Wireline Standard Data Processing
ODP logging contractor: LDEO-BRG
Hole: 1173A
Leg: 190
Location: Nankai Trough (NW Pacific
Ocean)
Latitude: 32° 14.6634' N
Longitude: 135° 1.5085' E
Logging date: June 5-6, 2000
Bottom felt: 4801.9 mbrf
Total penetration: 734.34 mbsf
Total core recovered: 658.23 m (89.6
%)
Logging
Runs
Logging string 1: DIT/HLDS/APS/HNGS (upper
and lower passes)
Logging string 2: FMS/GPIT/DSI/NGT (2 passes)
The upper pass of the DIT/HLDS/APS/HNGS was
blocked from further penetration by a bridge at 344 mbsf. The pipe was lowered
beneath the bridge, but the lower pass logged only 85 m before being stopped by
another bridge. The FMS/GPIT/DSI/NGT reached 376.5 mbsf.
The wireline heave compensator was used to
counter ship heave resulting from the mild sea conditions.
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, use of wireline heave
compensator, and drill string and/or wireline stretch.
DIT/HLDS/APS/HNGS (upper pass): Bottom-hole
assembly at 78 mbsf
DIT/HLDS/APS/HNGS (lower pass): Bottom-hole assembly at ~350 mbsf
FMS/GPIT/DSI/NGT: Bottom-hole assembly at 64.5 mbsf.
Processing
Depth shift: The original logs were depth matched to the NGT from
the first pass of the FMS/GPIT/DSI/NGT run and then shifted to the sea floor
(-4801.5 m). The sea floor depth is determined by the step in gamma ray values
at the sediment-water interface. It differs by 0.4 m from the "bottom
felt" depth given by the drillers (see above).
Depth matching is typically done in the
following way. One log is chosen as reference (base) log (usually the total
gamma ray log from the run with the greatest vertical extent), and then the
features in the equivalent logs from the other runs are matched to it in turn.
This matching is performed automatically, and the result checked and adjusted
as necessary. The depth adjustments that were required to bring the match log
in line with the base log are then applied to all the other logs from the same
tool string.
Gamma-ray processing: NGT data have been processed to correct for borehole
size and type of drilling fluid. The HNGS data were corrected for hole size
during the recording.
Acoustic data processing: The compressional and shear wave slownesses from the
2 passes of the DSI tool were converted to velocities. DTCO was used for the
compressional wave slowness, DT2 (upper dipole) for the pass 1 shear slowness,
and DT1 (low frequency lower dipole) for the pass 2 shear slowness. No editing
was performed on the data, although the upper part of the compressional
velocity logs seems to contain jumps to overestimated velocities. The two
passes should be interpreted together. The shear velocity from pass 2 is of
better quality than from pass 1 (invalid above 105 mbsf).
High-resolution data: Bulk density and neutron porosity data were recorded
at a sampling rate of 2.54 and 5.08 cm, respectively. The enhanced bulk density
curve is the result of Schlumberger enhanced processing technique performed on
the MAXIS system onboard. While in normal processing short-spacing data is
smoothed to match the long-spacing one, in enhanced processing this is
reversed. In a situation where there is good contact between the HLDS pad and
the borehole wall (low density correction) the results are improved, because
the short-spacing has better vertical resolution.
Quality
Control
null value=-999.25. This value generally
replaces invalid recorded log values or results.
Large (>12") and/or irregular
borehole affects most recordings, particularly those that require
eccentralization (APS, HLDS) 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 HLDS tool (LCAL) and on the FMS string (C1 and C2).
Additional information about the logs can be
found in the "Explanatory Notes" and Site Chapter, ODP Leg 190 IR
volume. For further questions about the logs, please contact:
Wireline Standard Data Processing
ODP logging contractor: LDEO-BRG
Hole: 1173A
Leg: 190
Location: Nankai Trough (NW Pacific
Ocean)
Latitude: 32° 14.6634' N
Longitude: 135° 1.5085' E
Logging date: June 5-6, 2000
Bottom felt: 4801.9 mbrf
Total penetration: 734.34 mbsf
Total core recovered: 658.23 m (89.6
%)
Cristina Broglia
Phone: 845-365-8343
Fax: 845-365-3182
E-mail: Cristina Broglia