7120/1-2
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Generell informasjon
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Brønnhistorie
GeneralBlock 7120/1 is situated on the southern margin of the Loppa High and is bisected by the east-west trending Southern Loppa High boundary fault, which separates the Loppa High from the Hammerfest Basin to the south. The main objective of well 7120/1-2 was two seismostratigraphically defined wedges (of inferred Aptian age) in a large fault-bound closure against the Loppa High. Additional objectives were provided by a lower wedge of inferred Hauterivian age and Early Jurassic/Late Triassic elastics truncated beneath the Base Cretaceous unconformity, both down dip from the structural culmination.Operations and resultsThe well spudded with the semi-submersible installation Ross Rig on 1 January 1989 and drilled to a total depth of 2630 m in Late Triassic sediments of the Fruholmen Formation. No shallow gas was encountered at any depth. The rig had to be moved three times due to problems with boulders that increased the hole inclination too much. Rough weather conditions, with waves exceeding 16 m, delayed drilling with several days. The well was drilled with seawater and spud mud down to 617 m and with KCl /Polymer mud from 617 m to TD.Well 7120/1-2 penetrated two seismically defined "wedges" which contained three distinct clastic packages. The uppermost wedge (Wedge I from1585 m to1826 m) was dated as Early to Middle Albian in age, whilst the lower hydrocarbon-bearing wedge contains two units of latest Ryazanian / Early Valanginian (Wedge IIa from1878 m to 1984 m) and Early Volgian age (Wedge IIb from1984 m to 2138 m) respectively. These units had not previously been penetrated on the Barents Shelf.Oil shows (direct fluorescence) was recorded on cuttings and cores in several intervals below 1931 m. Based on DST, logs, cores and RFT pressure measurements it was concluded that an oil column in excess of 90 m was encountered in Wedge IIa. Hydrocarbon saturations were considered reliable and although averaging only 50 %, could be as high as 65 % in both the upper and lower reservoir intervals (corresponding to Production Tests 3A and 3B respectively). Reservoir properties in the hydrocarbon-bearing interval were in general very poor and the intercalation of thin sand-shale beds made it impossible to pick an oil-water contact with any confidence. All other interpreted hydrocarbons, with the exception of an isolated sand in the Hekkingen Formation, were considered to be immovable. A segregated RFT sample was recovered from 1888.5 m (within the Production Test 3A interval in the Lower Cretaceous reservoirs of Wedge IIa). Both sample chambers were opened on the rig and found to contain oil, water and gas. A total of 0.0012 m3 of 31 deg API (0.871 g/cm3) oil was recovered along with 0.074 m3 of gas. A second RFT sample was recovered from 2153.5 m (a two to five meter thick isolated sand in the Upper Jurassic Hekkingen Formation). The lower sampling chamber from this interval was opened on the rig; it contained 0.0023 m3 of 41°API (0.820 g/cm3) oil and 0.3706 m3 of gas. Attempts to recover RFT samples and pressures from the interval 2506 m to 2543 m failed due to tight Formation. Four conventional cores were cut. In addition, a 10 cm core was recovered from the junk basket tool run to retrieve lost bullets prior to drilling ahead at the 7" liner depth. Core 1 was cut from 1815 m to 1825 m in Wedge I, core 2 was cut from 1957 m to 1969 m in Wedge IIa, core 3 (from junk basket: black fissile claystone with strong smell of H2S) was retrieved from 2147 m in the Hekkingen Formation, core 4 was cut from 2581 m to 2583 m, and the fifth core was cut from 2583 m to 2585.5 m. Cores 4 and 5 were cut in the Fruholmen Formation, and both jammed of.The well was permanently abandoned on 28 March 1989 as an oil discoveryTestingTwo hydrocarbon production tests were planned for well 7120/1-2. The planned test intervals were 2506 m to 2543 m (Production Test #1 in the Fruholmen Formation) and 1879 m to 1896 m / 1944 m to1971 m (Production Test 2A / Test 2B in Wedge IIa). During Production Test 2, the tubing conveyed perforating guns parted from the bottom hole assembly and perforated the water-bearing sands below the proposed test interval. This incident led to a repeat of the test over the interval 1879 m to1971 m as Production Test 3. Test 1 gave no flow, but bottom hole samples and bottoms up contained minute traces of oil. Test 2 produced water, while the final, oil zone test in Wedge IIa (Test 3A and Test 3B) proved moveable oil. However the oil came very slowly with alternating gas and slugs of emulsified oil, and only after displacement of the original diesel cushion with Nitrogen. -
Borekaks i Sokkeldirektoratet
Borekaks i Sokkeldirektoratet Borekaks tilgjengelig for prøvetaking?YESBorekaks i Sokkeldirektoratet Borekaksprøve, topp dybde [m]Borekaksprøve, bunn dybde [m]630.002630.00 -
Borekjerner i Sokkeldirektoratet
Borekjerner i Sokkeldirektoratet Kjerneprøve nummerKjerneprøve - topp dybdeKjerneprøve - bunn dybdeKjerneprøve dybde - enhet11815.01825.0[m ]21957.01968.0[m ]32581.02582.0[m ]42582.02585.5[m ]Borekjerner i Sokkeldirektoratet Total kjerneprøve lengde [m]25.5Borekjerner i Sokkeldirektoratet Kjerner tilgjengelig for prøvetaking?YES -
Kjernebilder
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Palynologiske preparater i Sokkeldirektoratet
Palynologiske preparater i Sokkeldirektoratet Prøve dybdeDybde enhetPrøve typeLaboratorie413.3[m]SWC469.3[m]SWC531.3[m]SWC595.3[m]SWC643.0[m]SWC680.0[m]SWC800.0[m]SWC870.0[m]SWC980.0[m]SWC1020.0[m]SWC1065.0[m]SWC1145.0[m]SWC1160.0[m]SWC1420.0[m]SWC1460.0[m]SWC1500.0[m]SWC1558.0[m]DC1559.5[m]SWCRRI1563.5[m]SWCRRI1566.1[m]SWC1576.0[m]DC1584.9[m]SWCRRI1589.5[m]SWC1593.5[m]SWCRRI1594.0[m]DC1601.1[m]SWC1621.0[m]DC1625.1[m]SWC1643.0[m]DC1651.1[m]SWC1658.0[m]SWCRRI1677.0[m]SWC1682.0[m]DC1688.0[m]DCRRI1703.0[m]DCRRI1718.0[m]DCRRI1724.0[m]DC1748.0[m]DCRRI1754.0[m]DC1778.0[m]DCRRI1784.1[m]SWC1799.0[m]DC1808.0[m]DCRRI1808.0[m]SWC1811.0[m]DC1816.4[m]C1817.0[m]CRRI1817.4[m]C1817.5[m]CRRI1818.4[m]C1819.3[m]CFUGRO1819.4[m]CRRI1820.0[m]CRRI1820.1[m]CRRI1820.1[m]C1820.4[m]C1822.4[m]C1822.6[m]C1822.6[m]CFUGRO1830.5[m]SWCRRI1835.0[m]DC1838.0[m]SWCRRI1838.0[m]SWC1844.0[m]DC1853.0[m]DC1856.5[m]SWCRRI1862.0[m]DC1863.1[m]SWC1863.1[m]SWCRRI1868.0[m]SWCRRI1871.0[m]DC1880.0[m]DC1883.5[m]SWC1883.5[m]DCRRI1889.0[m]DC1898.0[m]SWCRRI1901.0[m]DC1904.0[m]DCRRI1905.1[m]SWC1910.0[m]DC1913.0[m]DCRRI1919.0[m]DC1922.0[m]DCRRI1928.0[m]DCRRI1928.5[m]SWC1931.0[m]DC1937.0[m]DCRRI1940.0[m]DC1943.0[m]DCRRI1946.0[m]DCRRI1949.0[m]DC1953.6[m]SWC1955.0[m]DC1957.0[m]C1957.0[m]CRRI1957.7[m]CFUGRO1958.3[m]C1959.2[m]CRRI1959.2[m]CICHRON1959.2[m]CFUGRO1959.4[m]CICHRON1960.0[m]CICHRON1960.1[m]CICHRON1960.9[m]CRRI1960.9[m]CICHRON1961.2[m]CICHRON1961.5[m]CICHRON1962.4[m]CICHRON1963.0[m]CICHRON1963.5[m]CICHRON1963.9[m]CICHRON1964.1[m]CRRI1964.2[m]CICHRON1964.5[m]C1964.6[m]DC1964.9[m]CICHRON1965.2[m]CRRI1965.2[m]C1965.5[m]CICHRON1965.9[m]CICHRON1966.0[m]CFUGRO1966.1[m]CICHRON1966.4[m]CICHRON1966.5[m]C1966.8[m]CFUGRO1966.8[m]CICHRON1967.3[m]CICHRON1967.3[m]C1967.5[m]C1967.8[m]CRRI1967.8[m]CICHRON1971.5[m]SWCRRI1971.5[m]SWC1973.0[m]DC1975.2[m]SWC1977.5[m]SWC1980.0[m]SWCRRI1980.0[m]SWC1981.5[m]SWCRRI1981.5[m]SWC1982.0[m]DC1988.0[m]DCRRI1991.0[m]DC1992.3[m]SWC2000.0[m]DCRRI2000.0[m]DC2009.0[m]DC2009.0[m]DCRRI2016.6[m]SWC2018.0[m]DCRRI2018.0[m]DC2030.0[m]DC2030.0[m]DCRRI2042.0[m]DC2048.0[m]DCRRI2051.0[m]DC2060.0[m]DC2063.0[m]SWC2067.1[m]SWCRRI2067.1[m]SWC2069.0[m]DC2078.0[m]DCRRI2081.0[m]DC2090.0[m]DC2097.1[m]SWC2099.0[m]DC2108.0[m]DCRRI2110.1[m]SWC2111.0[m]DCRRI2111.0[m]DC2114.0[m]DCRRI2120.0[m]DC2129.0[m]DC2130.5[m]SWC2132.0[m]DCRRI2135.0[m]DCRRI2136.4[m]SWC2138.0[m]DCRRI2141.0[m]DCRRI2141.0[m]DC2147.0[m]DC2147.0[m]DCRRI2150.0[m]CSTATOIL2150.0[m]DC2150.0[m]CRRI2150.0[m]C2156.0[m]SWC2156.0[m]SWCRRI2160.0[m]SWCRRI2165.0[m]DC2170.0[m]SWC2170.0[m]SWCRRI2180.0[m]SWCRRI2180.0[m]SWC2189.0[m]DC2195.0[m]SWC2198.0[m]DC2198.0[m]DCRRI2207.0[m]DCRRI2210.0[m]SWC2213.0[m]DC2219.0[m]DC2219.0[m]DCRRI2228.0[m]DCRRI2234.0[m]DC2243.0[m]DCRRI2244.0[m]SWC2246.0[m]DC2249.0[m]DCRRI2249.0[m]DC2258.0[m]DCRRI2270.0[m]DC2285.0[m]DC2285.0[m]DCRRI2357.0[m]DC2368.5[m]SWC2372.0[m]DC2384.0[m]DC2390.0[m]SWC2415.0[m]SWC2425.0[m]SWC2432.0[m]DC2448.0[m]SWC2450.0[m]DC2460.0[m]SWC2469.0[m]SWC2474.0[m]DC2507.0[m]DC2509.5[m]SWC2526.5[m]SWC2531.0[m]DC2555.0[m]DC2561.0[m]SWC2573.0[m]DC2582.6[m]C2584.5[m]C2585.4[m]C2597.0[m]DC2612.5[m]SWC2626.0[m]SWC -
Oljeprøver i Sokkeldirektoratet
Oljeprøver i Sokkeldirektoratet Test typeFlaske nummerTopp dyp
MD [m]Bunn dyp
MD [m]Væske typeTest tidspunktPrøver tilgjengeligDSTTEST3A1879.001971.0021.03.1989 - 10:30YESDST1888.001896.0021.03.1989 - 00:00YESDSTDST3B1944.001971.0022.03.1989 - 00:00YES -
Litostratigrafi
Litostratigrafi Topp Dyb [mMD RKB]Litostrat. enhet32840840815601560158515851586159118261878198419862138215822112211236524522506 -
Spleisede logger
Spleisede logger Dokument navnDokument formatDokumentstørrelse [MB]pdf0.47 -
Geokjemisk informasjon
Geokjemisk informasjon Dokument navnDokument formatDokumentstørrelse [MB]pdf3.20 -
Dokumenter – eldre Sokkeldirektoratets WDSS rapporter og andre relaterte dokumenter
Dokumenter – eldre Sokkeldirektoratets WDSS rapporter og andre relaterte dokumenter Dokument navnDokument formatDokumentstørrelse [MB]pdf0.26pdf0.15 -
Dokumenter – rapportert av utvinningstillatelsen (frigitt ihht til regelverk)
Dokumenter – rapportert av utvinningstillatelsen (frigitt ihht til regelverk) Dokument navnDokument formatDokumentstørrelse [MB]pdf42.89 -
Borestrengtester (DST)
Borestrengtester (DST) Test nummerFra dybde MD
[m]Til dybde MD
[m]Reduksjonsventil størrelse
[mm]2.01879197112.7Borestrengtester (DST) Test nummerEndelig avstengningstrykk
[MPa]Endelig strømningstrykk
[MPa]Bunnhullstrykk
[MPa]Borehullstemperatur
[°C]2.0Borestrengtester (DST) Test nummerOlje produksjon
[Sm3/dag]Gass produksjon
[Sm3/dag]Oljetetthet
[g/cm3]Gasstyngde rel. luftGOR
[m3/m3]2.01500.673 -
Logger
Logger Type loggTopp dyp for logg [m]Bunn dyp for logg [m]CBL VDL11641546CBL VDL14402145CHKSHT4152135CST414604CST6231537CST6431537CST15602136CST19722145CST21642622CST24602578DIL BHC402616DIL BHC6101550DIL BHC15462144DIL BHC21452561DIL BHC24772628DIL MSFL21452630DLL MSFL15462137LDL CNL AMS6101552LDL CNL CAL402615LDL CNL NGS15462144LDL CNL NGS24502629LDL CNL NGT21442564MWD3422140RFT21532541RFT25082578SHDT21452630SHDT CAL15452141VSP7002584 -
Foringsrør og formasjonsstyrketester
Foringsrør og formasjonsstyrketester Type utforingUtforing diam.
[tommer]Utforing dybde
[m]Brønnbane diam.
[tommer]Brønnbane dyp
[m]LOT/FIT slam eqv.
[g/cm3]Type formasjonstestCONDUCTOR30401.0360.00.00LOTINTERM.20607.026622.01.37LOTINTERM.9 5/81544.012 1/21564.01.27LOTLINER72144.08 1/22151.01.34LOTLINER4 1/22630.05 7/82630.00.00LOT -
Boreslam
Boreslam Dybde MD [m]Egenvekt, slam [g/cm3]Viskositet, slam [mPa.s]Flytegrense [Pa]Type slamDato, måling3661.04WATER BASED04.01.19896731.0215.020.0WATER BASED16.01.19898271.2019.024.0WATER BASED16.01.19898801.2019.024.0WATER BASED16.01.198911001.0217.020.0WATER BASED17.01.198912901.2017.019.0WATER BASED17.01.198915001.2020.028.0WATER BASED19.01.198915001.2020.028.0WATER BASED20.01.198915001.2020.028.0WATER BASED25.01.198915001.2022.034.0WATER BASED19.01.198916001.2021.028.0WATER BASED25.01.198916701.2021.020.0WATER BASED26.01.198917401.2026.021.0WATER BASED26.01.198917811.2024.021.0WATER BASED27.01.198917811.2024.021.0WATER BASED30.01.198918301.1820.021.0WATER BASED30.01.198918501.20WATER BASED20.03.198918501.20WATER BASED22.03.198918501.20WATER BASED28.03.198918501.20WATER BASED16.03.198918871.2022.023.0WATER BASED31.01.198919341.2021.023.0WATER BASED01.02.198919501.2022.020.0WATER BASED03.02.198919501.2022.020.0WATER BASED02.02.198919901.02WATER BASED22.03.198920401.1822.022.0WATER BASED06.02.198920501.03WATER BASED13.03.198920501.03WATER BASED14.03.198920501.03WATER BASED15.03.198921011.1822.022.0WATER BASED06.02.198921401.1820.023.0WATER BASED08.02.198921401.1820.023.0WATER BASED09.02.198921401.1820.023.0WATER BASED13.02.198921591.2020.021.0WATER BASED17.02.198921601.2020.021.0WATER BASED20.02.198922581.2021.023.0WATER BASED20.02.198923841.2021.023.0WATER BASED20.02.198923841.2021.023.0WATER BASED21.02.198924561.2021.022.0WATER BASED22.02.198924941.2021.022.0WATER BASED24.02.198925501.2021.022.0WATER BASED27.02.198925641.2021.022.0WATER BASED28.02.198925811.2021.022.0WATER BASED28.02.198925851.2021.022.0WATER BASED02.03.198925851.2021.022.0WATER BASED28.02.198926001.03WATER BASED10.03.198926001.03WATER BASED07.03.198926001.03WATER BASED09.03.198926001.03WATER BASED13.03.198926301.03WATER BASED07.03.198926301.2021.020.0WATER BASED03.03.198926301.2021.020.0WATER BASED06.03.1989 -
Tynnslip i Sokkeldirektoratet
Tynnslip i Sokkeldirektoratet DybdeEnhet1816.15[m ]1817.32[m ]1961.72[m ]1962.73[m ]2581.80[m ]2583.48[m ] -
Trykkplott
Trykkplott Porertrykksdataene kommer fra logging i brønnen hvis ingen annen kilde er oppgitt. I noen brønner der trykk ikke er logget, er det brukt informasjon fra formasjonstester eller brønnspark. Trykkdataene er rapportert inn til Oljedirektoratet og videre prosessert og kvalitetssikret av IHS Markit.Trykkplott Dokument navnDokument formatDokumentstørrelse [MB]pdf0.28