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Home My WebLink AboutGMC Data Report No. 029/ 7G4G-~ APRIL 29, 1985 wt% PO31379(X)1 tD blk coaly shale P031380001 c~ c/fy 8L//c shale JUrassic 0.176 3.041 " 0.348 0.016 " I 0.29 ;~A'S-3257" mf~ to " 0.526 0.052 P031381001 <~ gry shale 0.55 A~.-8-3258 .I, ~ gry " 0.397 0.019 ~ 0.44 E0313820Ol to blk shale , ~<A-.6-3259 = " " 0.488 0.036 P031383001 AKA-~-3260" " M. Jurassic 0.431 0.045 F031384001 A~%6-3261" blk " 0.401 0.021 K)31385001 shale 1.32 ,~-~,~ -,-. o.~o o.~:~ ~ C ~I V ~ u , ,-~, F031386001 Bafer to ERC request n~: 030641 A!aska 0ii & Gas Cons. Coramisslon ,¢,nchoraqe leadti~ fact=~ ~ms 0.8309. ~2m HA~P is a ne~ t~dmique used to screen samples for source rook quality. ~he PE% yield fr~ ~ is roughly equi%~ulent to the %H~ yield by pyrol~ FID. ]he PL~ is a direct 'measure cf the sample richness, ~ the fluorescence units deri%~d by the old pyrolysis fluo~ (PF) S~LE TYPE ID. NO. 502612000100 CHEVRON KONIAG LOCATION O2 038S 049W AKA DEPTH TOP 03520.00 BOTTOM 03560.00 F' F'031379001 0.,1~0 0.300 0.200 1 O0 200 300 4.00 500 600 . 700 DE3..TA T - 5 TEMPERATURE DEGREES C UNIT f 5 ' 052085 FO02 AKA-$-3255 /DK BRN TO BLK COALY :SHALE HYOROC. ARBON YIELD DISTIU.,,~,r (25-300C) ~; 0.435 PYROLYZABLE (350-750C) ~ 2.476 DIS'T./~. RATIO O. 176 F'YRO./I'OT,~. HC I~TIO YIELD O-- 19~) DEG. C ~ O: 12;3 YIF. LD 200-39S DF.D. C K 0.5~2 YI[J.D 4.0G+ DEG. ¢ ~ 2.367 TOTAL. HYDR~BONS ~[ $.0.41 PEAK TEMP.DE:G.C DIST. PEAK 228 PYRO.PEAK 1 500 pUrlD VERSION 4.00 ID. NO. 502612000100 CHEVRON KoNiAG I. DCATIO N 02 0.385 049W AKA DEPTH TOP 04640.00 BOTTOM 0~680.00 F F051 `3800O 1 0.010 0.008 0.006 0.004 0.002 1 O0 200 .300 400 500 600 700 DELTA T ~ .5 TEMPERATURE DEGREES C UNIT 1~5- 032085 FO0~ AKA-S-`3256 /MED TO DK GRY SILIC SHALE HYDRO~BON 'fiELD DtsTlU.~LE (25-300C) ~ 0.004 PYROLYZABLE (`350-750C) ~ 0.011 DIST./PYRO. RATIO 0.348 PYRO./TOTAL HC RATIO 0.690 YIELD O- 195 DEG. C ~ 0.001 YIELD 200-595 DEG. C fl~ 0.005 YIELD 400+ DEG. C ~ 0.010 TOTAL HYDR~BON$ ~ 0.016 PLFID VERSION 4,00 . ID, NO, 502612000100 CHEVRON KONIN3 · LOCATION 02 DEPTH TOP 05040,00 BOI'rOM 050BO,O0 F F031381001 z 0.010 0.006 0.002 1 O0 200 300 ,400 500 60D 700 DELTA T - 5 TEMPERATURE DEGREES C UNIT 1~5" 032085 FO05 AKA--S--3257 /MED TO DK ORY SHALE HYDROC/~BON YIELD DISTII"I"~BLE (25--300C) ~: D~'T./F~'RO. R~TIO PYRO./TOT,~L He R~,TIO 'n.-~D O- 1 g5 DEG. C ~ YIELD 200-395 DEG, C ~ YIELD 400.+ DEG, C X TOTAL HYDR~BON$ ~ 0.016 0.030 0.526 0.585 0.002 0.024. 0.026 0.052 PEAK TEMP.DEG.C DIST. PEAK 24.6 PYRO.PEAK I 505 PLFID VERSION 4.00 ID. NO. 502612000100 CHEVRON KONI~G LOCATION 02 038S O~gw AK~ DEPTH TOP 054.40.00 Bo'FrOM 0,54.80.00 F FO31382001 0.010 0.008 0,006 0.00~ 0.002 1 O0 200 300 4.00 500 600 700 DELTA T - 5 TEMPERATURE DEGREES C UNIT ~5' 052085 FO06 AKA-S-3258 /DK GRY TO BLK SI-I^LE HYDROCARBON YIELD DIST~LLABLE (25-300C) ~ PYROLYZ^BLE (350-750C) ~. DIS'T./PYRO. RATIO PYRO.~OT,,¢. HC RATIO YIELD O- 195 DEG. C ~ YIELD 200-,7,95 DEG. C ~ YIELD 4.00+ DEG. C ~ TOTAL HYDROCARBONS ~ 0.00,.5 0.012 0.597 0.653, 0.001 0,008 0.011 0.019 PLF'ID VERSION 4.00 ID. NO. 502612000100 CHEVRON KONIAG LOCATION 02 038S 04gw AKA DEPTH TOP 05960.00 BOTTOM 06000.00 F F051383001 0.010 0.008 0.006 0.OO2 ~ ' ! I I "---"-'--------'- J 1 O0 ~ 200 ~ 300 400 500 600 ~ 700 ~ DELTA T '" ,5 TEMPERATURE DEGREES C UNIT ~5" 052085 FO07 /d'Ok-S-,'5259 /DK GRY TO BLK SI'IN..E HYDROCARBON YIELD DIST~LLABLE (25-500C) ~ PYEOLYZABLE (350-750C) ~ DIST./PYRO. RATIO PYRO./TOTAL He RATIO · nrLD O- ~ ~5 DEG. ¢ ~ YIELD 400-t. DEG. C ~ TOTAL HYDROCARBONS ~ 0.010 0.021 0.488 0.576 0.001 0.018 0.017 0.056 -. PLFID VERSION 4.00 · HO. 502612000100 CHEVRON KONI~O LOCATION 02 038S 049W AKA DEPTH TOP 06440.00 BOTI'OM 06480.00 F 1:'03138,4001 0.010 0.002 1 O0 200 ~ 400 500 60Q 700 DELTA T t 5 TEMPERATURE DEGREES C UNIT tfE~' 052085 FO08 ~KA-S-.,~260 /DK GRY TO BLK SI'tALE HYD~ON YIELD Dm'~u.~,r (2~-3ooc) ~; PYRO,,,,z,,a~ (:~-7~x:) x De,-r./PYRO. RATIO YIELD O- 195 DEG. C ~ YIELD 200-395 DEG. C ~ YIELD 400-1. DEG. C ?; TOTAL HYOR~BONS ~ 0.012 0.027 0.431 0.613 0.002 0.020 0.023 0.045 PEAK TEMP.DEG.C DIST.PEAK 293 PYRO.PE,~ 1 52g PLFIO VERSION 4.00 CHEVRON LOCATION DEPTH TOP FO$1385001 ID, NO. 502612000100 KONIAG 02 038.$ 049W AKA 06760.00 BOTTOM 06600.00 F 0.010 0.008 0.006 0.004 0.002 1 O0 200 300 400 500 600 700 DELTA T -- .5 TEMPERATURE DEGREES C UNIT !~5° 032085 FO09 AKA-S--3261 /BLK SHALE HYDROCARBON YIELD DIS'I'ILLABLE (25-$00C) ~; 0.005 PYROLYZABLE (,.350-750C) ~ 0.012 DIST./PYRO. RATIO 0.401 PYROo/q'OT~I. HC RATIO 0..595 YIELD O- 195 DEG, C ~ 0.001 YIELD 200-395 DEG. C ~ 0.010 YIELD 400+ DEG. C ~ 0.010 TOTAL HYDR~BONS ~; 0.021 PLFID VERSION 4.00 CHEVRON LOCAI'ION DEPTH TOP F051386001 $tt£L~ ~ PYROLYSIS RD ANAL Y~S ID. NO. 502612000100 KONIAG 02 038S o~gw AKA 070d. O.O0 BOTTOM 07080.00 F 0.010 0.008 0.006 0.004 0.002 1 O0 200 :300 400 500 600 700 DELTA T ~ ,5 TEMPERATURE DEGREES C UNIT ~5., 05218,5 FO01 ,N(A-S--3262 /'BLK SHALE HYDROCARBON YIELD DISTILI.N~LE (25--300C) ~ 0.010 PYROLYZABLE (350-750C) ~ 0.027 DIST./PYRO. RATIO 0.580 PYRO./"I'OTAL HC RATIO 0.638 YIELD 0-19,5 DEG. C ~ 0.001 YIELD 200-5.95 DEG. C ~ 0.018 YIELD 400-f' DEQ. C ~ 0.023 TOTAL HYDROCARBONS ~ 0.042 PLFID VERSION 4.00 HARP SHORT CYCLE FINAL REPORT WELL : 502612~g1~ AREA : c EvRoN LOCATION : AKA KONIAG SEQ # DEPTHS -- TYPE HC% ---- LITHOLOGY 1 348~.~ - 352~.~E UD 2 352g.~ - 35G~.~ UD 3 447G.g~ - 452E.~ UD 4 452~.f/~ - 456f/.f/~ UD 5 45G~.~f/ - 4G~f/.~ UD G 4G~.f/f/ - 4G4f/.f/~ UD 7 464~.~f/ - 468~.f/g UD 8 4GSa.f/f/ - 472f/.f/~ UD 9 472~.f/~ - 476f/.~ UD lf/ 476f/.f/f/ - 48~f/.f/f/' UD 1! 48~.f/~ - 484f/.f/~ UD 12 484f/.~ - 488f/.f/~ UD 13 488~.f/f/ - 492f/.~ UD 14 492g.f/f/ - 4gGf/.f/~ UD 15 49Gf/.f/f/ - 5~f/.f/~ UD 1G 5f/~.~ - 5~4f/.f/E UD 17 5f/4~.~f/ - 5~Sf/.f/f/ UD 18 5f/Sf/.f/f/ - 512f/.f/~ UD 19 512~.~f/ - 516N.~ UD 2~ 516~.f/f/ - 52f/f/.~f/ UD 21 52~.~ - 524f/.f/~ UD 22 524~.f/f/ - 528f/.f/~ UD 23 528~.f/f/ - 532f/.~f/ UD 24 532~.f/f/ - 536~.f/~ UD 25 53Gf/.f/f/ - 54f/~.f/f/ UD 2G 54~f/.f/f/ - 544f/.~ UD 27 544~.f/f/ - 548f/.f/f/ UD 28 548f/.f/f/ - 552f/.f/f/ UD 29 552f/.f/f/ - 556~.f/f/ UD 3g 556~.~f/ - 560f/.~ UD 31 56~.~f/ - 564f/.f/f/ UD 32 564~.f/f/ - 568f/.~ UD 33 568f/.E~ - 572f/.f/f/ UD 34 572~.~f/ - 576f/.~E UD 35 576~.~f/ - 58~f/.~ UD 36 58~.f/f/ - 584f/.f/E UD 37 584~.f/f/ - 588~.f/E UD 38 588f/.f/f/ - 592f/.f/f/ UD 39 .592~.~ - 59GZ.f/~ UD 4~ 41 42 43 44 45 46 47 '48 49 5~ 51 59Gg.f/f/ - 6~f/g.f/f/ UD 6f/gg.f/g~- Gg4~.f/f/ UD 6f/4g.f/f/ - 6f/Sf/.f/f/ UD 6f/8g.f/g - 612~.~ UD 612f/.f/~ - 616f/.f/~ UD 616~.f0 - 62ff/.f/~ UD 62~.~f/ - 624~.f/~ UD 624g.gf/ - 628g.f/~ UD 628f/.f/f/ - 632f/.f/~ UD 632g.f/f/ - 636g.gZ UD G36~.f/g - 64f/f/.f/g UD G4gf.gg - 644f/.gf/ UD g.63 1.15 g. f/. fF. g.gl g.~l SS(G.W.) SH DK BRN TO BLK TR COAL A/A SS(G.W.) TR SLTST MED GRY A/A SH/SLTST MED GRY TR SS SH/SLTST MED GRY TR SHC IN VEIN CALCITE SH MED TO DK GRY TR SS A/A A/A A/A A/A A/A A/A SS(G.W.) SH MED TO DK GRY A/A A/A SH MED TO DK GRY A/A SS(G.W,) SH MED TO DK GRY A/A SH MED TO DK GRY A/A A/A A/A A/A A/A SH MED TO DK GRY W/VEIN CALCITE? SHC SH MED TO DK GRY W/VEIN CALCITE TR G.W. A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A UNITS = F gf/g2 38 S 49 W REMARKS LITH PD:BRN BLK SH PD:GRY SILI SH PD:GRY SH PD:GRY-BLK SH PD:GRY-BLK SH PAINT CHIPS FID 3 g.16 JB'.g5 NCC 9.3 ~F.29 g.55 g.44 ~.G7 52 644f.Z~ - 648~.~ UD S.~2 53 648~.~ - 652~.~ UD f.~l 54 652~.ZZ - 656~.~g UD f.~f 55 656~.~ - 66~.~ UD ~.~ 56 66ZZ.ZZ - 664Z.~ UD 58 668f. OZ - 672Z.ZZ UD 61 68Z~.~ - 684Z.gW UD 62 684Z.fZ - 688Z.Zg UD 63 688W.Zf - 692Z.~g UD 64 692Z.ZZ - 696f.Zg UD 66 7ZZZ.Z~ - 7Z4Z.gW UD 67 7Z4~.f~ - 7f8Z.~g UD 68 7~8,~.~Z - 712W.ZW UD ~.~ 69 712Z.~ - 716~.~ UD ~.~ 7~ 716Z.~ - 72~.~ UD ~.~ 71 72ZZ.ZZ - 724Z.~ UD ~.~ 72 724~.Z~ - 728Z.~W UD ~.~ 73 728Z.~ - 732~.~ UD Z.Z~ 74 732~.~ - 736~.~Z UD ~.~ 75 736~.~ - 74~.~W UD A/A A/A SS(G.W.) SH DK GRY TO BLK A/A A/A SH DK GRY TO BLK SS(G.W.) A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A A/A SS(G.W.) SH BLK A/A A/A PD:GEY-BLK SH PD:BLK SH PD:BLK SH S.98 1.32 1.71 SI-tEL L DE V t-IR~ PLOT RPINO = 5026:12000].00 OPER = CHEVRON LERSE = KONZRG NELL = 1 ELEV = FIELD = PROV = LOC = RKR 0002 38S q9N UNITS: FEET _ O. 01 3q50 355£ 365C 385C 395(] NYDROCRRBON YIELD, I,,IT O. 10 0.$0 1.00 ~00 10,00 '_ '"]1 I I,,,,J',]tl "1 '"1 Illl~ '1'.,I,II ..-J .-.-1 -- PD:BRN BLK SH mI ~850- 4950-_ -- 50502 -- -- -- 5150- 52502 -- -- 53502 5450i -- 5550- -- -- 5650- -- -- 5750- PD:GRY SH 5850- 5950- -- -- -- iS150- 8B50- 8550- PD:GRY-BLK SH PNNT CHIF~ PD:GRY-BLK SH 0.04 0.87 6650~_ -- 6750-- -- -- 6850- -- -- 6950- -- 7050'- 7150- -- -- 7250- -- 7:~50_- -- -- -- -- -- -- 7450_-_ 0.04 1,71 AP] NO. SHELL DEVELGPH~NT DEPTH-PEFLECTANCE PLOT PRODUCLD BY DEPTH PROGRAM VERSION 502612000110 AKA CHEVRON KONtAG LOCATION 2 38S 4~W 7 LAT, LONG. AREA PENINSULA DATE 4 ELEV. T.D, 10~07 REMARKS SAMPLES EXAMINED ABOVE 6200 FT A~E tN NAKNEK/U, JURASSIC Md = MID, JURASSIC PLOTTING SYMBOLS C D 0 I R T E C BAR = BARREN MEAN H I ~ I FID ND = NO DETER~IINATION -CONF +CONF U.V. SCAN --REFLECTANCE O,-":PTH IN FEET BITUMEN, SHC B VITRIN!TE V 3000 400O SO00 6000 7O0O 8000 0.2 E 10 ] 5 ;~0 LOM 0 3 0 4 0.5 0.6 1 0 ~_ 0 3.0 4.0 5.0 VR Sample No. Results of TOC Depth (ft) TABLE I Analysis with Leaching TOC (Wt. Factor ,'~/~s~-~ 0// ~ , "-,.,,,a~ .... ':" .om~i_~s,.~'~'~ 1621-001 1621-002 1621-003 1621-004 1621-005 1621-006 1621-007 1621-008 1621-009 1621-010 1621-011 1621-012 1621-013 1621-014 1621-015 1621-016 1621-017 1621-018 1621-019 1621-020 1621-021 1621-022 1621-023 1621-024 1621-025 1621-026 1621-02'7 1621-028 1621-029 1621-030 1621-031 1621-032 1621-033 1621-034 1621-035 1621-036 1621-037 1621-038 1621-039 1621-040 1621-041 1621-042 1621-043 3480-3520 3520-3560 44?6-4520 4520-4560 4560-4600 4600-4640 4640-4680 4680-4720 4?20-4760 4?60-4800 4800-4840 4840-4880 4880-4920 4920-4960 4960-5000 5000-5040 5040-5080 5080-5120 5120-5160 5160-5200 5200-5240 5240-5280 5280-5320 5320-5360 5360-5400 5400-5440 5440-5480 5480-5520 5520-5560 5560-5600 5600-5640 5640-5680 5680-5720 5?20-5?60 5760-5800 5800-5840 5840-5880 5880-5920 5920-5960 5960-6000 6000-6040 6040-6080 6080-6120 2.51 2.23 0.21 0.16 0.24 0.24 0.20 0.20/0.23 0.20 0.21 0.26 0.20 0.16 0.17 0.17 0.17/0.20 0.41 0.45 0.24 0.25 0.49 0.49 0.43 0.43/0.43 0.42 0.42 0.3'7 0.38 0.39 0.33 0.40 0.37/0.39 0.33 0.38 0.39 0.52 0.62 0.62 0.63 0.65/0.69 0.64 0.56 0.57 0.8298 0.8665 0.8742 0.87'75 0.8795 0.8980 0.9008 0.9132/0.9015 0.9159 0.8907 0.8219 0.9113 0.8952 0.9016 0.9058 0.9048/0.9021 0.8868 0.8531 0.8942 0.8615 0.8641 0.86:24 0.8'723 0.8787/0.8721 0.8669 0.8666 0.8298 0.7959 0.8621 0.8382 0.8400 0.855'7/0.8521 0.8493 0.8473 0.8156 0.8577 0.9036 0.8979 0.9137 O. 9037/0. 9014 0.8?30 0.8554 0.8754 TABLE Sample NO. Results of TOC Analysis Depth (ft) with Leaching TOC (Wt. %) Factor Leaching Factor 1621-044 1621-045 1621-046 1621-047 1621-048 1621-049 1621-050 1621-051 1621-052 1621-053 1621-054 1621-055 1621-056 1621-057 1621-058 1621-059 1621-060 1621-061 1621-062 1621-063 1621-064 1621-065 1621-066 1621-067 1621-068 1621-069 1621-070 1621-071 1621-072 1621-073 ]621-074 1621-075 6120-6160 6160-6200 6200-6240 6240-6280 6280-6320 6320-6360 6360-6400 6400-6440 6440-6480 6480-6520 6520-6560 6560-6600 6600-6640 6640-6680 6680-6720 6720-6760 6760-6800 6800-6840 6840-6880 6880-692O 6920-6960 6960-700O 7000-7040 7040-7080 7080-7120 7120-7160 7160-7200 7200-7240 7240-7280 7280-7320 7320-7360 7360-7400 0.74 0.65 0.67 0.72 0.7710.82 0.71 0.76 0.64 0.75 0.67 0.50 0.46 0.47/0.49 0.59 0.80 0.72 1.04 0.85 0.86 0.91 0.87/0.91 0.89 1.10 .1.23/1.25 0.70 0.77 0.65 0.57 0.64/0.64 0.33/0.36 0.60 0.53/0.54 0.8557 0.8807 0.8876 0.8680 0.8878/0.8801 0.8809 0.8748 0.8434 0.8678 0.8710 0.8390 0.8204 0.8595/0.8362 0.8804 0.8890 0.8869 0.8906 0.8825 0.8744 0.8745 0.8136/0.8106 0.8217 0.8224 0.7379/0.7091 0.8503 0.8562 0.8954 0.9014 0.8751/0.8840 0.6970 0.8430 0.8892/0.8934 .,NELL 602612800100 CHEVRON AREA : LOCATI ON SEQ · DEPTHS TYPE HC~ I 3480.00 - 3520.80 UD ~.63 2 3520.0~ - 356~.g~ UD 1.15 3 4476.~0 - 4520.00 UD 0.~0 4 4520.00 - 4560.00 UD 0.00 5 4560.00 - 4600.00 UD 6 4600.00 - 4640.00 UD 0.0g 7 4640.B0 - 4680.00 UD 0.00 8 4680.00 - 4720.00 UD 0.00 9 47Z0.00 - 4760.00 UD 10 4760.00 - 4800.B~ UD 11 48g0.~0 - 4840.00 UD 0.00 12 4040.00 - 488~.00 UD 0.00 13 4880.00 - 492~.~0 UD 0.00 14 4920.00 - 4960.00 UD 0.00 15 4960.00 - 5000.00 UD 16 5000.00 - 5040.00 UD 17 5B40.00 - 5080.~g UD ~.01 18 5080.00 - 5120.00 UD 0.01 19 5120.00 - 5160.00 UD - 20 5160.00 - 520~.00 UD 21 5200.00 - 5240.~0 UD B.00 22 524g.~ - 5280.00 UD 0.B1 23 ,5280.00 - 5320.00 UD 24 5320.00 - 5360.00 UD 25 5360.00 - 5400.00 UD 0.00 26 5400.00 - 5440.00 UD 27 5440.00 - 5480.00 UD 0.00 28 548~.00 - 5520.00 UD 0.00 29 5520.00 - 5560.00 UD 0.00 30 5560.00 - 5600.00 UD 0.00 31 5600.00 - 564~.00 UD 32 5640.00 - 5680.00 UD 0.00 33 5680.0~ - 5720.00 UD 0.00 34 5720.00 - 5760.00 UD 35 576~,00 - 580~.~0 UD 0.00 36 5800,00 - 5840.00 UD 37 5840.00 - 5880.00 UD ~.01 38 5880.00 - 592~.0~ UD g.~2 39 59Z~.00 - 5960,00 UD' 0.00 40 5960.00 - 6000.00 UD 41 6000,00 - 6040,00 UD 0.04 42 6040.00 - 608~.00 UD ~.OZ 43 6080,00 - 61Z0.00 UD 44 6120,00 - 616~.~0 UD 0.01 45 616~,~0 - 6200.~0 UD ~.01 46 6Z~0,~0 - 6Z40.~0 UD g. OZ 47 6240,~ - 6280,~0 UD 0.01 48 6Z80.00 - 63Z0.00 UD 0.0Z 49 63Z0,00 - 6360.~0 UD 50 6360.00 - 64~,00 UD ~.00 51 6400,00 - 6440.~0 UD 0,01 AKA KONIAG LZTHOLOGY 52 6440.00 - 6480.00 UD g.02 53 6480.~0 - 652g.0E UD g.01 54 6520.00 - 6560.00 UD 0.0~ 5~ 6560.00 - 660~.00 UD B.00 56 6600.0~ - 6640.00 UD 57 6640.00 - 6680.00 UD g.00 58 6680.00 - 6720.00 UD 59 6720.00 - 6760.00 UD g.0~ 60 6760.00 - 6800.00 UD 61 68~0.~0 - 6840.00 UD ~.~ 62 6040.00 - 6880.00 UD 0.00 63 6880.00 - 6920.00 UD 64 6920.00 - 6960.00 UD 0.01 65 6960.00 - 7000.00 UD 0.00 66 700~.00 - 7040.00 UD 0.01 67 7040.00 - 7080.00 UD g.~2 68 7080.00 - 7120.00 UD 0.00 69 7120.00 - 7160.00 UD ~.00 70 7160.~0 - 7200.00 UD 0.00 71 7Z00.00 - 7240.00 UD 0.00 72 7240.~ - 728~.~ UD 0.00 ~38 5888.~B 39 5928.~ ~B 596~.~ 41 680~.B~ 42 6~48.B~ 43 6~88.BB 44 612~.~0 45 6168.80 46':';t~Z88.88 47 6248.88 48 6288.e8 49 6328.88 50 6368.88 51 6488.88 - 5888.88 UD 8.81 - 5928.88 UD B.g2 - 5968.88 UD 8.88 - 6~88.88 UD 8.81 - 6848.88 U.D 8.84 - 6088.88 UD 8.82 - 6128.88 UD 8.88 - 6168,88 UD 8.8! - 6288.88 UD 8.8! - 6248.88 UD 8.8Z - 6288.88 UD 8.81 - 632~.88 UD 8.8Z - 6368.88 UD 8.~1 - 6488,88 UD 8.88 - 6448.88 UD 8,81 52 644~.88 - 6488.88 UD 8.82 53 6488.88 - 6528.80 UD 8.81 54 6528.88 - 6568.08 UD 8.00 55 6568.88 - 6688.88 UD 8.88 56 6688.88 - 6648.88 UD 57 6648.B8 - 6688.88 UD 8.80 59 6728.88 - 6768.88 UD 8.88 68 6768.88 - 6888.88 UD 8.88 61 6880.88 - 6848.88 UD 8.88 62 6848.88 - 6888.88 UD 8.88 64 6928.B8'*- 6668.00 UD 8.81 65 . 6968.e8 - 7888.88 UD 8.00 66 7888.~8 - 7848,88 UD 8,81 67 7848.e8 - 7088,~8 UD 8,82 68 7888.~8 - 7128.80 UD 8.88 69 7120.~0 - 7160.80 UD 78 7168.~8 - 7288.88 UD 8.88 71 7288.~8 - 7Z48.80 UD 8.88 72 7248.~8 - 7288.88 UD 8.88 73 7288.~0 - 7328.88 UD 74 73ZS.E8 - 7368.g~ UD 8.88 75 7360.~8 - 7488.88 UD 8.88 VMS8 · BR21GCS8 3/~9/85 15:~I:~7 DEV I-tRF PLOT APINO = 5026120001 O0 OPER = CHEVRON LERSE = KONIRG WELL = 1 ELEV = FIELD = PRO¥ -- LOC = RKR 0O02 ~ ~1 UNITS: FEET 0.01 HYDROCRRBON YIELD, WT ~, CLIO 0.30 1.00 3.00 lO. O0 C.S.T. WAS THE, ORIGIN************ 395O2_ 4450- 4550-_ 4750_- 5150- ........... .5250- 5550- 5650Z_ 5750? 6150Z 6250- '-'! ! I APRIL 22, 1985 PJ~tE~: L. SLAGLE KONIAG API tt50-261-20001-00 ALASKA PENINSULA 352O- 40982 356O 5440- 55~ P~2)sh Naknek/U. V A1.00~0.03 10.6-10.9 ~ br to Jurassic X1.01+0.04 10.6-11.0 -- b]k coaly PD(I~)sh ~L]~LC m to dk gy PD((~)sh mto~ w # x V # # # V UD(]C) """ v PD(C~)sh " blk ~D(~M)~in" ca2cite w/ slx: PD{Cl~)sh ck gy to . . V # # N N # N 644O- 409m ~:)(C~)" ~ 6480 """" JUrassic V 25 75 A1 .'10+_0_ .04 11'0-11.4 X1 .~.04 11.0-11.3 5 93 <1 2 A1.2 _0~0.05 11.4-11.7 ~ .14~0_ .07 11.1-11.5 A1.34~0_ .03 11.8-1 2.0 X1.30!0_ .04 11.7-11.9 A1,25~0_ .06 11.5-11.8 k~ .22!0_ .08 11.4-11.8 98 2 <1 25 73 2 1 97 2 1,36 ND <1 99 2.1 ~. 28 Not used for A1.5 _5+_0.04 12.3-12.4 X1.50+0.05 12.1-12.4 <1 40 <1 15 41 4 A1.69+0.06 12.5-12.9 X1.67_+0.07 12.5-12.9 1.5 _3~0.25 ND 1 .Z~0.53 ND 5 <1 A1.70~0.12 12.4-13.2 X3.74~0_ .13 12.5-13.4 4 1 89 3 98 1 94 <1 D~H F~. IAB NO. ~ TYPE ~K]~TICtq TYPE ~ + 95% SP~N~ V- LZ~I~0SY ~E ~0 O~.LM~S " " V A1.74~0.05 12.7.13.1 30 5 54 10 ' 1 X1.76~0.06 12.7-13.2 ]~ 2.37~0.13 Not used for 6760- 40993 PD((~:))sh " " V 1.84!-O. 15 ND 5 94 I <1 68OO blk 7000- 40994 rD(It:) " " V 2.06!0..28 ND 10 15 74 <1 <1 7080 7040- 40995 PD(C~)sh # " B A1.7 _2~0.09 - 5 2 93 <1 7080 blk ]30.95+0.07 - x1,~.13 - ]~ 2.04+0.19 Not used for CHEVRON KONIAG #1, API #50-261-20001-00 ALASKA PENINSULA, ALASKA Preparation methods for reflected light analysis include the following: 1) Rock Mount (RM) - a piece of whole rock mounted perpendicular to bedding, 2)Crushed Pellet or'Coal Pellet (CP) - crushed pieces of rockor coal, and 3) Kerogem condentrate (KC) - The HF-HCl-insoluble portion of a rock in which organic matter is c°ncentrated~relative to the whole rock. Ail three sample types are mounted (or mixed) with epoxy and Polished. The standard measure of maturity is vitrinite refIectance. Where two or more mean reflectance values are presented'~for a particular'maceral, the A mean is preferred and,the X group refers to all the reflectance values measured on this maceral in the sample. Visual. kerogen analysis refers to the relative amounts of each type of kerogen to the total kerogen. It does note indicate quantitatively the'amount of kerogen in the sample. Liptinite attains a reflectance similar to'that of vitrinite at around LOM 11.5-12 and can no longer~be distinguished from.vitrinite. SAMPLE TYPES PD = Picked ditch UD = Bulk ditch C = Core OT = Outcrop SW = Sidewall core ANF/JAT/LFHP: SMJ PREP, TYPES RM = Rock mount CP = Crushed pellet. KC = Kerogen concentrate MA~ERAL TYPES B = SSlid Hydrocarbon BK = Coked Solid Hydrocarbon KM = Massive Kerogen KI = Micrin. Kerogen V '= Vitrinite -UK = Undiff. Coked Org. Mat. IN = Inertinite CHEVRON KONIAG #1, API #50-261-20001-00 ALASKA PENINSULA, ALASKA VO40982001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ,,~ ID.NO, 502612000100 NO .22 .21 . 13 11 ,10 .:9 .8 .7 ,4 .2 1 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 CHEVRON ., PERCENT REFLECTANCE KONIAG 1 MACERAL SUMMARY AKA LOCATION 2 38S 49W TOP 03520.00 BOT 03560.00 FT VKA× N HIN HAX PLOT TYPE = VITRINITE SPL TYPE = PD VITRINITE 75 58 0.69 1.39 SPLT N MAX HIN RANG HEAN CONF STDV LOM CAVED VITRIN 0 2 0.63 0.74 58 1.39 0.69 0.70 1.01 ±0.036 0.12 10.85 HASSIVE KERO 25 0 A 55 1.24 0.80 0.44 1.00 ±0.030 0.10 10.82 0 1.8 2.0 KC AKA-S-3255-- SH DK BR TO BLK COALY NAKNEK/U. JURASSIC~'~ 2LP041585V008 VITAL VERSION 1.22 V04098300! ~" PLDT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. soa61aO°OlOO' NO /~a i. l '..i~ tal ' · 0.0 0,2 0,4 0,6 0,8 1,0 CHEVRON PERCENT REFLECTANCE KONIAG' 1 AKA LOCATION 2 388 49W TOP 04640.00 80T 04680.00 FT PLOT TYPE = VITRINITE SPL TYPE = PD SPLT N MAX MIN RANG MEAN CONF STDV LOM 54' 1,44 0.80 0.64 1.08 ±0.043 0.14 11.0~ A 46 1.37 0.~2 0.45 1.10 ±0.035 O.1l 11.24 KC AKA-S-3256-- SH SILIC M TO DK GY MACERAL SUMMARY VKAZ N MIN MAX VKAZ N MIN MAX VITRINITE ~3 54 0,80 1,44 MASSIVE KERO 5 0 FUSINITE ! 2 2,35 3,45 SEMIFUSINITE 1 2 1,44 2,16 COKED VITRIN 0 1 5,68 5,68 COKEDoUNDIFF <1 0 NAKNEK/U, JURASSICv~ 2LPO41585VO0~ VITAL VERSION 1',22 .0 1.2 1.4 1.6 1.8 2,0 V0409~4001', PLOT TYPE = VlTRINITE , ! ' ! I " - ! 0.0 0.2 0.4 CHEVRON KONIAG AKA LOCATION 2 38S 49W PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT il', PERCENT REFLECTANCE , , 1.4 1.6 HACERAL SUHHARY VKAZ N HIN HAX VITRINITE 98 40 0.80 1.45 SEMIFUSINITE 2 3 1.57 1.89 TOP 05040.00 BOT 05080.00 FT SPL TYPE = PD SPLT N HAX HIN RANG HEAN CONF STDV LOH 40 1.45 0.80 0.65 1.14 ±0.066 0.19 11.36 -. A 33, 1.45 0.98 0.47 1.20 ±0.053 0.15 11.51 ID.NO. 502612000100 · NO ':: 22 ':.. ,21 · ' i.:" 20 .18- ' ,, .',:;, f' "J CP AKA-S-3257-- SH H TO DK GY NAKNEK/U..JURRASSIC 2LPO41685VO01 VITAL VERSION .7 0 2.0 1.22 VO40D85001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 .22 .21 " 18: · : · ,1·7 ,15 4 · 2 . 0 , ' :. ~ .., . , ..'. , ... 0.0 0.2 0.4 CHEVRON KONIAG 1 AKA LOCATION 2 388 49W PLOT TYPE = VITRINITE SPLT N MAX MIN RANG MEAN 60 1.61 0.94 0.67 1.30 A 52 1.61 1.13 0.48 1.34 KC. 0.6 0.8 1.0 1 .2 PERCENT REFLECTANCE TOP 05040.00 BOT 05100.00 FT VKAZ N SPL TYPE = UD VITRINITE 73 60 CONF STDV LOH BITUMEN, SHC <1 2 · 0.042 0.15 11.80 FUSINITE i 2 ±0.032 0.11 11.88 SEMIFUSINITE 1 3 CAVED VITRIN 0 1 NAKNEK/U. JURA$SICv~v 1 .4 1 .6 1 .8 HACERAL SUMMARY MIN MAX 0.94 1.61 0.68 0.63 2.47 4.00 1.70 1.93 0.76 0.76 2LPO41685VO02 VKAZ N MIN MASSIVE KERO 25 0 VITAL VERSION .0 MAX 1 . 22 VO40986001 0.0 CHEVRON KONIAG PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT t I I " I I I I 0.2 0.4 0,6 0.8 ID.NO. 502612000100 NO AKA LOCATION 2 38S 49W TOP 05440.00 BOT 05480.00 FT PLOT TYPE = VITRINITE SPL TYPE = PD SPLT N MAX MIN RANG MEAN CONF STDV LOM 20 1.57 0.93 0.64 1.22 ±0.079 0.16 11.57 A 16 1.46 1.06 0.40 1.25 ±0.061 0.11 11.65 1 .4 1 ,6 PERCENT REFLECTANCE MACERAL SUMMARY VKAX N MIN MAX VITRINITE 97 20 0.93 1.57 BITUMEN, SHC 1 S 0.77 1.00 FUSINITE 1 3 3.05 4.42 SEMIFUSINITE 1 1 2.44 2.44 I t I 1.8 10 0 CP' AKA-S-B258-- SH DK GY TO BLK NAKNEK/U. JURASSICv~ 2LPO41685VO03 VITAL VERSION 1.22 V040987001 PLOT TYPE = V]TR]NITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 NO. 22 0.0 0.2 0.4 0.6 0.8 1.0 '1.2 1.4 1.6 CHEVRON PERCENT REFLECTANCE KONIAG 1 MACERAL SUMMARY AKA LOCATION 2 38S 49W TOP 05440.00 BOT 05480.00 FT VKA× N MIN MAX PLOT TYPE = vITRINITE SPL TYPE = PD VITRINITE <1 1 1.36 1.36 N MAX MIN RANG MEAN CONF STDV LOM BITUMEN, SHC <1 2 0.83 1.02 1 1.36 1.36 0.00 1.36 ±0.000 0.00 11.92 COKED SHC 99 2S 1.3S 3.43 . RM -- VEIN CALCITE W/SHC NAKNEK/U. JURASSIC~,~,~,.,...i.,.;' 2LPO4168SVO04 -.. 1.8 .21 19 18 17 16 15 14 ,13 .10 .9 .8 7 ,5 .4 .3 ,,,. 2 .1 .0 2.0 VITAL VERSION 1.22 V04098700! PLOT TYPE = COKED SHC SHELL DEVELOPMENT REFLECTANCE PLOT I D. NO . 5026120001 O0 NO 22 .0 I .2 1 .4 1 .6 I .8 2.0 CHEVRON KONIAG 1 AKA LOCATION 2 38S 49W PLOT TYPE = COKED SHC N MAX MIN RANG MEAN CONF STDV 25 3.43 1.35 2.08 2.18 ±0.278 0.66 2.2 2.4 2,6 2.8 PERCENT REFLECTANCE TOP 0S440.00 BOT 0S480.00 FT SPL TYPE = PD 3.2 3.4 MACERAL SUMMARY VKA× N MIN MAX COKED SHC 99 25 1.35 3.43 BITUMEN, SHC <1 2 0.83 1.02 VITRINITE <1 1 1.36 1.36 I I I 3.6 3.8 .21 ' ' .20 ' , 18 17 ., 16 ~,'' 15 .1,4 · 11 .8 ,7 S .4 ,. ., 2 4.0 RM VEIN CALCITE W/SHC NAKNEK/U. JURASSIC~ 2LPO4168SVO04 VITAL VERSION 1.22 VO4ODeeO0! PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ,. · .'.,. ,~, '4'! .r,: , · ,. . , · ,, 0.0 CHEVRON 0.2 0.4 0.6 0.8 1 .0 1 .2 1 .4 1 .6; 1 .8 PERCENT REFLECTANCE · ',: :r..... ID.NO. 502612000100 NO ., · 11 10 ' · · , .. , · ,7 .6; :. ,, ., · ,1 .0 2.0 KONIAG 1 AKA LOCATION 2 38S 49W TOP 05440.00 BOT 05520.00 FT PLOT TYPE = VITRINITE SPL TYPE = UD SPLT N MAX MIN RANG MEAN CONF STDV LOM 53 1.79 1.15 0.6;4 1.SO ±0.047 0.16; 12.23 A 44 1.79 1.32 0.47 1.55 ±0.036; 0.12 12.34 KC' MACERAL SUMMARY VKA× N MIN MAX VKAZ N MIN MAX VITRINITE 41 53 1.15 1.79 MASSIVE KERO 15 0 BITUMEN, SHC 40 35 0.90 1.45 COKED SHC <1 2 2.14 2.46 FUSINITE 2 5 3.11 3.56 SEMIFUSINITE 2 4 1.88 2.47 NAKNEK/U. JURASSICv~ 2LPO41685VOOS VITAL VERSION 1.22 vo4ogsgo01 PLOT TYPE : VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 0.5 0.7 0.9 1.1 1 .3 CHEVRON PERCENT REFLECTANCE KONIAG 1 AKA LOCATION 2 385 49W TOP 05960.00 BOT 06000.00 FT PLOT TYPE : VITRINITE SPL TYPE : PD SPLT N MAX MIN RANG MEAN CONF STDV LOM 37 2.11 1.26 0.85 1.67 ±0.070 0.20 12.63 A 33 2.00 1.42 0.58 1.69 ±0.058 0.16 12.69 KC ' AKA-S-3259-- SH DK GY TO BLK · .7 $15 14 13 12' 11 10 ,9 .7 ,5 · ?~. .. 22. . :' .21 · .20 ,17 . · · , · , · .4 2.3 MIN MAX VITAL VERSION 1.22 MACERAL SUMMARY VKAZ N HIN MAX VKAZ N VITRINITE 3 37 1.26 2.11 MICRIN. KERO 89 0 BITUMEN, SHC S 39 0.64 1.90 COKED SHC <1 8 1.73 2.74 FUSINITE 2 S 2.55 5.42 SEMIFUSINITE <1 4 2.09 2.52 NAKNEK/U. JURASSIC~ 2LPO41685VO06 V040~90001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 NO .22 '~ r O.S 0.7 CHEVRON KONIAG AKA LOCATION 'N 8 0.9 1,1 1.3 .5 1.7 PERCENT REFLECTANCE 2 385 49W TOP 05960.00 BOT 06000.00 FT PLOT TYPE = VITRINITE SPL TYPE = PD MAX MIN RANG MEAN CONF STDV LOM 1.94 1--.04 0.90 1.53 ~0.252 0.28 12.29 I I I I 2.1 2.3 MACERAL SUMMARY VKAZ N MIN MAX VITRINITE 1 8 1.04 1.94 BITUMEN, SHC 1 3 1.18 1.43 MICRIN. KERO 98 0 : .21 ~18 ., , .17 .15 13 ' ":: 12 "' 11 10 8 " .7 .~; .5 .4 .2 · , 1 0 2.5 CP AKA-S-B259-- SH DK GY TO BLK NAKNEK/U. JURASSIC~ 2LPO41685VO07 VITAL VERSION 1.22 VO409gO00! PLOT TYPE = BITUMEN, SHC SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 'l I I I i '' I ' 0.7 0.9 CHEVRON KONIAG 1 AKA LOCATION 2 38S 49W PLOT TYPE = BITUMEN, SHC N 3 1.1. 1.3 1.S PERCENT REFLECTANCE TOP 05960.00 BOT 06000.00 FT SPL TYPE = PD MAX MIN RANG MEAN CONF STDV LOM 1.43 1.18 0.25 1.29 ±0.315 0.10: / . 1.7 1.9 2.1 2.3 MACERAL SUMMARY VKAZ N MIN MAX BITUMEN, SHC 1 3 1.18 1.43 VITRINITE 1 8 1.04 1.94 MICRIN. KERO 98 0 .21 ' 19 ' '-~ 18 ,. .17 16' 15 .. .14 .13 11 10 .8 ? 6 .5 .4 .::> 1 0 CP AKA-S-3259-- SH DK GY TO BLK NAKNEK/U. JURASSIC~ 2LPO4168SVO07 VITAL VERSION 1.22 V040991001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID. NO. 502612000100 ,. NO 22 I .... : : ' i I i 0,5 0.7 0.9 CHEVRON KONIAG 1 AKA LOCATION 2 38S 49W PLOT TYPE = VITRINITE 1.1 1.3 2.1 2.3 1 .7 1.9 PERCENT REFLECTANCE TOP 06440,00 BOT 06480.00 FT SPL TYPE = PD MACERAL SUMMARY VKAZ N MIN MAX VITRINITE '. 17 16 15 : ,13 .11 10 .8 .7 .6 SPLT N MAX MIN RANG MEAN CONF STDV LOM BITUMEN, SHC 4 33 0.56 2.40 1S 2.22 1.41 0.81 1.74 ±0.133 0.23 12.8S COKED SHC 1 S 2.29 4.57 A 14 1.97 1.41 0.56 1.70 ±0.119 0.20 12.74 FUSINITE <1 I 3.50 3.50 SEMIFUSINITE <1 1 2.77 2.77 CP AKA-S-3260-- SH DK GY TO BLK MIDDLE JURASSIC ~v 2LPO4168SVO08 VKA× N MIN MAX <1 1S 1.41 2.22 MICRIN. KERO 94 0 VITAL VERSION 1.22 .5 4 vO4'O'~aoo 1 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECT. ANCE PLOT ID.NO. 502612000100 NO 22 ! I I ! I 0.5 0.7 0.9 CHEVRON KONIAG 1 AKA LOCATION 2 385 49W PLOT TYPE = VITRINITE I i ' ' I 1 .S 1 .7 PERCENT REFLECTANCE TOP 06440.00 BOT 06520.00 FT SPL TYPE = UD SPLT N MAX MIN RANG MEAN CONF STDV LOM 43 2,25 1,40 0,85 1,76 ±0,059 0,19 12,93 A 40 2,03 1,50 0,53 1,74 ±0,054 0,15 12,87 HACERAL SUMMARY VKAZ N MIN MAX VlTRINITE 10 43 1.40 2.25 MICRIN. KERO S4 0 BITUMEN, SHC 30 S2 O.S1 2.21 COKED SHC S 16 2.02 2.74 FUSINITE 1 4 3.43 4.52 SEMIFUSINITE <1 2 2.56 2.82 MIDDLE JURASSIC ~ 2LPO41685VO09 VITAL VERSION VKA× N MIN MAX 1.22 ,20 17 16 · 15 14 ~12 · 4 · 1 0 2.5 VQ4ODD200! PLOT TYPE.= COKED SHC SHELL DEVELOPMEN'? REFLECTANCE PLOT / ID.NO. 502612000100 NO 22 ' I I ' ' I " I ' t I ' I · I 1.0 1.2 1.4 1 .~ 1.8 CHEVRON KONIAG 1 2.0 PERCENT REFLECTANCE AKA LOCATION 2 38S 4RW TOP 06440.00 BOT 06520.00 FT PLOT TYPE = COKED SHC SPL TYPE = UD N MAX MIN RANG MEAN CONF STDV 16 2,74 2,02 0,72 2,37 ±0,125 0,23 MIDDLE JURASSIC 2.6 2.8 .21 ' 20 19 18 17 .15 14 '- 13 12 11 10 9 · 8 .7 .5 4 .2 1 0 3 0 MACERAL SUMMARY VKAZ N MIN MAX VKA× N MIN MAX COKED SHC S 16 2.02 2,74 MICRIN, KERO 54 0 BITUMEN, SHC 30 52 O.S1 2.21 FUSINITE 1 4 3.43 4.52 SEMIFUSINITE <1 2 2.56 2.82 VITRINITE 10 43 1.40 2.25 2LPO41685VO09 VITAL VERSION 1.22 V040993001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT ID.NO. 502612000100 i I "1 I I I I I I I I 0.5 0.7 0.9 1.1 1.3 1.5 CHEVRON PERCENT REFLECTANCE KONIAG 1 AKA LOCATION 2 38S 49W TOP 06760.00 BOT 06800.00 FT PLOT TYPE = VITRINITE SPL TYPE = PD VITRINITE N MAX MIN RANG MEAN CONF STDV LOM 4 1.94 1.76 0.18 1.84 ±0.153 0,08 13.24 1 .7 1.9 I I ! I MACERAL SUMMARY VKA× N MIN MAX 1 4 1.76 1.94 BITUMEN, SHC S 32 0.51 2.09 SEMIFUSINITE <1 1 2.56 2.56 MICRIN. KERO 94 0 CP AKA-S-3261 -- SH BLK MIDDLE JURASSIC 2LPO4178SVO01 VITAL VERSION 1.22 NO 18 : 15 14 ' 13 12 11 10 · .7 .2 1 0 2.5 V040994001 PLOT TYPE = VITRINITE SHELL DEVELOPMENT REFLECTANCE PLOT . ID.NO. 502612000100 NO ,22 20.. ' I I O.5 0.7 CHEVRON KONIAG AKA LOCATION KC I I ' I I I " I '1 ' I' I 0.9 1.1 1.3 1.5 PERCENT REFLECTANCE 1 2 38S 49W TOP 07000.00 BOT 07080.00 FT PLOT TYPE = VITRINITE SPL TYPE = UD MAX MIN RANG MEAN CONF STDV LOM 2.44 1.80 0.64 2.06 ±0.279 0.24 14.22 I i I, ' 1.7 1.9 2.1 2.3 MACERAL SUMMARY VKA× N MIN MAX VKAZ N MIN MAX VITRINITE <1 6 1.80 2.44 MICRIN. KERO 74 0 BITUMEN, SHC 10 56 0.68 2.37 COKED SHC 15 33 1.90 3.68 FUSINITE <1 2 3.55 4.09 SEMIFUSINITE <1 3 2.51 2.90 MIDDLE JURASSIC v~ '19 18 I7 16 1S ,12 ,11 .10 ~8 .7 .6 ,4 .2 1 0 2LPO41785VO02 VITAL VERSION 1.22 V04099500! PLOT TYPE = COKED SHC ' SHELL DEVELOPMENT REFLECTANCE PLOT ,, ~ ID.NO. 502612000100 1.5 1.7 1.9 2.1 2.~ 2.5 2.7 2.9 3.1 CHEVRON PERCENT REFLECTANCE KONIAG 1 MACERAL SUMMARY AKA LOCATION 2 38S 49W TOP 07040.00 BOT 07080.00 FT VKA× N MIN MAX PLOT TYPE : COKED SHC SPL TYPE : PD COKED SHC 2 2 2.03 2.06 N MAX MIN RANG MEAN CONF STDV BITUMEN, SHC S 44 0.S9 2.11 2 2.06 2.03 0.03 2.04 ±0.19! 0.01 SEMIFUSINITE <! 1 2.48 2.48 MICRIN. KERO 93 0 0 3.3 3.5 CP AKA-S-3;::)6;:)- - SH BLK MIDDLE JURASSIC mmm 2LPO41785VO03 VITAL VERSION 1.22 · PLOT TYPE = BITUMEN, SHC SHELL DEVELOPI~IENT REFLECTANCE PLOT ]D.NO. 502612000100 , ,. CHEYRON KON] AG - PERCENT REFLECTANCE AKA. LOCATION 2 . 38S 491 TOP 0-7040.00 BOT 07080.00 FT PLOT TYPE = BITUMEN, SHC SPL TYPE = PD SPLT N MAX M]N RANG MEAN CONF STDV ,..:--. 44 2.11 0.59 1.52 ].30 ~0.131 0.42 ~- A 19 2.11 1.44 0.67 ].72 ~0,086 0.17 B 18 1.18 0.73 0.45 0.95 ~0.071 0.14 CP AKA-S-3262-- SH BLK MIDDLE dURASSIC 1.7 1.9 2.1 MACERAL SUMMARY VEAZ N MIN MAX BITUMEN, SHC 5 44 0.5~ 2.11 COKED SHC 2 2 2.03 2.06 SEMIFUSINITE <1 1 2.48 2.48 MICRIN. KERO 93 0 2LPO41785VO03 ,19:~' $8 · · .,. · . ~'?;' '" 16" · 15.. · 14 · Il · . .., lO':.. · . ; '" ~.~:,.i.'-.": · , ..i .:. :......., ..;. - ., {:. '~.~}, VITAL VERSION- March 14, 1985 Shell Oil Company Q P.O. Box 481 Houston, Texas 77001 Mr. Michael T. Minder Alaska Oil and Gas Conservation Commission 3001 Porcupine Dr. Anchorage, Alaska 99501-3192 Dear Mr. Minder' SUBJECT' PALYNOLOGICAL MACERATIONS AND MOUNTED SLIDES OF CHEVRON-KONIAG #1 Further to our telephone conversations regarding subject, I appreciate very much the extension to March 15th for filing materials with you. In accor- dance with policy Shell has retained nothing. I am asking Shell's Shipping Department to forward to you fastest way this date macerated residues and mounted slides per the attached manifest. As we discussed on the phone it is my opinion that many of these samples, particularly the cores and the deeper ditch, are not worth looking at.. I believe it is in violation of no one's confidence that we share with your office the observations that are made in the right hand column of the slide list. I do this in order to explain the wider sampling interval, which we talked about, below 5560 feet, and in the hope that we might save some time for your visitors. Additionally, please find enclosed photographs which you requested. These photographs accurately represent our experience but are not necessarily made from the permanent mounts sent to you. We use wet mounts for most of our work so things can be moved about. In keeping with the policy of not retaining material, the wet slides are destroyed after examination. Regarding cores (2316-2358 feet) note the following: Our examination of the sample at 2316 feet revealed only questionable fragments (Pl. I, Fig. 1). Typical smaller macerals from six feet deeper are shown in Pl. I, Fig. 2. At 2336-2337 feet representative macerals are shown on Pl. I, Fig. 3 and these are mixed with a few spores. Unfortunately, all of these spores are preserved like those shown in Pl. I, Fig. 4, and are useless for palyno- stratigraphic work. The sample at 2343-2345 generally looks like Pl. II, Fig. 7. Two spores were observed on an entire wet slide, and these are illustrated on Pl. II, Figs. 5 and 6. The sample at 2356-2358 is no better (Pl. II, Fig. 8). The maceration of a deeper core at 5105-5106 feet looks like Pl. III, Fig. 9 and contained no palynomorphs. Mr. Michael T. Minder Our deepest core materials at 5995, 6000, and 6009 contained nothing of any palynomorphic significance, although the verrucate blob near the center of Figure 11 may once have been a spore (Pl. III, Figs. 10, 11 and 12). The majority of the ditch samples were not much better (Pl. IV, Figs. 13- 16). Fine grained structureless organic material (Fig. 13) was easily filtered out to permit Figure 14, but no palynomorphs were seen. Shallower ditch may yield fossils, but nearly all of them are either destroyed through contact with minerals (Fig. 15) or arrive too poorly preserved for meaningful use (Fig. 16). For- T. D. Cook, Manager Stratigraphic Services CLT-tat Enclosures' (1) List of slides and residues shipped (4) Plates of photographs i ? ye-: y~-~ Yh-,$ L 3~~o~o "~3~0~ ~ ~¢oo ~ ..,~,,¢~-!~720 ._.j ~o '~000 · . .o /~=/ /~ 7-~, n7~ Z)17'-£t/. T~V?I£ML ?~E.E- :f ~!~ _,9 Co~E- 51L~5-d' P ~c-/~. // COPE' d oo9' COIf'F- FI~. q CO~E 23~-45 MACEA~t~L ~ /hz 2:~ O~._/--Z F/G.~ /-:?ICA~