7122/4-1
Export: PDF
-
General information
-
Wellbore history
GeneralWildcat well 7122/4-1 was drilled in the Northern part of the Hammerfest Basin. The objective of the well was to test the Åsgard prospect, a large, tilted horst with Middle-Lower Jurassic sandstones of the Stø formation as the primary objective. The underlying Nordmela and Tubåen formations were also considered to have potential for reservoired hydrocarbons. The trap was formed by a horst structure dipping towards the North-Northwest. Well 7122/4-1 was the first well on this prospect.Operations and resultsWell 7122/4-1 was spudded with the semi submersible installation Sonate Arcade Frontier on 13 November 1991 and drilled to a total depth of 3015 m in the Triassic Snadd Formation. The well was drilled with seawater and gel down to 815 m, with KCl/polymer from 815 m to 2015 m, and with KCl/NaCl/Polymer from 2015 m to TD.Good reservoir quality sandstones were encountered in the Stø and Nordmela Formations. Core analysis indicated generally good porosity and permeability. FMT's run in the Stø confirmed good permeability. However, analysis of the wire line logs indicated clearly that the Stø and Nordmela sandstones are water wet. The Tubåen Formation consisted primarily of sandstone, but was very thin in this well. Log analysis indicated that these sandstones are also water wet. Thin, tight sandstones (interbedded with claystone and siltstone) were present through much of the Triassic, generally decreasing in thickness with depth. From 2970 to 2990 m a Carnian sandstone was penetrated. The drill gas was higher through this zone than in any other sandstone in the well, averaging about 0.8 %. The cutting samples showed the reservoir quality to be quite poor, with no visible porosity. Numerous unsuccessful attempts with the FMT tool to obtain a pressure measurement indicated that this zone has extremely low permeability. This was confirmed by the log analysis.Hydrocarbon shows were first observed in the Early Cretaceous Knurr Formation. There was no fluorescence however a slow, pale milky-white cut was received from the claystone. At 2240 m in the Hekkingen Formation there was again no direct fluorescence, but with a milky-white cut being present. The Hekkingen is quite rich and is a good source rock. Residual hydrocarbon shows are present throughout the Stø and Nordmela Formations. The fluorescence varies from white to yellow and green in colour. The cuts also vary, from milky-white to yellow-white and to greenish. The differences in colour possibly represent variations in the gravity of the residual hydrocarbons. No shows were observed in the Carnian sandstone apart from the elevated drill gas.Geochemical analysis indicated that the Hekkingen Formation contains rich organic matter with fair to good potential for a mixed gas/oil generation. Poor to fair potential for generating gas exists in parts of the Knurr, Nordmela and Fruholmen formations. The pore pressure remained at 9.1 ppg EMW until approximately 2175 m, just above the top of the Jurassic. From this depth the pore pressure increased to just over 10 ppg EMW, at approximately 2250 m. The pressure then decreased to, and remained at, 9.5 ppg EMW. The top of the organic rich, Jurassic, Hekkingen Formation roughly coincides with the interpreted increase in pore pressure. Four conventional cores were cut, starting 7 meters into the Stø at 2333 m and continuing to 2410 m, 24 m into the Nordmela Formation. One FMT sample consisting predominantly of mud filtrate was obtained at 2327.5 m.The well was permanently abandoned on 13 January 1992 as a dry hole 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]820.003015.00 -
Cores at the Norwegian Offshore Directorate
Cores at the Norwegian Offshore Directorate Core sample numberCore sample - top depthCore sample - bottom depthCore sample depth - uom12333.02351.0[m ]22339.02357.0[m ]32357.02381.6[m ]42382.02410.0[m ]Cores at the Norwegian Offshore Directorate Total core sample length [m]88.6Cores at the Norwegian Offshore Directorate Cores available for sampling?YES -
Core photos
-
Palynological slides at the Norwegian Offshore Directorate
Palynological slides at the Norwegian Offshore Directorate Sample depthDepth unitSample typeLaboratory850.0[m]SWC869.0[m]SWC875.0[m]SWC910.0[m]SWC930.0[m]SWC970.0[m]DC1000.0[m]SWC1050.0[m]DC1100.0[m]DC1155.0[m]SWC1175.0[m]DC1200.0[m]DC1250.0[m]DC1300.0[m]SWC1380.0[m]SWC1548.0[m]SWC1570.0[m]DC1600.0[m]DC1630.0[m]DC1658.0[m]SWC1690.0[m]DC1720.0[m]DC1750.0[m]SWC1790.0[m]SWC1803.0[m]SWC1805.0[m]SWC1810.0[m]SWC1850.0[m]SWC1955.0[m]SWC1974.0[m]SWC2000.0[m]SWC2026.5[m]SWC2075.0[m]SWC2118.0[m]SWC2148.0[m]SWC2150.0[m]DC2165.0[m]DC2180.0[m]DC2185.0[m]DC2200.0[m]SWC2224.0[m]SWC2240.0[m]DC2260.0[m]DC2287.0[m]SWC2290.0[m]DC2296.0[m]SWC2303.0[m]SWC2317.0[m]SWC2330.0[m]DC2342.0[m]DC2363.0[m]C2364.8[m]CFUGRO2386.0[m]C2389.3[m]CFUGRO2397.0[m]C2398.3[m]CFUGRO2409.8[m]CFUGRO2410.0[m]C2430.0[m]DC2450.0[m]DC2475.0[m]SWC2512.0[m]SWC2529.5[m]SWC2560.0[m]DC2590.0[m]DC2625.5[m]SWC2645.0[m]DC2701.0[m]SWC2715.0[m]DC2745.0[m]DC2745.0[m]DC2775.0[m]DC2792.5[m]SWC2835.0[m]DC2853.0[m]SWC2865.0[m]DC2895.0[m]DC2925.0[m]DC2948.0[m]SWC2955.0[m]DC2978.0[m]DC3000.0[m]DC3015.0[m]DC -
Lithostratigraphy
Lithostratigraphy Top depth [mMD RKB]Lithostrat. unit3685005008208209109101887211222252297232623262386243024642635 -
Composite logs
Composite logs Document nameDocument formatDocument size [MB]pdf0.47 -
Geochemical information
Geochemical information Document nameDocument formatDocument size [MB]pdf2.63 -
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]pdf20.65 -
Logs
Logs Log typeLog top depth [m]Log bottom depth [m]CBL15501983CN ZDL GR SP CAL19833012DIFL AC ZDL GR SP CAL8042004DIPLOG19833012DLL MLL LSAC GR SP CAL19833012FMT GR24413005MWD404815SWC8502000SWC20263012ZOVSP8123000 -
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 typeCONDUCTOR30403.736405.00.00LOTINTERM.13 3/8804.017 1/2806.01.64LOTINTERM.9 5/81985.612 1/41986.00.00LOTOPEN HOLE3015.08 1/23015.00.00LOT -
Drilling mud
Drilling mud Depth MD [m]Mud weight [g/cm3]Visc. [mPa.s]Yield point [Pa]Mud typeDate measured16761.3222.0WATER BASED16781.2618.0WATER BASED18861.3320.0WATER BASED19661.3322.0WATER BASED20151.3520.0WATER BASED20731.3119.0WATER BASED21161.3021.0WATER BASED23271.3022.0WATER BASED23421.3020.0WATER BASED23451.3021.0WATER BASED23721.3020.0WATER BASED23821.3020.0WATER BASED24101.3021.0WATER BASED24501.3019.0WATER BASED25081.3019.0WATER BASED25791.3019.0WATER BASED26481.3020.0WATER BASED30001.2622.0WATER BASED30151.2620.0WATER 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]pdf0.28