrate Resistivity 0.70 ohmm
HFDT-I RMFT Temperature of Mud Filtrate
132.00 degF
HFDT-I MDIL Matrix Dielectric Constant 8.000
HFDT-I HRTC HFDT Insite Temperature Correction Source PADTEMP1
HFDT-I CLOK Process Caliper Outputs? Yes
HFDT-I SAO SDL Backup Arm Offset 0.00 in
HFDT-I PAO Pad Arm Offset 0.00 in
HFDT-I MLOK Process MicroLog Outputs? Yes
HFDT-I MINO Microlog Lateral Offset 0.00 ohmm
HFDT-I MNOO Microlog Normal Offset 0.
00 ohmm
SDLT CLOK Process Caliper Outputs? Yes
ACRt Sonde RTOK Process ACRt? Yes
ACRt Sonde MNSO Minimum Tool Standoff 1.50 in
ACRt Sonde TCS1 Temperature Correction Source FP Lwr & FP Up
r
ACRt Sonde TPOS Tool Position Free Hanging
ACRt Sonde RMOP Rmud Source Mud Cell
ACRt Sonde RMIN Minimum Resistivity for MAP 0.20 ohm
m
ACRt Sonde RMIN Maximum Resistivity for MAP 200.00 ohmm
ACRt Sonde THQY Threshold Quality 0.50
ACRt Sonde RMBH Use RMud from BHPT? No
ACRt Sonde MRFX Fixed mud resistivity 2000 ohmm
BOTTOM --------------------------------------------
INPUTS, DELAYS AND FILTERS
------------------------------------------------------------------------------------------------------------------------
Mnemonic Input Description Delay Filter Length Filter Type
(ft) (ft)
-----
-------------------------------------------------------------------------------------------------------------------
SP Sub
PLTC Plot Control Mask 88.390 NO
SP Spontaneous Potential 88.390 1.250 BLK
SPR Raw Spontaneous Potential 88.390 NO
SPO Spontaneous Potential Offset 88.390 NO
GTET
TPUL Tension Pull 80.368 NO
GR Natural Gamma Ray API 80.368 1.750 TRI
GRU Unfilt
ered Natural Gamma Ray API 80.368 NO
EGR Natural Gamma Ray API with Enhanced Vertical Resolution 80.368 1.416 , 0.750 W
ACCZ Accelerometer Z 0.000 0.083 BLK
DEVI Inclination 0.000 NO
HFDT-I
TPUL Tension Pull 64.833 NO
IUXU HFDT Insite In-phase Component of Upper Receiver - TXUon TXL 64.833 NO
off
QUXU HFDT Insite Quadrture Component of Upper Receiver - TXUon TX 64.833 NO
LoffHFDT-I Receiver
IMXU HFDT Insite In-phase Component of Middle Receiver TXUon TXL 64.833 NO
off
QMXU HFDT Insite Quadrture Component of Middle Receiver TXUon TX 64.833 NO
LoffHFDT-I Receiver
ILXU HFDT Insite In-phase Component of Lower Receiver TXUon TXLo 64.833 NO
ff
QLXU HFDT Insite Quadrture Component of Lower Receiver TXUon TXL 64.833 NO
off
IUXL HFDT Insite In-phase Component of Upper Receiver TXUoff TXL 64.833 NO
on
QUXL HFDT Insite Quadrture Component of Upper Receiver TXUoff TX 64.833 NO
Lon
IMXL HFDT Insite In-phase Component of Middle Receiver TXUoff TX 64.833 NO
Lon
QMXL HFDT Insite Quadrture Component of Middle Receiver TXUoff T 64.833 NO
XLonHFDT-I Receiver
ILXL HFDT Insite In-phase Component of Lower Receiver TXUoff TXL 64.833 NO
on
QLXL HFDT Insite Quadrture Component of Lower Receiver TXUoff TX 64.833 NO
Lon
TEX1 HFDTInsite External Pad Temperature Measurement 1 64.056 NO
TEX2 HFDTInsite External Pad Temperature Measurement 2 64.056 NO
STAT HFDT Insite Pad Status Word 64.833 NO
TPUL Tension Pull 64.590
NO
PCAL Pad Caliper 64.590 0.250 TRI
ACAL Arm Caliper 64.590 0.250 TRI
TPUL Tension Pull 64.775 NO
MINV Microlog Lateral 64.775 0.750 BLK
MNOR Microlog Normal 64.775 0.750 BLK
SDLT
TPUL Tension Pull 44.090 NO
PCAL Pad Caliper 44.090 0.250 TRI
ACAL Arm Caliper
44.090 0.250 TRI
ACRt Sonde
TPUL Tension Pull 2.974 NO
F1R1 ACRT 12KHz - 80in R value 9.224 0.000 BLK
F1X1 ACRT 12KHz - 80in X value 9.224 0.000 BLK
F1R2 ACRT 12KHz - 50in R value 6.724 0.000 BLK
F1X2 ACRT 12KHz - 50in X value 6.724 0.000 BLK
F1R3 ACRT 12KHz - 29in R value 5.224 0.000 BLK
F1X3 ACRT 12KHz - 29in X value 5.224 0.000 BLK
F1R4
ACRT 12KHz - 17in R value 4.224 0.000 BLK
F1X4 ACRT 12KHz - 17in X value 4.224 0.000 BLK
F1R5 ACRT 12KHz - 10in R value 3.724 0.000 BLK
F1X5 ACRT 12KHz - 10in X value 3.724 0.000 BLK
F1R6 ACRT 12KHz - 6in R value 3.474 0.000 BLK
F1X6 ACRT 12KHz - 6in X value 3.474 0.000 BLK
F2R1 ACRT 36KHz - 80in R value 9.224 0.000 BLK
F2X1 ACRT 36KHz - 80in X value 9.224 0.000 BLK
F2R2 ACRT 36KHz - 50in R value
6.724 0.000 BLK
F2X2 ACRT 36KHz - 50in X value 6.724 0.000 BLK
F2R3 ACRT 36KHz - 29in R value 5.224 0.000 BLK
F2X3 ACRT 36KHz - 29in X value 5.224 0.000 BLK
F2R4 ACRT 36KHz - 17in R value 4.224 0.000 BLK
F2X4 ACRT 36KHz - 17in X value 4.224 0.000 BLK
F2R5 ACRT 36KHz - 10in R value 3.724 0.000 BLK
F2X5 ACRT 36KHz - 10in X value 3.724 0.000 BLK
F2R6 ACRT 36KHz - 6in R value 3.
474 0.000 BLK
F2X6 ACRT 36KHz - 6in X value 3.474 0.000 BLK
F3R1 ACRT 72KHz - 80in R value 9.224 0.000 BLK
F3X1 ACRT 72KHz - 80in X value 9.224 0.000 BLK
F3R2 ACRT 72KHz - 50in R value 6.724 0.000 BLK
F3X2 ACRT 72KHz - 50in X value 6.724 0.000 BLK
F3R3 ACRT 72KHz - 29in R value 5.224 0.000 BLK
F3X3 ACRT 72KHz - 29in X value 5.224 0.000 BLK
F3R4 ACRT 72KHz - 17in R value 4.224 0.000 BLK
F3X4 ACRT 72KHz - 17in X value 4.224 0.000 BLK
F3R5 ACRT 72KHz - 10in R value 3.724 0.000 BLK
F3X5 ACRT 72KHz - 10in X value 3.724 0.000 BLK
F3R6 ACRT 72KHz - 6in R value 3.474 0.000 BLK
F3X6 ACRT 72KHz - 6in X value 3.474 0.000 BLK
RMUD Mud Resistivity 12.764 0.000 BLK
F1RT Transmitter Current Raw 12K X Receiver 2.974 0.000 BLK
F1XT Transmitter Reference 12 KHz Imaginary Signal 2.974 0.000 BLK
F2RT Transm
itter Reference 36 KHz Real Signal 2.974 0.000 BLK
F2XT Transmitter Reference 36 KHz Imaginary Signal 2.974 0.000 BLK
F3RT Transmitter Reference 72 KHz Real Signal 2.974 0.000 BLK
F3XT Transmitter Reference 72 KHz Imaginary Signal 2.974 0.000 BLK
TFPU Upper Feedpipe Temperature Calculated 2.974 0.000 BLK
TFPL Lower Feedpipe Temperature Calculated 2.974 0.000 BLK
ITMP Instrument Temperature 2.974 0.000 BLK
TCVA Temperature Correction Values Loop Off 2.974 NO
TIDV Instrument Temperature Derivative
2.974 NO
TUDV Upper Temperature Derivative 2.974 NO
TLDV Lower Temperature Derivative 2.974 NO
TRBD Receiver Board Temperature 2.974 NO
OUTPUTS
------------------------------------------------------------------------------------------------------------
Mnemonic Output Description Filter Length Filter Type
(ft)
------------------------------------------------------------------------------------------------------------
Rwa / CrossPlot
F
Formation Factor NO
RWA Resistivity of Formation Water NO
XPHI Crossplot Porosity NO
RXRT RXO/RT NO
RMF Resistivity Mud Filtrate 1.750 BLK
SXO Flushed Zone Saturation 1.750 BLK
SWA Apparent Water Saturation 1.750 BLK
MFVL Mud Filtrate Volume 1.750 BLK
CUMV Cumm.Mud Filtrate Volume 1.750 BLK
SP Sub
PLTC Plot Control Mask NO
SP Spontaneous Potential NO
SPR Raw Spontaneous Potential NO
SPO Spontaneous Potential Offset NO
GTET
ACCZ Accelerometer Z NO
DEVI Inclination NO
BTMP BoreHole Temperature NO
PLTC Plot Control Mask NO
EGR Natural Gamma Ray AP
I with Enhanced Vertical Resolution NO
EGRC Natural Gamma Ray API with Enhanced Vertical Resolution and NO
BHC
PLTC Plot Control Mask NO
BHAB Borehole Absorption NO
BHCN Borehole Correction NO
ICID Inner Casing ID NO
KCTN Pottasium Correction NO
PLTC Plot Control Mask NO
GR Natural Gamma Ray API
NO
GRCO Natural Gamma Ray API Borehole Corrected NO
PLTC Plot Control Mask NO
BHAB Borehole Absorption NO
BHCN Borehole Correction NO
ICID Inner Casing ID NO
KCTN Pottasium Correction NO
HFDT-I
PLTC Plot Control Mask NO
TMPU Temperature Used NO
EULC
Dielectric Constant from diff. phase&l from RXU & RXL rcv NO
rs
EUMC Dielectric Constant from diff. phase&l from RXU & RXM rcv NO
rs
EMLC Dielectric Constant from diff. phase&l from RXM & RXL rcv NO
rs
EULU Dielectric frm diff. phase&l from RXU & RXL rcvrs TXU Wor NO
king
EUMU Dielectric frm diff. phase&l from RXU & RXM rcvrs TXU Wor NO
king
EMLU Dielectric frm diff. phase&l from RXM & RXL rcvrs TXU Wor NO
king
EULL Dielectric frm diff. phase&l from RXU & RXL rcvrs TXL Wor NO
king
EUML Dielectric frm diff. phase&l from RXU & RXM rcvrs TXL Wor NO
king
EMLL Dielectric frm diff. phase&l from RXM & RXL rcvrs TXL Wor NO
king
RULC Resistivity frm diffential phase&
l from RXU & RXL receive NO
rs
RUMC Resistivity frm diffential phase&l from RXU & RXM receive NO
rs
RMLC Resistivity frm diffential phase&l from RXM & RXL receive NO
rs
RULU Resistivity frm diff phase&l RXU & RXL receivers TXU wor NO
king
RUMU Resistivity frm diff phase&l RXU & RXM receivers TXU wor NO
king
RMLU Resistivity frm diff phase&l RXM & RXL receivers TXU wor NO
king
RULL Resistivity frm diff phase&l RXU & RXL receivers TXL wor NO
king
RUML Resistivity frm diff phase&l RXU&RXLM receivers TXL work NO
ing
RMLL Resistivity frm diff phase&l RXM & RXLMreceivers TXL wor NO
king
AUXU HFDT Insite Amplitude of Upper Receiver - TXUon TXLoff
NO
AMXU HFDT Insite Amplitude of Middle Receiver TXUon TXLoff NO
ALXU HFDT Insite Amplitude of Lower Receiver TXUon TXLoff NO
AUXL HFDT Insite Amplitude of Upper Receiver TXUoff TXLon NO
AMXL HFDT Insite Amplitude of Middle Receiver TXUoff TXLon NO
ALXL HFDT Insite Amplitude of Lower Receiver TXUoff TXLon NO
PUXU HFDT Insite Phase of Upper Receiver - TXUon TXLoff NO
PMXU HFDT Insite Phase Middle Receiver TXUon TXLoff NO
PLXU HFDT Insite Phase of Lower Receiver TXUon TXLoff NO
PUXL HFDT Insite Phase of Upper Receiver TXUoff TXLon NO
PMXL
HFDT Insite Phase of Middle Receiver TXUoff TXLon NO
PLXL HFDT Insite Phase of Lower Receiver TXUoff TXLon NO
EULC Ratio from diff. phase&l from RXU & RXL rcvrs NO
EUMC Ratio from diff. phase&l from RXU & RXM rcvrs NO
EMLC Ratio from diff. phase&l from RXM & RXL rcvrs NO
EULU Ratio frm diff. phase&l from RXU & RXL rcvrs TXU Working NO
EUMU Ratio frm diff. phase&l from RXU & RXM rcvrs TXU Working NO
EMLU Ratio frm diff. phase&l from RXM & RXL rcvrs TXU Working NO
EULL Ratio frm diff. phase&l from RXU & RXL rcvrs TXL Working NO
EUML Rat
io frm diff. phase&l from RXU & RXM rcvrs TXL Working NO
EMLL Ratio frm diff. phase&l from RXM & RXL rcvrs TXL Working NO
NULC Dphase from diff. phase&l from RXU & RXL rcvrs NO
NUMC Dphase from diff. phase&l from RXU & RXM rcvrs NO
NMLC Dphase from diff. phase&l from RXM & RXL rcvrs NO
NULU Dphase frm diff. phase&l from RXU & RXL rcvrs TXU Working NO
NUMU Dphase frm diff. phase&l from RXU & RXM rcvrs TXU Working NO
NMLU Dphase frm diff. phase&l from RXM & RXL rcvrs TXU Working NO
NULL Dphase frm diff. phase&l from RXU & RXL rcvrs TXL Working NO
NUML Dphase frm diff. phase
&l from RXU & RXM rcvrs TXL Working NO
NMLL Dphase frm diff. phase&l from RXM & RXL rcvrs TXL Working NO
TEX1 HFDTInsite External Pad Temperature Measurement 1 NO
TEX2 HFDTInsite External Pad Temperature Measurement 2 NO
TUMU Travel velocity based on u/m rcvrs from upper xmtr. NO
TMLU Travel velocity based on m/l rcvrs from upper xmtr. NO
TULU Travel velocity based on u/l rcvrs from upper xmtr. NO
TUML Travel velocity based on u/m rcvrs from lower xmtr. NO
TMLL Travel velocity based on m/l rcvrs from lower xmtr. NO
TULL Travel velocity based on u/l rcvrs from l
ower xmtr. NO
TUMC Travel velocity based on u/m rcvrs from compensated. NO
TMLC Travel velocity based on m/l rcvrs from compensated. NO
TULC Travel velocity based on u/l rcvrs from compensated. NO
AUMU Wave attenuation based on u/m rcvrs from Upper xmtr. NO
AMLU Wave attenuation based on m/l rcvrs from Upper xmtr. NO
AULU Wave attenuation based on u/l rcvrs from Upper xmtr. NO
AUML Wave attenuation based on u/m rcvrs from Lower xmtr. NO
AMLL Wave attenuation based on m/l rcvrs from Lower xmtr. NO
AULL Wave attenuation based on u/l rcvrs from Lower xmtr.
NO
AUMC Wave attenuation based on u/m rcvrs from compensated. NO
AMLC Wave attenuation based on m/l rcvrs from compensated. NO
AULC Wave attenuation based on u/l rcvrs from compensated. NO
FPHXUM_TXU HFDT porosity upper/middle rcvrs upper xmtr NO
FPHXML_TXU HFDT porosity middle/lower rcvrs upper xmtr NO
FPHXUL_TXU HFDT porosity upper/lower rcvrs upper xmtr NO
FPHXUM_TXL HFDT porosity upper/middle rcvrs lower xmtr NO
FPHXML_TXL HFDT porosity middle/lower rcvrs lower xmtr NO
FPHXUL_TXL HFDT porosity upper/lower rcvrs lower xmtr NO
FPHXUM_C HFDT porosity upper/middle rcvrs compensated NO
FPHXML_C HFDT porosity middle/lower rcvrs compensated NO
FPHXUL_C HFDT porosity upper/lower rcvrs compensated NO
FPHYUM_TXU HFDT quality upper/middle rcvrs upper xmtr NO
FPHYML_TXU HFDT quality middle/lower rcvrs upper xmtr NO
FPHYUL_TXU HFDT quality upper/lower rcvrs upper xmtr NO
FPHYUM_TXL HFDT quality upper/middle rcvrs lower xmtr NO
FPHYML_TXL HFDT quality middle/lower rcvrs lower xmtr NO
FPHYUL_TXL HFDT quality upper/lower rcvrs lower xmtr NO
FPHYUM_C
HFDT quality upper/middle recvrs compensated NO
FPHYML_C HFDT Quality middle/lower recvrs compensated NO
FPHYUL_C HFDT Qualaity upper/lower rcvrs compensated NO
PLTC Plot Control Mask NO
EULC Low-Reso Dielectric frm diff phase&l RXU & RXL receiver NO
s
EUMC Low-Reso Dielectric frm diff phase&l RXU & RXM receiver NO
s
EMLC Low-Reso Dielectric frm diff phase&l RXM& RXL receivers NO
EULU Low-Reso
Dielectric frm diff phase&l RXU& RXL receivers NO
TXU
EUMU Low-Reso Dielectric frm diff phase&l RXU& RXM receivers NO
TXU
EMLU Low-Reso Dielectric frm diff phase&l RXM& RXL receivers NO
TXU
EULL Low-Reso Dielectric frm diff phase&l RXU& RXL receivers NO
TXL
EUML Low-Reso Dielectric frm diff phase&l RXU& RXM receivers NO
TXL
EMLL Low-Reso Dielectric frm diff phase&l RXM& RXL receivers NO
TXL
RULC Low-Reso Resistivity. frm diff phase&l RXU& RXL receive NO
rs
RUMC Low-Reso Resistivity. frm diff phase&l RXU& RXLM receiv NO
ers
RMLC Low-Reso Resistivity. frm diff phase&l RXM& RXL receive NO
rs
RULU Low-Reso Resistivity. frm diff phase&l RX
U& RXL recvrs NO
TXU
RUMU Low-Reso Resistivity. frm diff phase&l RXU& RXM recvrs NO
TXU
RMLU Low-Reso Resistivity. frm diff phase&l RXM& RXL recvrs NO
TXU
RULL Low-Reso Resistivity. frm diff phase&l RXU& RXL recvrs NO
TXL
RUML Low-Reso Resistivity. frm diff phase&l RXU& RXM recvrs NO
TXL
RMLL Low-Reso Resistivity. frm diff phase&l RXM& RXL recvrs NO
TXL
TUU4 Low Reso. Travel velocity based on u/m rcvrs from upper xmtr NO
.
TMU4 Low Reso. Travel velocity based on u/l rcvrs from upper xmtr NO
.
TLU4 Low Reso. Travel velocity based on u/l rcvrs from upper xmtr NO
.
TUL4 Low Reso. Travel velocity based on u/m rcvrs from lower xmtr NO
.
TML4 Low Reso. Travel velocity based on m/l rcvrs from lower xmtr NO
.
TLL4 Low Reso. Travel velocity based on u/l rcvrs from lower xmtr NO
.
TUC4 Low Reso. Travel velocity based on u/m rcvrs from compensate NO
d.
TMC4 Low Reso. Travel velocity based on m/l rcvrs from compensate NO
d.
TLC4
Low Reso. Travel velocity based on u/l rcvrs from compensate NO
d.
AUU4 Low Reso. Wave attenuation based on u/m rcvrs from upper xmt NO
r.
AMU4 Low Reso. Wave attenuation based on m/l rcvrs from upper xmt NO
r.
ALU4 Low Reso. Wave attenuation based on u/l rcvrs from upper xmt NO
r.
AUL4 Low Reso. Wave attenuation based on u/m rcvrs from lower xmt NO
r.
AML4 Low Reso. Wave attenuation based on m/l rcvrs from lower xmt NO
r.
ALL4 Low Reso. Wave attenuation based on u/l rcvrs from lower xmt NO
r.
AUC4 Low Reso. Wave attenuation based on u/m rcvrs from compensat NO
ed.
AMC4 Low Reso. Wave attenuation based on m/l rcvrs from compensat NO
ed.
ALC4 Low Reso. Wave attenuation based
on u/l rcvrs from compensat NO
ed.
PUU4 HFDT low resolution porosity upper/middle rcvrs upper xmtr NO
PMU4 HFDT low resolution porosity middle/lower rcvrs upper xmtr NO
PLU4 HFDT low resolution porosity upper/lower rcvrs upper xmtr NO
PUL4 HFDT low resolution porosity upper/middle rcvrs lower xmtr NO
PML4 HFDT low resolution porosity middle/lower rcvrs lower xmtr NO
PLL4 HFDT low resolution porosity upper/lower rcvrs lower xmtr NO
PUC4 HFDT low resolution porosity upper/middle rcvrs compensated NO
PMC4 HFDT low resolution porosity middle/lower rcvrs com
pensated NO
PLC4 HFDT low resolution porosity upper/lower rcvrs compensated NO
QUU4 HFDT low resolution quality upper/middle rcvrs upper xmtr NO
QMU4 HFDT low resolution quality middle/lower rcvrs upper xmtr NO
QLU4 HFDT low resolution quality upper/lower rcvrs upper xmtr NO
QUL4 HFDT low resolution quality upper/middle rcvrs lower xmtr NO
QML4 HFDT low resolution quality middle/lower rcvrs lower xmtr NO
QLL4 HFDT low resolution quality upper/lower rcvrs lower xmtr NO
QUC4 HFDT low resolution quality upper/middle recvrs compensated NO
QMC4 HFDT low resolution quality middle/lower recvrs compensated
NO
QLC4 HFDT low resolution Qualaity upper/lower rcvrs compensated NO
PLTC Plot Control Mask NO
CALI Caliper Measurement NO
DCAL Differential Caliper Measurement NO
BHV Borehole Volume Increment NO
AHV Annular Hole Volume Increment NO
BHVT Bore Hole Volume NO
AHVT Annular Hole Volume NO
HDIA Measured Hole Diameter NO
A
CAL Arm Caliper NO
PCAL Pad Caliper NO
PLTC Plot Control Mask NO
MINV Microlog Lateral NO
MNOR Microlog Normal NO
SDLT
PLTC Plot Control Mask NO
CALI Caliper Measurement NO
DCAL Differential Caliper Measurement NO
BHV Borehole Volume Increment
NO
AHV Annular Hole Volume Increment NO
BHVT Bore Hole Volume NO
AHVT Annular Hole Volume NO
HDIA Measured Hole Diameter NO
ACAL Arm Caliper NO
PCAL Pad Caliper NO
ACRt Sonde
PLTC Plot Control Mask NO
RO90 90in Resistivity 1ft Res NO
RO60 60 in
Radial Resistivity 1ft NO
RO30 30 in Radial Resistivity 1ft NO
RO20 20 in Radial Resistivity 1ft NO
RO10 10 in Radial Resistivity 1ft NO
RO06 6 in Radial Resistivity 1ft NO
RT90 90 in Radial Resistivity 2ft NO
RT60 60 in Radial Resistivity 2ft NO
RT30 30 in Radial Resistivity 2ft NO
RT20 20 in Radial Resistivity 2ft NO
RT10 10 in Radial Resistivity
2ft NO
RT06 6 in Radial Resistivity 2ft NO
RF90 90 in Radial Resistivity 4ft NO
RF60 60 in Radial Resistivity 4ft NO
RF30 30 in Radial Resistivity 4ft NO
RF20 20 in Radial Resistivity 4ft NO
RF10 10 in Radial Resistivity 4ft NO
RF06 6 in Radial Resistivity 4ft NO
CO90 90 in Radial Conductivity 1ft NO
CO60 60 in Radial Conductivity 1ft
NO
CO30 30 in Radial Conductivity 1ft NO
CO20 20 in Radial Conductivity 1ft NO
CO10 10 in Radial Conductivity 1ft NO
CO6 6 in Radial Conductivity 1ft NO
CT90 90 in Radial Conductivity 2ft NO
CT60 60 in Radial Conductivity 2ft NO
CT30 30 in Radial Conductivity 2ft NO
CT20 20 in Radial Conductivity 2ft NO
CT10 10 in Radial Conductivity 2ft
NO
CT6 6 in Radial Conductivity 2ft NO
CF90 90 in Radial Conductivity 4ft NO
CF60 60 in Radial Conductivity 4ft NO
CF30 30 in Radial Conductivity 4ft NO
CF20 20 in Radial Conductivity 4ft NO
CF10 10 in Radial Conductivity 4ft NO
CF6 6 in Radial Conductivity 4ft NO
LMAN Left Mandrel NO
RMAN Right Mandrel NO
RSO Right Standoff NO
LSO Left Standoff NO
TMPF Upper Feedpipe Temperature Calculated NO
ECC Eccentricity - Distance from tool center to hole center NO
CDIA Calculated Diameter NO
RT Uninvaded Zone Resistivity NO
RXO Invaded Zone Resistivity NO
RXRT RXO/RT NO
DI Radial Depth of Invasion NO
DIIN
Radial Depth of Inner Invasion NO
DIOU Radial Depth of Outer Invasion NO
SMUD Mud Restivity - Calculated NO
RMUD Mud Restivity NO
X4PL X4Planner=RT90/RMUD*square(0.125-caliper) NO
BCD1 Borehole Corrections D1 NO
BCD2 Borehole Corrections D2 NO
BCD3 Borehole Corrections D3 NO
BCD4 Borehole Corrections D4 NO
BCU5 Borehole Co
rrections U5 NO
BCD6 Borehole Corrections D6 NO
SED1 Skin Effect Corrections D1 NO
SED2 Skin Effect Corrections D2 NO
SED3 Skin Effect Corrections D3 NO
SED4 Skin Effect Corrections D4 NO
SEU5 Skin Effect Corrections U5 NO
SED6 Skin Effect Corrections D6 NO
QBC1 BHC Quality 1 NO
QBC2 BHC Quality 2
NO
QBC3 BHC Quality 3 NO
QBC4 BHC Quality 4 NO
QBC5 BHC Quality 5 NO
QBC6 BHC Quality 6 NO
QFBHC0 BHC Quality Status 1 NO
QFBHC1 BHC Quality Status 2 NO
QFBHC2 BHC Quality Status 3 NO
QFBHC3 BHC Quality Status 4 NO
QFBHC4 BHC Quality Status 5
NO
QFBHC5 BHC Quality Status 6 NO
CALU Caliper Used NO
CALM caliper measurement indicator NO
RMGD Rmud Gradient Calculation NO
HRM1 Rt Resistivity MAP - One Foot NO
HRM2 Rt Resistivity Map - Two Ft NO
HRM4 Rt Resistivity Map - Four Ft NO
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