7120/12-2
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General information
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Wellbore history
GeneralThe primary objectives of well 7120/12-2 were to test sandstone reservoirs of Middle to Early Jurassic age in the central compartment of the Alke structure, and a deep seismic marker interpreted to represent top of a possible carbonate reservoir of Permian age. A secondary objective was to test sandstones of Early Triassic age. The well was planned to be drilled to 5000 m or into basement rocks to serve as the deep commitment well on the licence.Operations and resultsWell 7120/12-2 was spudded with the semi-submersible installation Treasure Seeker on 15 April 1981 and drilled to TD at 4680 m in basement rocks. After setting the 20" casing the kill line outlet flange was accidentally damaged and 5 days were spent repairing the BOP. The well was drilled with bentonite/seawater mud down to 515 m and with lignosulphonate (Spersene / XP-20) mud from 515 m to TD. Severe problems were encountered with gumbo type clays during the interval from about 800 m to 1400 m.A major fault was penetrated at 2410 m in the well, faulting out approximately 400 m of the Triassic section. This is evident from comparing the Triassic sequences penetrated in the well 7120/12-1 and 7120/12-2. Rocks of Permian age were encountered from 3657 m while metamorphic basement was encountered at 4664 m. Hydrocarbon bearing sandstones were encountered in the Middle to Late Jurassic and in the Middle to Late Triassic.The "Alke Formation" from 1892 m to 2314 m (Stø, Nordmela, Tubåen , and most of the Fruholmen Formation) was found hydrocarbon bearing from 1888 m to the gas/water contact at 1981.5 m. This interval consisted of relatively clean, fine to occasionally coarse grained, homogeneous sandstones separated by thin silty and argillaceous beds. Towards the base, the sandstones were predominantly very fine to fine grained, becoming increasingly argillaceous and micaceous. The net pay was, from wire line logs, calculated to 76 m, with 20% average porosity and an average water saturation of 19%. RFT pressure recordings and sampling were successfully performed over the interval. This gave a clear gas gradient of 0.088 psi/ft with an underlying water gradient of 0.458 psi/ft.The Middle to Late Triassic hydrocarbon-bearing interval from 2547 m to 2574 m (Snadd Formation) consisted of fine to very fine-grained sandstone beds with stringers and thin beds of limestone and calcareous cemented sandstone. The net pay was calculated to 14 m, with 23% average porosity and an average water saturation of 30 %. Due to hole conditions, no RFT sampling was performed in this sequence. RFT pressure readings were, however, run through the interval and gave a gas gradient of 0.076 psi/ft. Gas shows were also reported in the Late Triassic (2513 m to 2547 m, Snadd Formation ), Early Triassic (2935 m to 3075 m, Kobbe Formation) and in Permian sandstones (3657 m to 3800 m, Ørret Formation). The water saturation in these intervals ranged from 50 - 100% and based on log interpretation, the hydrocarbons were assumed to be non-moveable. Very poor permeabilities were indicated in the Early Triassic and Permian intervals from RFT pressure readings.Organic geochemical analyses showed rich potential for gas/condensate generation in the Late Jurassic Hekkingen Formation (1630 m to 1859 m), Below this level Early Jurassic to Middle Triassic sequences contained carbonaceous sequences and coal beds with potential for gas and possibly oil. All sediments down to 2500 m to 3000 m are immature. Migrant hydrocarbons were frequently detected all through the well. This could indicate contamination from oil in the mud, although the mud used should be water based.Six conventional cores were cut in the Middle Jurassic Fuglen, Stø, and Nordmela Formations from 1888 m to 2050 m, and two were cut from 3671 m to 3689 m and 4117 m to 4128 m in Permian sandstones. A final core was cut at TD from 4675 m to 4680.5 m and recovered 5.5 m of gneiss. Two RFT samples at 1978 m and 1943.5 m recovered gas and small volumes of condensate.The well was permanently abandoned on 11 September as a gas/condensate discovery.TestingThree drill stem tests were performed, one on the Triassic and two in the Middle Jurassic.DST 1 perforated the interval 2562 m to 2568 m in the Middle Triassic Snadd Formation and flowed 417700 Sm3/day gas of gravity 0.62, and 25.1 Sm3/day condensate of gravity 55.92° API, through a 1/2" choke. The GOR was 16630 Sm3/Sm3.DST 2 perforated the interval 1985 m to 1991 m in the water-zone in the Middle to Late Jurassic reservoir (lower Stø and upper Nordmela Formations) and flowed 160 Sm3 water/day through a 172/64"choke.A sample labelled DST 2 was submitted to the NPD oil store. Since it contains condensate and not water it is probably a mis-labelled DST 1 or DST 3 sample.DST 3 perforated the interval 1944 m to 1950 m Stø Formation) and flowed 758000 Sm3/day gas of gravity 0.626, and 52.5 Sm3/day condensate of gravity 64.4° API, through a 60/64" choke. The GOR was 14430 Sm3/Sm3. -
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]320.004680.00 -
Cores at the Norwegian Offshore Directorate
Cores at the Norwegian Offshore Directorate Core sample numberCore sample - top depthCore sample - bottom depthCore sample depth - uom11888.01903.5[m ]21960.01979.4[m ]31978.01994.9[m ]41996.02013.2[m ]52013.22031.9[m ]62032.02050.0[m ]73671.03688.4[m ]84117.04128.1[m ]94675.04680.5[m ]Cores at the Norwegian Offshore Directorate Total core sample length [m]139.7Cores at the Norwegian Offshore Directorate Cores available for sampling?YES -
Core photos
Core photos 
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3681-3684m3684-3688m4117-4121m4121-4124m4124-4128m
4675-4678m4678-4680m -
Palynological slides at the Norwegian Offshore Directorate
Palynological slides at the Norwegian Offshore Directorate Sample depthDepth unitSample typeLaboratory360.0[m]DCOD380.0[m]DCOD450.0[m]DCOD480.0[m]DCOD500.0[m]DCOD530.0[m]DCOD560.0[m]DCOD600.0[m]DCOD610.0[m]SWCIKU640.0[m]DCOD680.0[m]DCOD698.0[m]SWCIKU702.0[m]SWCIKU717.0[m]SWCIKU725.0[m]SWCIKU728.5[m]SWCIKU737.0[m]SWCIKU743.0[m]SWCIKU750.0[m]DCOD770.0[m]DCOD783.0[m]SWCIKU790.0[m]DCOD810.0[m]DCOD830.0[m]DCOD836.0[m]SWCIKU850.0[m]DCOD870.0[m]DCOD890.0[m]DCOD910.0[m]DCOD921.0[m]SWCIKU930.0[m]DCOD948.0[m]SWCIKU980.0[m]SWCIKU1019.0[m]SWCIKU1057.0[m]SWCIKU1091.0[m]SWCIKU1101.0[m]SWCIKU1148.0[m]SWCIKU1165.0[m]SWCIKU1184.0[m]SWCIKU1222.0[m]SWCIKU1256.0[m]SWCIKU1267.5[m]SWCIKU1290.0[m]SWCIKU1305.0[m]SWCIKU1316.0[m]SWCIKU1373.0[m]SWCIKU1415.0[m]SWCIKU1440.0[m]SWCIKU1450.0[m]SWCIKU1460.0[m]SWCIKU1463.0[m]SWCIKU1465.0[m]SWCIKU1490.0[m]SWCIKU1516.0[m]SWCIKU1537.0[m]SWCIKU1557.0[m]SWCIKU1561.0[m]SWCIKU1572.5[m]SWCIKU1615.0[m]SWCIKU1626.0[m]SWCIKU1633.0[m]SWCIKU1637.0[m]SWCIKU1643.0[m]SWCIKU1657.4[m]SWCIKU1665.0[m]SWCIKU1671.0[m]SWCIKU1687.0[m]SWCIKU1705.0[m]SWCIKU1716.5[m]SWCIKU1717.0[m]SWCIKU1764.0[m]SWCIKU1785.0[m]SWCIKU1797.0[m]SWCIKU1820.0[m]SWCIKU1827.0[m]SWCIKU1842.5[m]SWCIKU1895.0[m]SWCIKU1897.6[m]CIKU1901.0[m]CICHRON1960.5[m]CIKU1960.5[m]CICHRON1963.6[m]CIKU1966.1[m]CICHRON1966.1[m]CIKU1966.4[m]CIKU1974.5[m]CIKU1976.3[m]CIKU1976.4[m]CICHRON1983.9[m]CICHRON1984.5[m]CICHRON1992.7[m]CICHRON1992.7[m]CIKU1996.6[m]CICHRON1998.5[m]CIKU2001.8[m]CICHRON2005.6[m]CICHRON2007.0[m]CIKU2007.8[m]CICHRON2010.6[m]CICHRON2015.7[m]CICHRON2018.5[m]CICHRON2018.6[m]CIKU2020.9[m]CICHRON2021.7[m]CIKU2025.4[m]CICHRON2027.2[m]CIKU2027.4[m]CICHRON2031.5[m]CICHRON2032.7[m]CICHRON2034.4[m]CIKU2034.4[m]CICHRON2038.8[m]CIKU2038.8[m]CICHRON2041.7[m]CIKU2043.7[m]CICHRON2046.7[m]CICHRON2046.8[m]CIKU2048.2[m]CICHRON2049.5[m]CICHRON2068.0[m]CIKU2106.0[m]CIKU2120.9[m]CIKU2122.5[m]CIKU2142.0[m]CIKU2160.0[m]CIKU2180.0[m]CIKU2202.0[m]CIKU2215.0[m]CIKU2262.0[m]CIKU2278.0[m]CIKU2284.5[m]CIKU2326.0[m]SWCIKU2348.0[m]CUIB2350.0[m]SWCIKU2365.0[m]CUIB2378.0[m]CUIB2393.0[m]CUIB2393.0[m]CUIB2398.0[m]CUIB2408.0[m]SWCIKU2421.0[m]SWCIKU2425.0[m]CUIB2443.0[m]CUIB2468.0[m]CUIB2476.0[m]SWCIKU2498.0[m]SWCIKU2510.0[m]CUIB2512.0[m]SWCIKU2515.0[m]CUIB2523.0[m]CUIB2533.0[m]CUIB2547.0[m]SWCIKU2554.0[m]SWCIKU2570.0[m]CUIB2577.0[m]SWCIKU2587.9[m]SWCIKU2590.0[m]CUIB2622.0[m]SWCIKU2625.0[m]CUIB2636.0[m]SWCIKU2645.0[m]CUIB2647.1[m]SWCIKU2664.1[m]SWCIKU2686.0[m]SWCIKU2703.0[m]SWCIKU2728.0[m]SWCIKU2740.0[m]SWCIKU2785.0[m]SWCIKU2799.9[m]SWCIKU2814.9[m]SWCIKU2830.0[m]SWCIKU2843.0[m]SWCIKU2855.0[m]SWCIKU2867.0[m]SWCIKU2878.0[m]SWCIKU2890.0[m]SWCIKU2912.0[m]SWCIKU2922.0[m]SWCIKU2935.0[m]SWCIKU2943.0[m]SWCIKU2954.0[m]SWCIKU2964.0[m]SWCIKU2981.9[m]SWCIKU2992.0[m]SWCIKU3018.0[m]SWCIKU3026.9[m]SWCIKU3038.0[m]SWCIKU3051.9[m]SWCIKU3061.0[m]SWCIKU3072.0[m]SWCIKU3085.0[m]SWCIKU3103.0[m]SWCIKU3120.0[m]SWCIKU3131.0[m]SWCIKU3157.0[m]SWCIKU3200.0[m]SWCIKU3222.0[m]SWCIKU3234.0[m]SWCIKU3265.0[m]SWCIKU3294.0[m]SWCIKU3319.0[m]SWCIKU3326.0[m]SWCIKU3349.0[m]SWCIKU3367.0[m]SWCIKU3391.0[m]SWCIKU3413.0[m]SWCIKU3432.0[m]SWCIKU3489.0[m]SWCIKU3497.0[m]SWCIKU3532.0[m]SWCIKU3551.0[m]SWCIKU3568.0[m]SWCIKU3591.0[m]SWCIKU3599.0[m]SWCIKU3624.0[m]SWCIKU3648.0[m]SWCIKU3650.0[m]DC3667.5[m]SWCIKU3682.3[m]COD3682.5[m]CIKU3700.0[m]DC3703.0[m]SWCIKU3713.0[m]SWCIKU3734.0[m]SWCIKU3750.0[m]DC3750.5[m]SWCIKU3763.5[m]SWCIKU3789.0[m]SWCIKU3828.0[m]SWCIKU3850.0[m]DC3864.0[m]SWCIKU3899.5[m]SWCIKU3900.0[m]DC3982.0[m]SWCIKU4059.0[m]SWCIKU4077.5[m]SWCIKU4104.0[m]SWCIKU4121.1[m]CIKU4121.2[m]CIKU4121.2[m]COD4123.8[m]CIKU4123.9[m]CIKU4126.8[m]CIKU4130.0[m]SWCIKU4141.5[m]SWCIKU4150.0[m]DC4158.0[m]SWCIKU4224.0[m]SWCIKU4250.0[m]SWCIKU4273.0[m]SWCIKU4292.5[m]SWCIKU4300.0[m]DC4310.0[m]SWCIKU4335.0[m]SWCIKU4360.5[m]SWCIKU4398.0[m]SWCIKU4417.0[m]SWCIKU4434.0[m]SWCIKU4448.5[m]SWCIKU4500.0[m]DC4535.5[m]SWCIKU -
Oil samples at the Norwegian Offshore Directorate
Oil samples at the Norwegian Offshore Directorate Test typeBottle numberTop depth
MD [m]Bottom depth
MD [m]Fluid typeTest timeSamples availableDST1985.001991.00CONDENSATE03.09.1981 - 00:00YES -
Lithostratigraphy
Lithostratigraphy Top depth [mMD RKB]Lithostrat. unit189463463701701745745130914551700187518921892197821522234235429272927309535523657365739203975403140764485455845584664 -
Composite logs
Composite logs Document nameDocument formatDocument size [MB]pdf0.92 -
Geochemical information
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Documents – reported by the production licence (period for duty of secrecy expired)
Documents – reported by the production licence (period for duty of secrecy expired) Document nameDocument formatDocument size [MB]pdf16.22pdf3.33 -
Drill stem tests (DST)
Drill stem tests (DST) Test numberFrom depth MD
[m]To depth MD
[m]Choke size
[mm]1.02562256825.12.01985199168.33.01944195023.1Drill stem tests (DST) Test numberFinal shut-in pressure
[MPa]Final flow pressure
[MPa]Bottom hole pressure
[MPa]Downhole temperature
[°C]1.0772.0663.066Drill stem tests (DST) Test numberOil
[Sm3/day]Gas
[Sm3/day]Oil density
[g/cm3]Gas grav. rel.airGOR
[m3/m3]1.0254180000.7550.620166242.03.0537580000.7220.63014425 -
Logs
Logs Log typeLog top depth [m]Log bottom depth [m]CALI30964675CBL18502002CBL VDL18503096CST6101305CST13161717CST17472370CST23943061CST27853103CST31203703CST37134417CST37134177CST39204670CST41954670CST41954670CYBERDIP5001719CYBERDIP22003116CYBERDIP30964675DLL MSFL GR18502164DLL MSFL GR24003115DLL MSFL GR35253913FIL28003115HDT5004675ISF BHC GR5001721ISF LSS GR189512ISF LSS GR17074674LDT CNL GR CAL5004675LDT GR CAL312513NGS18502100RFT18882148RFT21653004RFT31413281RFT35553859RFT37663780VELOCITY7274671WFT18502100 -
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 typeCONDUCTOR30312.036313.00.00LOTSURF.COND.20502.026515.01.74LOTINTERM.13 3/81710.017 1/21724.01.92LOTINTERM.9 5/83101.012 1/43116.02.08LOTOPEN HOLE4680.08 3/84680.00.00LOT -
Drilling mud
Drilling mud Depth MD [m]Mud weight [g/cm3]Visc. [mPa.s]Yield point [Pa]Mud typeDate measured5151.1251.012.0WATER BASED16251.1865.020.0WATER BASED18881.3646.08.0WATER BASED23541.3648.09.0WATER BASED29851.4048.04.0WATER BASED31171.5360.06.0WATER BASED35321.5949.06.0WATER BASED38841.8954.08.5WATER BASED41031.9354.011.0WATER BASED46801.9368.022.0WATER BASED -
Thin sections at the Norwegian Offshore Directorate
Thin sections at the Norwegian Offshore Directorate DepthUnit4679.71[m ]4124.00[m ]4119.74[m ]3684.90[m ]3675.60[m ]3671.20[m ]2048.15[m ] -
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]pdf0.29
