Wireline Standard Data Processing
ODP logging
contractor: LDEO-BRG
Hole: 867B
Leg: 143
Location: Resolution Guyot (tropical NW Pacific)
Latitude: 21° 20.959' N
Longitude: 174° 18.561' E
Logging date: April, 1992
Bottom felt: 1363.2 mbrf (used for depth shift to sea floor)
Total penetration: 76.8 mbsf
Total core recovered: 22.5 m (29.2 %)
Logging
Runs
Logging string 1: SDT/NGT
Logging string 2: DIT/NGT
Logging string 3: HLDT/CNTG/NGT
Logging string 4: FMS/GPIT/NGT (2 passes)
The wireline heave compensator was not used to counter ship heave.
Bottom-hole
Assembly
The following bottom-hole assembly depths are as they appear on the logs after differential depth shift (see "Depth shift" section) and depth shift to the sea floor. As such, there might be a discrepancy with the original depths given by the drillers onboard. Possible reasons for depth discrepancies are ship heave, lack of wireline heave compensator, and drill string and/or wireline stretch.
SDT/NGT: Bottom-hole assembly at ~15 mbsf
DIT/NGT: Bottom-hole assembly at ~15 mbsf
HLDT/CNTG/NGT: Bottom-hole assembly at ~15 mbsf
FMS/GPIT/NGT: Bottom-hole assembly at ~15 mbsf.
Processing
Depth shift: Original logs have been interactively depth shifted with reference to NGT from HLDT/CNTG/NGT run and to the sea floor (- 1363.2 m). The program used is an interactive, graphical depth-match program which allows to visually correlate logs and to define appropriate shifts. The reference and match channels are displayed on the screen, with vectors connecting old (reference curve) and new (match curve) shift depths. The total gamma ray curve (SGR) from the NGT tool run on each logging string is used to correlate the logging runs most often. In general, the reference curve is chosen on the basis of constant, low cable tension and high cable speed (tools run at faster speeds are less likely to stick and are less susceptible to data degradation caused by ship heave). Other factors, however, such as the length of the logged interval, the presence of drill pipe, and the statistical quality of the collected data (better statistics is obtained at lower logging speeds) are also considered in the selection. A list of the amount of differential depth shifts applied at this hole is available upon request.
Gamma-ray processing: NGT data have been processed to correct for borehole size and type of drilling fluid.
Acoustic data processing: Because of the extremely low quality of the sonic logs, no processing has been performed.
Quality
Control
null value=-999.25. This value generally appears in discrete core measurement files and also it may replace recorded log values or results which are considered invalid.
During the processing, quality control of the data is mainly performed by cross-correlation of all logging data. Large (>12") and/or irregular borehole affects most recordings, particularly those that require eccentralization (CNTG, HLDT) and a good contact with the borehole wall. Hole deviation can also affect the data negatively; the FMS, for example, is not designed to be run in holes deviated more than 10 degrees, as the tool weight might cause the caliper to close.
Data recorded through bottom-hole assembly should be used qualitatively only because of the attenuation on the incoming signal.
Hole diameter was recorded by the hydraulic caliper on the HLDT tool (CALI) and on the FMS string (C1 and C2).
Additional information about the logs can be found in the "Explanatory Notes" and Site Chapter, ODP IR volume 143. For further questions about the logs, please contact:
Cristina
Broglia
Phone: 845-365-8343
Fax: 845-365-3182
E-mail: Cristina Broglia