2/5-10
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General information
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Wellbore history
GeneralExploration well 2/5-10 is located in the Central Graben on the Steinbit Terrace. The well was drilled with Late Jurassic sandstone of Oxfordian age, in a combination trap with structural and dip closing elements, as the primary target. Secondary targets were the Middle Jurassic Bryne Formation in the same combination trapping configuration, while the Late Cretaceous Chalk and the Lower Cretaceous Cromer Knoll Group were stratigraphic trap targets. After reaching TD evaluation of the cores and electric logs concluded that a fault had been intercepted within the main Jurassic target, justifying a sidetrack in search of a better pay zone. Well 2/5-10 was therefore plugged back in and well 2/5-10 A sidetracked.Operations and resultsWell 2/5-10 was spudded with the semi-submersible installation "Polar Pioneer" on 23 May 1993 and drilled to TD at 4701 m in rocks of the Triassic Smith Bank Formation. The well was drilled with sea water and hi-vis sweeps down to 865 m, with KCl/Polymer mud from 865 m to 4235 m, and with HPHT/Polymer mud from 4235 m to TD. Shallow gas was encountered after drilling the 8 1/2" pilot hole, prior to opening up the hole to 26" and running 20" casing. In order to ensure a good 20" casing cement job without compromising rig safety it was decided to plug back the gas bearing zone and set 20" casing at 509m, 291m shallower than originally planned 800m. To avoid gas migration the cement slurries for the 20" and 13 3/8" were redesigned with gas tight cement (microblock added).Top reservoir was encountered at 4582 m, 174 m deeper than prognosis due to complex geology and higher than expected shale interval velocities in the Late Jurassic. The main part of the Late Jurassic sandstone target was removed by faulting, and Triassic strata were encountered 5 m below top reservoir through a fault plane. The Late Jurassic sandstone was highly affected by the faulting, and the reservoir quality was poor. The secondary target Middle Jurassic Bryne Formation was not present. The Smith Bank Formation was encountered 5 m below top reservoir through a fault plane. A small hydrocarbon accumulation was found in the main target Late Jurassic Oxfordian age sandstone. Weak shows were encountered also in the Chalk and in the Vestland Group.Two conventional cores were cut from 4575 m in the Late Jurassic sandstone and down to 4591 m in the Smith Bank Formation. Two samples collected at 4594.3 m and 4583.1 m in the Vestland Group during the MDT run contained weak hydrocarbon shows, a discontinuous film of oil in sample #1 and gas traces in sample #2. Because of a failure of the MDT tool's equalization valve, a leakage between the two chambers was considered likely and therefore the location of these hydrocarbon shows is doubtful. However they should more likely be attributed to the top part of the Late Jurassic SST as confirmed by the sample #3 collected in the following RFT run which contained at 4594.3 m (same depth as sample #1) formation water. Only mud filtrate was finally recovered in the sample #4 taken at 4614 m. Well bore 2/5-10 was subsequently plugged back and permanently abandoned on 26 August 1993 as a well with shows.Sidestep 2/5-10 A was kicked off from 4306 m in 2/5-10 on 27 August 1993 and was drilled to a total depth of 4715 m in the Triassic Smith Bank Formation. The well was drilled with HPHT/polymer mud from kick-off to TD. The expected reservoir was encountered at 4616 m with a thickness of 57 m and with poor to medium reservoir characteristics. The shows encountered were poor, and no hydrocarbons could be extracted using downhole testing tools. Three conventional cores were cut in the Late Jurassic sandstone from 4612 m to 4640.1 m. Four RFT samples collected at 4619 m, 4624.1 m, 4630 m and 4657 m contained formation water and mud filtrate with only traces of oil. Sidetrack 2/5-10 A was permanently plugged and abandoned on 25 September 1993 as a well with shows.TestingNo drill stem test was performed. -
Cuttings at the Norwegian Offshore Directorate
Cuttings at the Norwegian Offshore Directorate Cuttings available for sampling?YESCuttings at the Norwegian Offshore Directorate Cutting sample, top depth [m]Cutting samples, bottom depth [m]820.004700.00 -
Cores at the Norwegian Offshore Directorate
Cores at the Norwegian Offshore Directorate Core sample numberCore sample - top depthCore sample - bottom depthCore sample depth - uom14575.04584.7[m ]24584.74590.0[m ]Cores at the Norwegian Offshore Directorate Total core sample length [m]15.0Cores at the Norwegian Offshore Directorate Cores available for sampling?YES -
Core photos
Core photos 
4575-4580m4580-4584m4584-4589m4589-4591m -
Lithostratigraphy
Lithostratigraphy Top depth [mMD RKB]Lithostrat. unit8817333052305230623072318132143214334237354295429542984298458245874587 -
Composite logs
Composite logs Document nameDocument formatDocument size [MB]pdf0.61 -
Geochemical information
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Logs
Logs Log typeLog top depth [m]Log bottom depth [m]BGT SLS GR AMS509938CBL VDL GR21004219CBL VDL GR CCL882241CST GR43504710DIL SLS GR AMS88694DIL SLS MSFL GR AMS9344235FMI42194709FMS GR00LDL CNL NGS DLL AMS42194706LDL CNL NGS FMS AMS22544236MDT-PO GR45824600MFCT GR AMS882000MWD - GR RAR RPD DIR1852265MWD - GR RAR RPD DIR39563963MWD - GR RAR RPD DIR42984701MWD - GR RSN DIR22653956MWD - GR RSN DIR40774111PI BHC MSFL GR AMS42194709RFT GR32644127RFT GR45864614VSP2504230VSP42194709 -
Casing and leak–off tests
Casing and leak–off tests Casing typeCasing diam.
[inch]Casing depth
[m]Hole diam.
[inch]Hole depth
[m]LOT/FIT mud eqv.
[g/cm3]Formation test typeCONDUCTOR30185.036185.00.00LOTINTERM.20509.026510.00.00LOTINTERM.13 3/82254.017 1/22255.00.00LOTINTERM.9 5/84217.012 1/44219.00.00LOTOPEN HOLE4701.08 3/84701.00.00LOT -
Drilling mud
Drilling mud Depth MD [m]Mud weight [g/cm3]Visc. [mPa.s]Yield point [Pa]Mud typeDate measured651.06WATER BASED1101.6524.0WATER BASED1851.06WATER BASED5201.3020.0WATER BASED8151.0622.0WATER BASED10371.3018.0WATER BASED12541.3020.0WATER BASED16191.4320.0WATER BASED19591.5040.0WATER BASED21021.6623.0WATER BASED21291.5552.0WATER BASED22651.6443.0WATER BASED25411.6243.0WATER BASED26491.6242.0WATER BASED27531.6237.0WATER BASED29941.6249.0WATER BASED31311.6249.0WATER BASED32101.6242.0WATER BASED32111.6251.0WATER BASED32521.6251.0WATER BASED33111.6246.0WATER BASED33611.6248.0WATER BASED34711.6249.0WATER BASED34991.6153.0WATER BASED35021.6149.0WATER BASED35901.6142.0WATER BASED36521.6140.0WATER BASED36801.6146.0WATER BASED37301.6144.0WATER BASED38371.6141.0WATER BASED39521.6142.0WATER BASED39891.6145.0WATER BASED40351.6144.0WATER BASED40771.6144.0WATER BASED41001.6147.0WATER BASED41111.6151.0WATER BASED41152.0639.0WATER BASED41441.6550.0WATER BASED42271.6544.0WATER BASED42351.6635.0WATER BASED42861.9844.0WATER BASED42922.0837.0WATER BASED42981.9845.0WATER BASED43521.9843.0WATER BASED43951.9842.0WATER BASED45202.0847.0WATER BASED45472.0230.0WATER BASED45852.0833.0WATER BASED45912.0832.0WATER BASED46532.0827.0WATER BASED47012.0826.0WATER BASED -
Pressure plots
Pressure plots The pore pressure data is sourced from well logs if no other source is specified. In some wells where pore pressure logs do not exist, information from Drill stem tests and kicks have been used. The data has been reported to the NPD, and further processed and quality controlled by IHS Markit.Pressure plots Document nameDocument formatDocument size [MB]pdf0.21
