County: Field: Logging Date 01-Jul Schlumberger Depth ft. Depth Driller ft. Run Number One. Bottom Log Interval 4338.
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1 Witnessed By Mike Copeland Recorded By Matt Reiter Unit Number Location: 3082 Elk City, OK Logger on Bottom Time 01-Jul :51:39 Circulation Stopped Time 01-Jul :00:00 Max Recorded Temperatures degf BHT BHT Source RMF RMC Calculated Calculated Meas Temp degf Meas Temp degf Meas Temp degf Source of Sample Shale Shakers MUD Fluid Loss PH 7.6 cm Density Viscosity 8.9 lbm/gal Type Fluid In Hole Fresh Water Bit Size in Casing Schlumberger 314 ft Casing Driller Depth ft Top Log Interval 0.00 ft Bottom Log Interval ft Schlumberger Depth ft Depth Driller ft Logging Date 01-Jul-2012 Run Number One County: Field: Location: Well: Company: S 1W API Serial No. Section: Township: Range: Drilling Measured From: Kelly Bushing Log Measured From: Kelly Bushing ft above Perm.Datum Sumner Rome 330' FSL & 680' FEL Rusk DU Source Energy Midcon LLC Location: Permanent Datum: Ground Level Elev.: f D.F ft G.L ft 330' FSL & 680' FEL Elev. K.B ft GAMMA RAY - SP ARRAY INDUCTION PLATFORM EXPRESS County: Sumner State: Kansas Field: Rome Well: Rusk DU Company: Source Energy Midcon LLC THE USE OF AND RELIANCE UPON THIS RECORDED-DATA BY THE HEREIN NAMED COMPANY (AND ANY OF ITS AFFILIATES, PARTNERS, REPRESENTATIVES, AGENTS, CONSULTANTS AND EMPLOYEES) IS SUBJECT TO THE TERMS AND CONDITIONS AGREED UPON BETWEEN SCHLUMBERGER AND THE COMPANY, INCLUDING: (a) RESTRICTIONS ON USE OF THE RECORDED- DATA; (b) DISCLAIMERS AND WAIVERS OF WARRANTIES AND REPRESENTATIONS REGARDING COMPANY'S USE AND RELIANCE UPON THE RECORDED-DATA; AND (c) CUSTOMER'S FULL AND SOLE RESPONSIBILITY FOR ANY INFERENCE DRAWN OR DECISION MADE IN CONNECTION WITH THE USE OF THIS RECORDED-DATA. 1. Header 10. One Repeat Analysis 2. Disclaimer 10.1 Composite Summary 3. Contents 10.2 Log ( AIT 5 RA ) 4. Remarks and Equipment Summary 11. Calibration Report 5. Depth Summary 12. Composite 1 Main Pass 1" = 100' 6. Survey Record 12.1 Integration Summary 7. Composite 1 Main Pass 2" = 100' 12.2 Software Version 7.1 Integration Summary 12.3 Composite Summary 7.2 Software Version 12.4 Log ( AIT Basic Log Two ) 7.3 Composite Summary 12.5 Parameter Listing 7.4 Log ( AIT Basic Log Two ) 13. Tail 7.5 Parameter Listing 8. Composite 1 Main Pass 5" = 100' 8.1 Integration Summary 8.2 Software Version 8.3 Composite Summary 8.4 Log ( AIT 5 )
2 8.5 Parameter Listing 9. One Repeat Pass 5" = 100' 9.1 Integration Summary 9.2 Software Version 9.3 Composite Summary 9.4 Log ( AIT 5 ) 9.5 Parameter Listing One: Remarks Equip name Length MP name Offset LEH-QT : LEH-Q T:3077 DT C-H: EC H -KC :LL01 DTC -H:8297 MLT-B: MLT-B:11 CTEM HV 0.00 ToolStatus T elstatus Microlog Pa d Tools ran as per tool sketch Microlog Tool used for eccentralization only per geologist request No bowspring ran per client request Nuclear measurements affected by borehole ruggosity Max Temp: Deg. F Logs Ran from TD to Surface Casing, GR to Surface per geologist request Your crew today: Matt, Buddy, Ryan, Nick Thank you for choosing Schlumberger of Elk City, OK Adaptor_Head Microlog Sta tus GPIT -F: GPIH-B:1969 DHRU-F:0 GPIC -F :845 GPIT -F Incl inometer HGNS-H: HGNH:3835 NPV-N NSR-F :5226 HACCZ-H:2102 HMCA-H HGNS-H:4759 GPIT 0.00 Temperatur e GR HDRS-H: EC H-MEB:2972 HRCC-H:3965 HRMS-H:4723 Long Spacing: Short Spacing: GSR-J:5370 HRGD-H:4770 CNL Porosit y HMCA HGNS Accelerome 0.00 ter HRCC 24.24
3 Backscatter:0 GPV-Q MCFL Caliper TLD Density A IT -M: AMIS:229 AMRM Induction 7.91 Power Supp 7.91 ly Temperatur 7.91 e SP 0.08 Mud Resistiv 0.00 ity Head Tensio n TOOL_ZERO Lengths are in ft Maximum O uter Diameter = in Line: Sensor Location, V alue: Gating O ffset A ll measurements are relativ e to TO O L_ZERO Conveyance Type Wireline Rig Up Length at Surface ( ft ) Rig Up Length at Bottom ( ft ) Stretch Correction ( ft ) 2.90 Tool Zero Reference Check at Surface ( ft ) Rig Type 0.10 LAND Depth Remark 1 Depth Remark 2 Depth Remark 3 All Schlumberger Depth Control Policies Were Followed IDW used as primary Depth Control Device Z chart used as Secondary Depth Control Device Type IDW-B Serial Number 900 Calibration Date 09-JAN-2012 Calibrator Serial Number 33
4 Calibration Cable Type 7-39P-LXS Wheel Correction 1-3 Wheel Correction 2-3 Type CMTD-B/A Serial Number 2549 Calibration Date 09-JUN-2012 Calibrator Serial Number 1018 Calibration Points 10 Calibration RMS 14 Calibration Peak Error 27 Type Serial Number 7-39P-LXS U Logging Cable Length ( ft ) Method : Minimum Radius of Curvature DLS Method : Lubinski North Reference : True North Total Correction Formula : Magnetic Dec Latitude : degrees Longitude : degrees Measured Depth: 0.00 ft Inclination: 0.00 deg Azimuth: 0.00 deg True Vertical Depth: 0.00 ft North Displacement: 0.00 ft East Displacement: 0.00 ft 28 : Tie-In Point 0 : No correction 0 : Not Flagged Survey (ft) (deg) (deg) (ft) (ft) (ft) (ft) (ft) (ft) (deg) deg/100ft TIP MaxWell Application Patch SP EXP_APL-OPElevation EXP_APL-ADT HGNS-H HILT Gamma-Ray and Neutron Sonde, 150 degc AMIS Array Induction Sonde - M
5 One Log[4]:Up Up ft ft 01-Jul :44:39 AM 01-Jul :55:25 AM 0.52 ft One Log[5]:Up Up ft ft 01-Jul :01:49 AM 01-Jul :18:36 AM 0.00 ft All depths are referenced to toolstring zero Description: AIT Basic Log Two Format: Log ( AIT Basic Log Two ) Index Scale: 2 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:25 Channel Source Sampling AF20 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AF60 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AFCO60 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in HGNS[1]:HGNS-H[1]:HGNS-H[1] 6in SP AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 6in TIME_1900 WLWorkflow 0.1in TIME_ Time Marked every (s) Array Induction Four Foot Resistivity A60 (AF60) AIT_SpliceGroup[1] 0 ohm.m 50 Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Calibrated Gamma Ray () HGNS[1] 0 gapi Array Induction Four Foot Resistivity A20 (AF20) AIT_SpliceGroup[1] 0 ohm.m 50 Array Induction Four Foot Conductivity A60 (AFCO60) AIT_SpliceGroup[1] 1000 ms/m
6 550 SP AF20 AF60 AFCO
7 SP AF20 AF60 AFCO
8 SP AF20 AF60 AFCO
9 SP AF20 AF60 AFCO
10 SP AF20 AF60 AFCO
11 SP AF20 AF60 AFCO
12 SP AF20 AF60 AFCO
13 Borehole Borehole Ensemble provides common Borehole Parameters and Channels Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Calibrated Gamma Ray () HGNS[1] 0 gapi 150 Array Induction Four Foot Conductivity A60 (AFCO60) AIT_SpliceGroup[1] 1000 ms/m 0 Array Induction Four Foot Resistivity A60 (AF60) AIT_SpliceGroup[1] 0 ohm.m 50 TIME_ Time Marked every (s) Array Induction Four Foot Resistivity A20 (AF20) AIT_SpliceGroup[1] 0 ohm.m 50 Description: AIT Basic Log Two Format: Log ( AIT Basic Log Two ) Index Scale: 2 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:25 One: Parameters ABHM Array Induction Borehole Correction Mode AIT-M:AMIS:AMIS Compute Standoff ABLM Array Induction Basic Logs Mode AIT-M:AMIS:AMIS Normal ACDE Array Induction Casing Detection Enable AIT-M:AMIS:AMIS Yes ASTA Array Induction Tool Standoff AIT-M:AMIS:AMIS in BHS Borehole Status (Open or Cased Hole) Borehole Open BS Bit Size COMPLETION in CALI_SHIFT CALI Supplementary Offset HDRS-H:HRCC-H:HRCC-H 0.15 in CBLO Casing Bottom (Logger) COMPLETION 314 ft GCSE_DOWN_PASS Generalized Caliper Selection for WL Log Down Passes Borehole BS GCSE_UP_PASS Generalized Caliper Selection for WL Log Up Passes Borehole CALI GRSE Generalized Mud Resistivity Selection, from Measured or Borehole AMF Computed Mud Resistivity SP_SHIFT SP Shift AIT-M:AMIS:AMIS 89 mv SPDR SP Drift Per Foot AIT-M:AMIS:AMIS 0 mv/ft ICV Integrated Cement Volume GCSE_UP_PASS, GCSE_DOWN_PASS:One, FCD IHV Integrated Hole Volume GCSE_UP_PASS, GCSE_DOWN_PASS:One ft ft3 MaxWell Application Patch SP EXP_APL-OPElevation EXP_APL-ADT
14 HRCC-H HILT High-Resolution Control Cartridge, 150 degc HGNS-H HILT Gamma-Ray and Neutron Sonde, 150 degc AMIS Array Induction Sonde - M One Log[4]:Up Up ft ft 01-Jul :44:39 AM 01-Jul :55:25 AM 0.52 ft One Log[5]:Up Up ft ft 01-Jul :01:49 AM 01-Jul :18:36 AM 0.00 ft All depths are referenced to toolstring zero Description: AIT Basic Log One Format: Log ( AIT 5 ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:34 Channel Source Sampling AT10 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AT20 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AT30 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AT60 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AT90 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in CALI HDRS[1]:HRCC-H[1]:HRCC-H[1] 1in HGNS[1]:HGNS-H[1]:HGNS-H[1] 6in ICV Borehole 6in IHV Borehole 6in SP AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 6in TENS WLWorkflow 6in TIME_1900 WLWorkflow 0.1in TIME_ Time Marked every (s) Gamma Ray Back-Up Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Caliper (CALI) HDRS[1] 6 in 16 Calibrated Gamma Ray () HGNS[1] 150 gapi 300 Calibrated Gamma Ray () HGNS[1] 0 gapi 150 IHV - Integrated Hole Volume every (ft3) IHV - Integrated Hole Volume every (ft3) ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) Cable Tension (TENS) 5000 lbf 0 Array Induction Two Foot Resistivity A10 (AT10) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A20 (AT20) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A30 (AT30) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A60 (AT60) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A90 (AT90) AIT_SpliceGroup[1] 30
15 TENS
16 AT AT AT30 SP CALI 470 AT20 AT10 TENS
17 AT AT60
18 700 AT30 SP CALI 710 AT20 AT10 TENS
19 920 AT AT AT30 SP CALI 950 AT10 AT20 TENS
20 AT AT AT30 SP CALI 1190 AT20 AT10 TENS
21 AT AT AT30 SP CALI 1430 AT10 AT20 TENS
22 AT AT AT30 SP CALI 1670 AT20 AT10 TENS
23 AT AT AT30 CALI SP 1910 AT20 AT10 TENS
24 AT AT AT30 CALI SP 2150 AT10 AT20 TENS
25 AT AT AT30 CALI SP 2390 AT10 AT20 TENS
26 AT AT AT30 CALI SP AT20 AT10 TENS
27 AT AT AT30 CALI SP 2870 AT20 AT10 TENS
28 AT AT AT30 CALI SP 3110 AT20 AT10 TENS
29 AT AT60
30 3340 AT30 SP CALI 3350 AT20 AT10 TENS
31 3560 AT AT AT30 SP CALI 3590 AT10 AT20 TENS
32 AT AT AT30 CALI SP 3830 AT10 AT20 TENS
33 AT AT AT30 CALI SP 4070 AT20 AT10 TENS
34 AT AT AT30 CALI SP 4310 AT10 AT20 TENS Gamma Ray Back-Up Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Caliper (CALI) HDRS[1] 6 in 16 Calibrated Gamma Ray () HGNS[1] 150 gapi 300 Calibrated Gamma Ray () HGNS[1] 0 gapi 150 TIME_ Time Marked every (s) Array Induction Two Foot Resistivity A10 (AT10) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A20 (AT20) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A30 (AT30) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A60 (AT60) AIT_SpliceGroup[1] Array Induction Two Foot Resistivity A90 (AT90) AIT_SpliceGroup[1] ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) IHV - Integrated Hole Volume every (ft3) Cable Tension (TENS) 5000 lbf 0
35 IHV - Integrated Hole Volume every (ft3) Description: AIT Basic Log One Format: Log ( AIT 5 ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:34 One: Parameters ABHM Array Induction Borehole Correction Mode AIT-M:AMIS:AMIS Compute Standoff ABLM Array Induction Basic Logs Mode AIT-M:AMIS:AMIS Normal ACDE Array Induction Casing Detection Enable AIT-M:AMIS:AMIS Yes ASTA Array Induction Tool Standoff AIT-M:AMIS:AMIS in BHS Borehole Status (Open or Cased Hole) Borehole Open BS Bit Size COMPLETION in CALI_SHIFT CALI Supplementary Offset HDRS-H:HRCC-H:HRCC-H 0.15 in CBLO Casing Bottom (Logger) COMPLETION 314 ft CSODDRL Casing Outer Diameter - Zoned along driller depths COMPLETION in FCD Future Casing (Outer) Diameter COMPLETION in GCSE_DOWN_PASS Generalized Caliper Selection for WL Log Down Passes Borehole BS GCSE_UP_PASS Generalized Caliper Selection for WL Log Up Passes Borehole CALI GRSE Generalized Mud Resistivity Selection, from Measured or Borehole AMF Computed Mud Resistivity SP_SHIFT SP Shift AIT-M:AMIS:AMIS 89 mv SPDR SP Drift Per Foot AIT-M:AMIS:AMIS 0 mv/ft One: Parameters MAX_LOG_SPEED Toolstring Maximum Logging Speed 3600 ft/h ICV Integrated Cement Volume GCSE_UP_PASS, FCD ft3 IHV Integrated Hole Volume GCSE_UP_PASS ft3 MaxWell Application Patch SP EXP_APL-OPElevation EXP_APL-ADT Borehole Borehole Ensemble provides common Borehole Parameters and Channels HRCC-H HILT High-Resolution Control Cartridge, 150 degc HGNS-H HILT Gamma-Ray and Neutron Sonde, 150 degc AMIS Array Induction Sonde - M
36 One Log[2]:Up Up ft ft 01-Jul :17:41 AM 01-Jul :29:56 AM 2.60 ft All depths are referenced to toolstring zero Description: AIT Basic Log One Format: Log ( AIT 5 ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:37 Channel Source Sampling AT10 AIT-M:AMIS:AMIS 3in AT20 AIT-M:AMIS:AMIS 3in AT30 AIT-M:AMIS:AMIS 3in AT60 AIT-M:AMIS:AMIS 3in AT90 AIT-M:AMIS:AMIS 3in CALI HDRS-H:HRCC-H:HRCC-H 1in HGNS-H:HGNS-H:HGNS-H 6in ICV Borehole 6in IHV Borehole 6in SP AIT-M:AMIS:AMIS 6in TENS WLWorkflow 6in TIME_1900 WLWorkflow 0.1in TIME_ Time Marked every (s) Gamma Ray Back-Up Spontaneous Potential (SP) AIT-M -160 mv 40 Caliper (CALI) HDRS-H 6 in 16 Calibrated Gamma Ray () HGNS-H 150 gapi 300 Calibrated Gamma Ray () HGNS-H 0 gapi 150 IHV - Integrated Hole Volume every (ft3) IHV - Integrated Hole Volume every (ft3) ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) 3900 Cable Tension (TENS) 5000 lbf 0 Array Induction Two Foot Resistivity A10 (AT10) AIT-M Array Induction Two Foot Resistivity A20 (AT20) AIT-M Array Induction Two Foot Resistivity A30 (AT30) AIT-M Array Induction Two Foot Resistivity A60 (AT60) AIT-M Array Induction Two Foot Resistivity A90 (AT90) AIT-M
37 AT AT AT30 CALI SP 4070 AT20 AT10 TENS
38 AT AT AT30 SP CALI 4310 AT10 AT20 TENS Gamma Ray Back-Up Spontaneous Potential (SP) AIT-M -160 mv 40 Caliper (CALI) HDRS-H 6 in 16 Calibrated Gamma Ray () HGNS-H 150 gapi 300 Array Induction Two Foot Resistivity A10 (AT10) AIT-M Array Induction Two Foot Resistivity A20 (AT20) AIT-M Array Induction Two Foot Resistivity A30 (AT30) AIT-M Array Induction Two Foot Resistivity A60 (AT60) AIT-M
39 Calibrated Gamma Ray () HGNS-H 0 gapi 150 TIME_ Time Marked every (s) Array Induction Two Foot Resistivity A90 (AT90) AIT-M ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) IHV - Integrated Hole Volume every (ft3) IHV - Integrated Hole Volume every (ft3) Cable Tension (TENS) 5000 lbf 0 Description: AIT Basic Log One Format: Log ( AIT 5 ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:37 ABHM Array Induction Borehole Correction Mode AIT-M:AMIS:AMIS Compute Standoff ABLM Array Induction Basic Logs Mode AIT-M:AMIS:AMIS Normal ACDE Array Induction Casing Detection Enable AIT-M:AMIS:AMIS Yes ASTA Array Induction Tool Standoff AIT-M:AMIS:AMIS in BHS Borehole Status (Open or Cased Hole) Borehole Open BS Bit Size COMPLETION in CALI_SHIFT CALI Supplementary Offset HDRS-H:HRCC-H:HRCC-H 0.15 in CBLO Casing Bottom (Logger) COMPLETION 314 ft FCD Future Casing (Outer) Diameter COMPLETION in GCSE_DOWN_PASS Generalized Caliper Selection for WL Log Down Passes Borehole BS GCSE_UP_PASS Generalized Caliper Selection for WL Log Up Passes Borehole CALI GRSE Generalized Mud Resistivity Selection, from Measured or Borehole AMF Computed Mud Resistivity SP_SHIFT SP Shift AIT-M:AMIS:AMIS 89 mv SPDR SP Drift Per Foot AIT-M:AMIS:AMIS 0 mv/ft MAX_LOG_SPEED Toolstring Maximum Logging Speed 3600 ft/h One Log[2]:Up Up ft ft 01-Jul :17:41 AM 01-Jul :29:56 AM 2.60 ft One Log[4]:Up Up ft ft 01-Jul :44:39 AM 01-Jul :55:25 AM 0.52 ft All depths are referenced to toolstring zero Description: AIT Basic Log One Format: Log ( AIT 5 RA ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:38 Channel Source Sampling ICV Borehole 6in IHV Borehole 6in TIME_1900 WLWorkflow 0.1in
40 TIME_ Time Marked every (s) IHV Integrated Hole Volume every (ft3) IHV - Integrated Hole Volume every (ft3) ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) Main To Repeat Repeat To Main Array Induction One Foot Resistivity A90 (AO90) AIT-M Main To Repeat Repeat To Main Array Induction One Foot Resistivity A10 (AO10) AIT-M Main To Repeat Repeat To Main Main To Repeat Repeat To Main Cable Tension (TENS) lbf 0 Array Induction One Foot Resistivity A60 (AO60) AIT-M Main To Repeat Repeat To Main Gamma Ray (GR) HGNS-H 0 gapi 150 Main To Repeat Repeat To Main Caliper (CALI) HDRS-H 6 in Main To Repeat Repeat To Main Array Induction One Foot Resistivity A30 (AO30) AIT-M Main To Repeat Repeat To Main Array Induction One Foot Resistivity A20 (AO20) AIT-M
41 CALI GR 4070 AO30 AO20 AO10 AO90 AO60 TENS
42 CALI GR 4310 AO10 AO90 AO60 AO30 AO20 TENS Main To Repeat Repeat To Main Gamma Ray (GR) HGNS-H 0 gapi 150 Main To Repeat Main To Repeat Repeat To Main Array Induction One Foot Resistivity A90 (AO90) AIT-M Main To Repeat
43 Repeat To Main Caliper (CALI) HDRS-H 6 in 16 Repeat To Main Array Induction One Foot Resistivity A10 (AO10) AIT-M TIME_ Time Marked every (s) ICV - Integrated Cement Volume every (ft3) ICV - Integrated Cement Volume every (ft3) IHV - Integrated Hole Volume every (ft3) IHV - Integrated Hole Volume every (ft3) Main To Repeat Repeat To Main Array Induction One Foot Resistivity A60 (AO60) AIT-M Main To Repeat Repeat To Main Array Induction One Foot Resistivity A30 (AO30) AIT-M Main To Repeat Repeat To Main Array Induction One Foot Resistivity A20 (AO20) AIT-M Main To Repeat Repeat To Main Cable Tension (TENS) lbf 0 Description: AIT Basic Log One Format: Log ( AIT 5 RA ) Index Scale: 5 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:38 Array Induction Sonde - M AMIS 229 AITM Rm/SP Bottom Nose AMRM Master (EEPROM): 15:11:35 05-May-2012 Test Loop Gain - 0 Master Test Loop Phase - 0 deg Master Test Loop Gain - 1 Master Test Loop Phase - 1 deg Master Test Loop Gain - 2 Master Test Loop Phase - 2 deg Master Test Loop Gain - 3 Master Test Loop Phase - 3 deg Master
44 Test Loop Gain - 4 Master Test Loop Phase - 4 deg Master Test Loop Gain - 5 Master Test Loop Phase - 5 deg Master Test Loop Gain - 6 Master Test Loop Phase - 6 deg Master Test Loop Gain - 7 Master Test Loop Phase - 7 deg Master Master (EEPROM): 15:11:35 05-May-2012 Sonde Error Correction Real - 0 ms/m Master Sonde Error Correction Quad - 0 Master Sonde Error Correction Real - 1 ms/m Master Sonde Error Correction Quad - 1 Master Sonde Error Correction Real - 2 ms/m Master Sonde Error Correction Quad - 2 Master Sonde Error Correction Real - 3 ms/m Master Sonde Error Correction Quad - 3 Master Sonde Error Correction Real - 4 ms/m Master Sonde Error Correction Quad - 4 Master Sonde Error Correction Real - 5 ms/m Master Sonde Error Correction Quad - 5 Master Sonde Error Correction Real - 6 ms/m Master Sonde Error Correction Quad - 6 Master Sonde Error Correction Real - 7 ms/m Master Sonde Error Correction Quad - 7 Master Master (EEPROM): 15:11:35 05-May-2012 Coarse Gain Master Fine Gain Master Master (EEPROM): 15:11:35 05-May-2012 Before (Measured): After: Thru Cal Mag - 0 V Master Before After Before-Master Thru Cal Phase - 0 deg Master Before After Before-Master Thru Cal Mag - 1 V Master Before After Before-Master Thru Cal Phase - 1 deg Master Before After Before-Master Thru Cal Mag - 2 V Master Before After Before-Master Thru Cal Phase - 2 deg Master Before After Before-Master
45 Thru Cal Mag - 3 V Master Before After Before-Master Thru Cal Phase - 3 deg Master Before After Before-Master Thru Cal Mag - 4 V Master Before After Before-Master Thru Cal Phase - 4 deg Master Before After Before-Master Thru Cal Mag - 5 V Master Before After Before-Master Thru Cal Phase - 5 deg Master Before After Before-Master Thru Cal Mag - 6 V Master Before After Before-Master Thru Cal Phase - 6 deg Master Before After Before-Master Thru Cal Mag - 7 V Master Before After Before-Master Thru Cal Phase - 7 deg Master Before After Before-Master SPA Zero mv Master Before After Before-Master SPA Plus mv Master Before After Before-Master Temperature Zero V Master Before After Before-Master Temperature Plus V Master Before
46 After Before-Master HILT High-Resolution Control Cartridge, 150 degc HRCC-H 3965 HILT Resistivity Gamma-Ray Density Device, 150 degc HRGD-H 4770 HRDD Backscatter Detector Backscatter 0 HRDD Long Spacing Detector Long Spacing HRDD Short Spacing Detector Short Spacing Cesium 137 Gamma-Ray Logging Source GSR-J 5370 HILT High-Resolution Control Cartridge, 150 degc HRCC-H 3965 HILT High-Resolution Mechanical Sonde, 150 degc HRMS-H 4723 Small Ring Size (Caliper Calibration Small Ring) 8.00 Large Ring Size (Caliper Calibration Large Ring) Before (Measured): 07:38:32 01-Jul-2012 Small Ring in Before Large Ring in Before Master (EEPROM): 11:37:48 14-Jun-2012 Rho Aluminum g/cm3 Master Rho Magnesium g/cm3 Master Pe Aluminum Master Pe Magnesium Master Master (EEPROM): 11:37:48 14-Jun-2012 BS Average Deviation % Master BS Max Deviation % Master SS Average Deviation % Master SS Max Deviation % Master LS Average Deviation % Master LS Max Deviation % Master Master (EEPROM): 11:37:48 14-Jun-2012 Before (Measured): 07:38:23 01-Jul-2012 BS Window Ratio Master Before Before-Master BS Window Sum 1/s Master Before Before-Master SS Window Ratio Master Before Before-Master SS Window Sum 1/s Master Before Before-Master LS Window Ratio Master Before Before-Master LS Window Sum 1/s Master
47 Before Before-Master Master (EEPROM): 11:37:48 14-Jun-2012 Before (Measured): 07:38:23 01-Jul-2012 BS PM High Voltage V Master Before Before-Master SS PM High Voltage V Master Before Before-Master LS PM High Voltage V Master Before Before-Master Master (EEPROM): 11:37:48 14-Jun-2012 Before (Measured): 07:38:23 01-Jul-2012 BS Crystal Resolution % Master Before Before-Master SS Crystal Resolution % Master Before Before-Master LS Crystal Resolution % Master Before Before-Master Before (Measured): 07:34:46 01-Jul-2012 Main Resistivity ohm.m Before Deep Resistivity ohm.m Before Shallow Resistivity ohm.m Before HILT Gamma-Ray and Neutron Sonde, 150 degc HGNS-H 4759 HGNS Accelerometer, 150 degc HACCZ-H 2102 AmBe Neutron Logging Source NSR-F 5226 Water Temperature Housing Size JIG-BKG (Jig minus background reference) 165 Before (Measured): 08:37:36 01-Jul-2012 AZ Vertical Measurement ft/s2 Before Master (EEPROM): 00:00:00 15-May-2006 Accelerometer Manufacturer Master QAT_ Accelerometer Reference Temperature degf Master Accelerometer Coefficients - 0 Master Accelerometer Coefficients - 1 Master Accelerometer Coefficients - 2 Master Accelerometer Coefficients - 3 Master Accelerometer Coefficients - 4 Master Accelerometer Coefficients - 5 Master Accelerometer Coefficients - 6 Master
48 Accelerometer Coefficients 6 Master Accelerometer Coefficients - 7 Master Accelerometer Coefficients - 8 Master Accelerometer Coefficients - 9 Master Master (EEPROM): 16:36:16 01-May-2012 Before (Measured): After: Near Zero Measurement 1/s Master Before After Before-Master Far Zero Measurement 1/s Master Before After Before-Master Near Plus Measurement - 0 1/s Master Before After Before-Master Far Plus Measurement - 0 1/s Master Before After Before-Master Near Corrected Plus Measurement - 0 1/s Master Before After Before-Master Far Corrected Plus Measurement - 0 1/s Master Before After Before-Master Before (Measured): After: RGR Zero Measurement gapi Before After RGR Plus Measurement gapi Before After GR Calibration Gain Before After GPIT DHRU Sensor Block - F DHRU-F 0 Master (EEPROM): 00:00:00 23-May-2007 GPIT-F Accelero X Model[0,0] Master GPIT-F Accelero X Model[0,1] Master GPIT-F Accelero X Model[1,0] Master GPIT-F Accelero X Model[1,1] Master E GPIT-F Accelero X Model[2,0] Master E GPIT-F Accelero X Model[2,1] Master E GPIT-F Accelero X Model[3,0] Master E
49 GPIT-F Accelero X Model[3,1] Master E GPIT-F Accelero Y Model[0,0] Master GPIT-F Accelero Y Model[0,1] Master GPIT-F Accelero Y Model[1,0] Master GPIT-F Accelero Y Model[1,1] Master E GPIT-F Accelero Y Model[2,0] Master E GPIT-F Accelero Y Model[2,1] Master E GPIT-F Accelero Y Model[3,0] Master E GPIT-F Accelero Y Model[3,1] Master E GPIT-F Accelero Z Model[0,0] Master GPIT-F Accelero Z Model[0,1] Master GPIT-F Accelero Z Model[1,0] Master GPIT-F Accelero Z Model[1,1] Master E GPIT-F Accelero Z Model[2,0] Master E GPIT-F Accelero Z Model[2,1] Master E GPIT-F Accelero Z Model[3,0] Master E GPIT-F Accelero Z Model[3,1] Master E Master (EEPROM): 00:00:00 23-May-2007 GPIT-F Accelero Axis Model[0,0] Master GPIT-F Accelero Axis Model[0,1] Master GPIT-F Accelero Axis Model[0,2] Master GPIT-F Accelero Axis Model[0,3] Master GPIT-F Accelero Axis Model[0,4] Master E GPIT-F Accelero Axis Model[0,5] Master GPIT-F Accelero Axis Model[0,6] Master GPIT-F Accelero Axis Model[1,0] Master E GPIT-F Accelero Axis Model[1,1] Master E GPIT-F Accelero Axis Model[1,2] Master E GPIT-F Accelero Axis Model[1,3] Master E GPIT-F Accelero Axis Model[1,4] Master E GPIT-F Accelero Axis Model[1,5] Master E GPIT-F Accelero Axis Model[1,6] Master Master (EEPROM): 00:00:00 23-May-2007 GPIT-F Magneto X Model[0,0] Master GPIT-F Magneto X Model[0,1] Master GPIT-F Magneto X Model[1,0] Master GPIT-F Magneto X Model[1,1] Master GPIT-F Magneto X Model[2,0] Master GPIT-F Magneto X Model[2,1] Master E GPIT-F Magneto X Model[3,0] Master GPIT-F Magneto X Model[3,1] Master E GPIT-F Magneto Y Model[0,0] Master GPIT-F Magneto Y Model[0,1] Master GPIT-F Magneto Y Model[1,0] Master GPIT-F Magneto Y Model[1,1] Master GPIT-F Magneto Y Model[2,0] Master GPIT-F Magneto Y Model[2,1] Master E GPIT-F Magneto Y Model[3,0] Master GPIT-F Magneto Y Model[3,1] Master E GPIT-F Magneto Z Model[0,0] Master GPIT-F Magneto Z Model[0,1] Master GPIT-F Magneto Z Model[1,0] Master GPIT-F Magneto Z Model[1,1] Master GPIT-F Magneto Z Model[2,0] Master GPIT-F Magneto Z Model[2,1] Master E GPIT-F Magneto Z Model[3,0] Master E GPIT-F Magneto Z Model[3,1] Master E Master (EEPROM): 00:00:00 23-May-2007
50 GPIT-F Magneto Axis Model[0,0] Master GPIT-F Magneto Axis Model[0,1] Master GPIT-F Magneto Axis Model[0,2] Master GPIT-F Magneto Axis Model[0,3] Master GPIT-F Magneto Axis Model[0,4] Master GPIT-F Magneto Axis Model[0,5] Master GPIT-F Magneto Axis Model[0,6] Master GPIT-F Magneto Axis Model[1,0] Master E GPIT-F Magneto Axis Model[1,1] Master E GPIT-F Magneto Axis Model[1,2] Master E GPIT-F Magneto Axis Model[1,3] Master E GPIT-F Magneto Axis Model[1,4] Master E GPIT-F Magneto Axis Model[1,5] Master E GPIT-F Magneto Axis Model[1,6] Master Master (EEPROM): 00:00:00 18-May-2007 GPIT-F Electronic Coeff 1[0,0] Master GPIT-F Electronic Coeff 1[0,1] Master GPIT-F Electronic Coeff 1[1,0] Master GPIT-F Electronic Coeff 1[1,1] Master GPIT-F Electronic Coeff 1[2,0] Master GPIT-F Electronic Coeff 1[2,1] Master GPIT-F Electronic Coeff 1[3,0] Master E GPIT-F Electronic Coeff 1[3,1] Master E GPIT-F Electronic Coeff 1[4,0] Master E GPIT-F Electronic Coeff 1[4,1] Master E GPIT-F Electronic Coeff 2[0,0] Master GPIT-F Electronic Coeff 2[0,1] Master GPIT-F Electronic Coeff 2[1,0] Master GPIT-F Electronic Coeff 2[1,1] Master GPIT-F Electronic Coeff 2[2,0] Master GPIT-F Electronic Coeff 2[2,1] Master GPIT-F Electronic Coeff 2[3,0] Master E GPIT-F Electronic Coeff 2[3,1] Master E GPIT-F Electronic Coeff 2[4,0] Master E GPIT-F Electronic Coeff 2[4,1] Master E GPIT-F Electronic Coeff 3[0,0] Master GPIT-F Electronic Coeff 3[0,1] Master GPIT-F Electronic Coeff 3[1,0] Master GPIT-F Electronic Coeff 3[1,1] Master GPIT-F Electronic Coeff 3[2,0] Master GPIT-F Electronic Coeff 3[2,1] Master GPIT-F Electronic Coeff 3[3,0] Master E GPIT-F Electronic Coeff 3[3,1] Master E GPIT-F Electronic Coeff 3[4,0] Master E GPIT-F Electronic Coeff 3[4,1] Master E Master (EEPROM): 00:00:00 18-May-2007 GPIT-F Electronic Coeff 4[0,0] Master GPIT-F Electronic Coeff 4[0,1] Master GPIT-F Electronic Coeff 4[1,0] Master GPIT-F Electronic Coeff 4[1,1] Master E GPIT-F Electronic Coeff 4[2,0] Master GPIT-F Electronic Coeff 4[2,1] Master E GPIT-F Electronic Coeff 4[3,0] Master E GPIT-F Electronic Coeff 4[3,1] Master E GPIT-F Electronic Coeff 4[4,0] Master E GPIT-F Electronic Coeff 4[4,1] Master E GPIT-F Electronic Coeff 5[0,0] Master GPIT-F Electronic Coeff 5[0,1] Master GPIT-F Electronic Coeff 5[1,0] Master
51 GPIT-F Electronic Coeff 5[1,1] Master E GPIT-F Electronic Coeff 5[2,0] Master GPIT-F Electronic Coeff 5[2,1] Master E GPIT-F Electronic Coeff 5[3,0] Master E GPIT-F Electronic Coeff 5[3,1] Master E GPIT-F Electronic Coeff 5[4,0] Master E GPIT-F Electronic Coeff 5[4,1] Master E GPIT-F Electronic Coeff 6[0,0] Master GPIT-F Electronic Coeff 6[0,1] Master GPIT-F Electronic Coeff 6[1,0] Master GPIT-F Electronic Coeff 6[1,1] Master E GPIT-F Electronic Coeff 6[2,0] Master GPIT-F Electronic Coeff 6[2,1] Master E GPIT-F Electronic Coeff 6[3,0] Master E GPIT-F Electronic Coeff 6[3,1] Master E GPIT-F Electronic Coeff 6[4,0] Master E GPIT-F Electronic Coeff 6[4,1] Master E Microlog Tool MLT-B 11 Small Ring Size (Caliper Calibration Small Ring) Large Ring Size (Caliper Calibration Large Ring) Micro Normal Plus Reference (Micro Normal Plus Reference) 6.72 Micro Inverse Plus Reference (Micro Inverse Plus Reference) 5 Before (Measured): Caliper Small Ring Measurement in Before Caliper Large Ring Measurement in Before Caliper Gain Before Caliper Offset in Before Before (Measured): After: Micro Normal Zero Measurement ohm.m Before After Micro Normal Plus Measurement ohm.m Before After Micro Normal Gain Before After Micro Normal Offset ohm.m Before After Micro Inverse Zero Measurement ohm.m Before After Micro Inverse Plus Measurement ohm.m Before After Micro Inverse Gain Before After Micro Inverse Offset ohm.m Before After
52 Logging Equipment Head - QT, 3-3/8 inch 31 pin HPHT with Tension Sensor LEH-QT 3077 Master: HTEN Shop Gain Master HTEN Shop Offset lbf Master Before: RHTE Zero Measurement - 0 lbf Before RHTE Plus Measurement - 0 lbf Before HTEN Gain - 0 Before HTEN Offset - 0 lbf Before MaxWell Application Patch SP EXP_APL-OPElevation EXP_APL-ADT HGNS-H HILT Gamma-Ray and Neutron Sonde, 150 degc AMIS Array Induction Sonde - M One Log[4]:Up Up ft ft 01-Jul :44:39 AM 01-Jul :55:25 AM 0.52 ft One Log[5]:Up Up ft ft 01-Jul :01:49 AM 01-Jul :18:36 AM 0.00 ft All depths are referenced to toolstring zero Description: AIT Basic Log Two Format: Log ( AIT Basic Log Two ) Index Scale: 1 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:59 Channel Source Sampling AF20 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AF60 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in AFCO60 AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 3in HGNS[1]:HGNS-H[1]:HGNS-H[1] 6in SP AIT_SpliceGroup[1]:AMIS[1]:AMIS[1] 6in TIME_1900 WLWorkflow 0.1in TIME_ Time Marked every (s) Array Induction Four
53 Foot Resistivity A60 (AF60) AIT_SpliceGroup[1] 0 ohm.m 50 Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Calibrated Gamma Ray () HGNS[1] 0 gapi 150 Array Induction Four Foot Resistivity A20 (AF20) AIT_SpliceGroup[1] 0 ohm.m 50 Array Induction Four Foot Conductivity A60 (AFCO60) AIT_SpliceGroup[1] 1000 ms/m
54 AF20 SP 1150 AF60 AFCO
55 AF20 SP 2350 AF60 AFCO
56 AF20 SP 3550 AF60 AFCO
57 Spontaneous Potential (SP) AIT_SpliceGroup[1] -160 mv 40 Calibrated Gamma Ray () HGNS[1] 0 gapi Array Induction Four Foot Conductivity A60 (AFCO60) AIT_SpliceGroup[1] 1000 ms/m 0 Array Induction Four Foot Resistivity A60 (AF60) AIT_SpliceGroup[1] 0 ohm.m 50 Array Induction Four Foot Resistivity A20 (AF20) AIT_SpliceGroup[1] 0 ohm.m 50 TIME_ Time Marked every (s) Description: AIT Basic Log Two Format: Log ( AIT Basic Log Two ) Index Scale: 1 in per 100 ft Index Unit: ft Index Type: Measured Depth Creation Date: 01-Jul :03:59 One: Parameters ABHM Array Induction Borehole Correction Mode AIT-M:AMIS:AMIS Compute Standoff ABLM Array Induction Basic Logs Mode AIT-M:AMIS:AMIS Normal ACDE Array Induction Casing Detection Enable AIT-M:AMIS:AMIS Yes ASTA Array Induction Tool Standoff AIT-M:AMIS:AMIS in BHS Borehole Status (Open or Cased Hole) Borehole Open BS Bit Size COMPLETION in CALI_SHIFT CALI Supplementary Offset HDRS-H:HRCC-H:HRCC-H 0.15 in CBLO Casing Bottom (Logger) COMPLETION 314 ft GCSE_DOWN_PASS Generalized Caliper Selection for WL Log Down Passes Borehole BS GCSE_UP_PASS Generalized Caliper Selection for WL Log Up Passes Borehole CALI GRSE Generalized Mud Resistivity Selection, from Measured or Borehole AMF Computed Mud Resistivity SP_SHIFT SP Shift AIT-M:AMIS:AMIS 89 mv SPDR SP Drift Per Foot AIT-M:AMIS:AMIS 0 mv/ft Company: Source Energy Midcon LLC Well: Field: County: Rusk DU Rome Sumner
58 State: Kansas PLATFORM EXPRESS ARRAY INDUCTION GAMMA RAY - SP
County: Field: Run Number 1A. Schlumberger Depth ft. Depth Driller ft. Logging Date 02-Oct Bottom Log Interval 1492.
Witnessed By NICK MALKEWICZ / DAN COLLINS Recorded By TIMOTHY ZOTARA Unit Number Location: 377 BRADFORD Logger on Bottom Time 02-Oct-2013 11:46:48 Circulation Stopped Time Max Recorded Temperatures 60.8
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Witnessed By Bill Ehni Recorded By Curtis Schaaf Unit Number Location: 2211 VERNAL Logger on Bottom Time 16-Feb-2012 16:55:35 Circulation Stopped Time 16-Feb-2012 06:00:00 Max Recorded Temperatures 247
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