PNC-TN8410-96-203:5.58MB
Contents
1. pH Na HCO Si0 BRIER PNC TN8410 96 203 lt2. RE Wikberg 1987 Bh Laaksoharju et al 1993 15 KG 1 Ar 6 Bh 350mV Laaksoharju
3. 3 C0 S0 C PS C S 4 pH 9 Na HCO Si0 1992
4. 2 K 9 KG 1 40 KH 1 1 T U KH 1 40 PNC TN8410 96 203 2 2 Gy 2 5O 10 Craig 1961 tO 1 Ok 2 38 gt 2 1 I HH 9 5 oO 7 O
5. 1992 4 pH 1992 pH p Na Ca Si0 Nat Ca Sid pH gt 9 Na Ca HCO Si0 EQ3 6 b
6. MPN Most Probale Number Thiobacillus ferrooxidans MPN I PNC TN8410 96 203 2 1 5 5 1 5 3 KH 1 KG 1 KG6 1 KR 6 Bh
7. 2 6 1 3 S 1 4 5 785m S 1 815m 5 2 650m S 3 588m 5 4 800m aie EzI 1 SEA WELLA EER 602 96 017881 ONd S x 4 4 a y 5 lt gt g Swa z s gt Was al Ee CIT ho Seren wae lt Ke WEN R Se NS lt 670 A Pg 4 A La The SENT gt s
8. 20 341 346 1979 1 32 11 22 1991 KOA 1994 JIS K 0122 1981 Nordstrom D K et al Geochemical thermodynamics 2nd ed Blackwell 493p 1994 SHRMw250 151517 4ANBRHOPSRYRA TN7410 93 032 1993 Proceedings of the 2nd Symposium on Geo Environments 157 162 1992 Stumm W et al Aquatic chemistry 2nd ed Wiley 780p 1981 Wikberg P The chemistry of deep groundwaters in crystalline rock Ph D The Royal Institute of Technology Stockholm 1987 Wolery EQ3NR a computer program for geochemical aqueous speciation solubility calculations user s guide and documentation Lawrence Livermore Laboraiory UCRL MA 110662 PT I 66p 1983 Wolery J 1996 1983
9. EQ3 6 Wolery 1983 Na Ca HCO Si0 SI Saturation I ndex EQ3 6 5 1 5 3 5 250m 550m EQ3 6 EQ3 6 DATA0 3245R54 19 2112 03 6 SI pH SI
10. Bh pH Bh 16 Jorgensen et al 1980 16 HH ME KG 1 3 3743m
11. Ca HCO Na ARG pH gt 9 Na Ca RCO Si0 PNC TN8410 96 203 5 1 KH 1 C CER R C KH 1 9D 9 00 2 Ca HCO Na HC 0
12. 4 Mg 1 Si A1 0 OH Si 5 6 1983 Si 5 6 6 2 5 sericite illite B PNC TN8410 96 203 NaAlSisOs is Nat Al 3510 aao 2H 0 s HC H 510 e 2H 0 Si OH ao 3 3 2
13. EC 20 5 gt 130 u 5 25ppn 100ppn pH pH 5 3 7 4 pH 10 5 Si0 Si0 10ppm gt 27ppm HE Nat 3ppm gt 20ppm 5508 BES 250081 Ca 550mL C0 250m Ca 50 KG 1 KG 1 Ca HCO Na HCO
14. ROKK TOC IC TOC 1C 1979 EDTA pH 9 320nm 500nm 420nm 10 3 _ 3
15. PNC TN8410 92 166 1992
16. Ne He He TCD CO FID CO CO H CH CH FID e CO IC 5 4 Ar 2 C PNC TN8410 96 203 AODC
17. 3 KH 1 R 3 HKP 22 pH UC 23 KG 1 MOSDAX Ar 200cc HGP 10 1 2 4 MOSDAX
18. pH gt 9 0 37 SI 0 37 Si0 NaA1Sis0 CaC0 CazAl Si 0 OH 2 Ca EQ3 6 t FKE L TRATE oi 4 19 Cs Ca Ca Na Ca HCO Si0
19. 2 21 5 3 6 7 CODD gt 0 1 1 1 1 N 5 52 52 54 54 53 52 F2 16 17 3 22 KG 1 23 Stumm et al 1981 43 2 1 50 000 3 1 25 000 4 550m 1 5 000 5 250m 1 5 000 6 KH 1 KG 1 ee 24 9D 9 90
20. Na HCO Na Ca NaAlSis0s cs 4 5H 0 gt Nat 0 5 1 51 0 is 251 004 ao 7 CaAlzSiz0 2 H H 0 1 51 05 0 s 7 4 D pH H 7 Stumm et al 1981 Log at 25 1 atm 1 Na feldspar s H 44H O kaolinite s 2H SiO
21. 1994 gt 0 3 0meq 1 0 2meq 1 7 HC0 20ppm gt 0 2meq 1 2 KG6 1 KG 1 3 37 43m KG 1 4 1m ld N CO lt 0 4 mg 1 3 KG 1 KG 1 2 289 295m KG 1 3 37 43m PNC TN8410 96 203 5 1 1 8 18 g g alal i mn 8 8 8 lt HEE 4720 1
22. Th 1991 Na HCO 2 2 Ca HCO Na HCO 53 PNC TN8410 96 203 Na ppm Ca ppm HCO3 CO3 ppm 30 Ca HCO3 20 Na HCO3 25 15 5 55 6 65 7 75 8 85 9 95 10 105 11 15 Ca HCO3 Na HCO3 10 Ca HCO3 Na HCO3 5 5 5 6 65 7 75 8 85 9 95 10 105 11 22 pH Na Ca log IAP Ksp SI Saturation Index SI gt 0 37 0 37 lt SI lt 0 37 SI SI lt 0 37 pH Sl gt 0 37 CaCO3 H Car HCO3 Ca HCO3 0 37 lt SI lt 0 37 CaCO3 a Ca HCO3 Ca HCO3
23. ne KG 1 2 pH 9 97 O Eh Fukunaga et al 1995 Fukunaga et al 1995 pH 17 35C PNC TN8410 96 203 1 2 2 pH HCO Si0 Na Peat Na Ca DON Ca Na Ca HC0 Si0
24. Fe 1 10 510nm S0 FE TOC IC TOC 1C bikes buz k uv cC 5 TN8410 96 203 0 3 jk HBB KH FL kok D tO 0 1 C 0 01 Pt 5mV 2 3 AAS 1 AAS 6 ICP AES 5 8 ICP AES 0 4 2 3 ICP AES 1 5 3 5 ICP AES 2 10 2 10 ICP AES 1 3 2 8 1 3 0 7 2 7 yy yay AAS Atomic Adsorption Spectroscopy ICP AES Inductively Coupled Plasma
25. aCa aCOs water gt aCOs eauitibrium IAP Ksp gt 1 log IAP Ksp gt 0 SI 81 1 5 SI SI 19 E3 6 1 606 96 01 8 JNd SI SI 1 3 2 5 06 2 1 5 1 ja 55 amp 0 0 5 1 75 8 85 9 95 10 10 5 25 SI 75 8 85 9 95 10 10 5 1 20 EQ3 6 SERMON MAMBRMARGR 2 605 96 017831 ONd PNC TN8410 96 203 IS IS are 9 95 10 10 5 8 5 7 5 9 95 10 10 5 8 5 IS ORY 15 9 95 10 10 5 8 5 7 5 10 5 10 9 5 3 pH EQ3 6 a t 21 PNC TN8410 96 203 0 7 water lt 0 J IAP Ksp lt 1 log IAP Ksp lt 0
26. BQ3 6 40 KH 1 KH 1 Ca HCO Na HCO RNa HCO AME pH9 pH Nat HCO Si0 1
27. KH 1 KH 1 Na K Mg T Fe Si 50 F TOC Total Organic Carbon IC Inorganic Carbon TOC IC IC pH HCO C0 IC HC0 C0 HCO0 CO0 PREBELL pH KG6 1 KH 1 Li Sr Mn 7 25 0 5 NOs NO NH t 3 6 OOD H 3
28. NaAIlSi 0 pH 8 10 pH gt 9 5 1 BQ3 6 Wolery 1983 AHRJ Thermodynamic Affinities 0 50 BQ3 6 DATA0 3245R54 unncertainty Wolery Wolery 2 303RT1og IAP Ksp 2 303RTXSI R 1 987 X10 kcal K T 298 K 5 SI 0 37 TN8410 96 203 CaAl Si 0 8 10 CaCO pH lt 8 5
29. Ar KG 1 MOSDAX HGP 10 Hydro Geochemical and Piezometric logger system for 1000m deep borehole HGP 10 HGP 10 Ar KG 1 KG 1 lt KG 1 5 SB 1152
30. 04 10 EC 20 5 gt 130 S cm 10 25mg 1 100mg 1 BE pH 11 pH pH 5 3 7 4 pH 10 5 Sid 11 510 Si0 10ppm 27ppm 12 Nat 3 ppm gt 20ppm 0a 12 550m Ca 250 Ca 0 7 C0 0 13 550m HCO C0 7 250m
31. 2 PNC TN8410 96 203 October 1996 Geochemical Investigation of Groundwater in the Kamaishi In Situ Tests Site Japan Part 1 Hiroshi SASAMOTO Toshihiro SEO Mikazu YUI Yasuo SASAKI ABSTRACT Kamaishi In Situ tests have been carried out in the Kurihashi granodiorite Geochemical data of groundwater which have been collected from March 1989 to March 1995 were compiled in order to understand geochemical characteristics in the Kurihashi granodiorite and in order to identify their dependencies on depth Preliminary consideration of groundwater evolution in the Kurihashi granodiorite have been also performed by thermodynamic calculation by using geochemical code EQ3 6 The results were summarised as follows The grondwater in the Kurihashi granodiorite is meteoric origin The age of most of the groundwaters may be less than 40 years however the older groundwater which have been recharged more 40 years may be exist in the KH 1 borehole The groundwater type changes from Ca HCO to Na HCO with depth The change of groundwater type with depth may be interpreted by calcite precipitation and ion exchange reaction of zeolite The results of thermodynamic calculation of the groundwaier indicate that ionic concentration Na Ca HCO and SiO concentration of the groundwater over pH9
32. 3 3 3 pH pH pH 9 10 pH HCO gt CaC0s H Ca HCO0 Ca HC0 Na HC0 Gascoyne 1908 1992 O Na HCO
33. Ag AgC1 ORP 1981 10 15 lar aus oe ee ee eee eto mee Bh mV 0 6X 223 ORP mV 25C 1960 0 022 uS cm EC EC 0 022 x 25 EC 25C EC 1 5 1 5 3 2 Nat K Ca Mg Cl 50 7 HCO 7 C17 50 7 HCO td 3 0m eq 1
34. pH 8 10 RAORAO 1983 CazAl Si 0 0H CazAl 51 0 0 epidote pH 8 10 TN8410 96 203 REG clinochlore 14a 5 1 81 30 pH 8 10 SMASH 2 pH 9 5 0 1 51 0 1 08 4 pH 8 10 MER Ko sMgo esAle Si 010 08 pH 8 10 pH pH 10 9 CazAl Si0 0BD pH 8 5 pH gt 8 5
35. 40 p gt 9 Na HCO Si0 Na HC0 Si0 PNC TN8410 96 203 4 2 3 2 Ca HCO Na HC0O pH pH pH Ca HCO Na HCO
36. Ar Na Ca pH 2 1 3 KG 1 1 KH 1 pH Eh 4 KG 1 DO 5 PNC TN8410 96 203 2
37. Nordstrom et al 1994 SI SI 1og IAP Ksp IAP Ion Activity Product Ksp Solubility Product CaCO Ca CO Ksp Ksp 0377 eaviiibrium Z aCalOs pure aCaCO 1 Ca CO0 IAP IAP 0 7 we IAP Ksp 003 water aCa a 0 equilibrium 00 water aCOs cauitivrium IAP Ksp 1 log IAP Ksp 0
38. 3 250m 258m 5 250m W 1 HED OPER 600m 250m W 1 19 19 W 1 W16 W17 TK 24 6 TK 21 118925001 4 KH 1 UL 575m KG 1 784m 6 KH 1 550m 500m 2 CORA AL ISKH 1 1 5 5 KH 1 1 474 573m KH 1 2 339 473m KH 1 3 238 338m KH 1 4 164 237 KH 1 5 75 163m KG 1 800m CTH So KG 1FL CORA ALIA ILKG 1 1 4 4 KG 1 1 558 562m KG 1 2 289 295m KG 1 3 37 48m KG 1 4 7 1m
39. 29 30 92 pH Si0 99 Na t Catt 94 95 rreren 37 pH Eh Laaksoharju et al 1993 39 Jorgensen 1980 39 35C Fukunaga et al 1995 41 PNC TN8410 96 203 1 18 44 4 19 EQ3 6 1 46 20 BQ3 6 2 47 21 BQ3 6 3
40. I ne TOC IC HCO3 CO3 pH ORP Au 2 KG 1 HGP 10 1 Location TEARS KH 1 1 95 20 1 20 2 94 14 11 HA TSH FAROE G Z Packer BRAK KH 1 MP55 HGP 10 MP HGP 19 4 Sampling method Normal MPS55 MOSDAX MP MOSDAX PNC TN8410 96 203 RO KG 1 ss ss sz ss s
41. pH gt 8 5 KA1Si 0 pH 8 10 EER KMg Si Al 0 0B 8 10 pH So PH 9 5 AHA CaAl Si 0 4H 0 pH 8 10 pH RRO CazAl 51 0 09 pH 8 10 2 3 4 1983 K2Mgs SisAl 020 OH KsFe Si Ai 0 09 KMgsA1 SiAl 0 OB KsFesAl SisAls 020 OH
42. 1983 1 8 8D 6 0 9D 89 O 10 Craig 1961 8 D 9 0 1985 MHOSD 86 O 26 9D 896 0 10 025 40 100 30Km 8 D O 6D 89 O 13 59 1936 1985 8 KH 1 68 D 75 80 5 0 11 12 60 66 9 0 9 10 D 715 OCH 2 6 KH 1
43. Si0 BOR Si0 Si0 2 Na Ca Na Ca Stumm et al 1981 7 18 Ca HCO Na HCO Ca HCO
44. X TK 24 TK 21 KH 1 1 TK 24 1976 250m 30 301 0m 1976 FRO GR RES BER RRA 2
45. SI lt 0 37 CaCO3 H gt HCO3 Car HCO3 23 EQ3 6 502 96 017881 ONd PNC TN8410 96 203 4 1 7 6 Like Ek KG 1 40 KH 1
46. 6 KG 1 2 289 295m 6 KG 1 2 KG 1 3 Bh 350mV KG 1 2 PNC TN8410 96 203 2 CO2 O2 CO2 re pH 7 7 Eh 200mV On Line pH 8 9 Eh 290mV In Situ Eh 300mV 15 pH Eh Laaksoharju et al 1993 600m CO2 CHO2 8 k ka Ka a T a ss a a T 604 H2S e 10 3 Y 02 Ea 2H2O 10E 2 NO3
47. 4 KG 1 0 Ne He 7 5 KG 1 MSMR 2 1 4 1 KH 1 200cc PNC TN8410 96 203 20 41 7 25001 ALADEKS 6 215 243 6 TK 21
48. 14 10 lt 0 Pochor MPSS HGP 10 0110900496 _60 189 01 495 01 74001 1 1 900425 KH 1 1 901028 It 2 901026 1 1 3 920208 102 285 736 1 4904023 338 2241008 201 _ IOt1 6 901028 0 1 2 021211 0 14 950121 95 1 2 TK24 KH t 6 010728 1 6 940208 11019728 ET 30 sion 001 4 910726 330224104 1 4 940208 3382241094 200 PNC TN8410 96 203 5 2 2 3 5 5 5 3 8 9 8 2 sis 58 g slsls lelsisisisielsis it T m TL 3 i i lt 0 01 son oo Ot lt __ lt 0 lt 0t lt son lt o _ lt 00 lt 01 ot lt aot lt G1 lt o lt 01 lt G 1 lt o lt o ot lt lt 00 _ lt G1 lt o lt Q ar lt 0 _ lt ol _ lt o lt o lt o or lt Q0 _ lt o lt o lt o 2 lt o lt 0 0 lt 01 xc SO lt Qt lt o lt 09 _ lt 0 1 _ 501 es lt 9 lt ot lt o Sat 601 _ lt 00 lt 01 00
49. A g 8 e 3 9 a 8 8D 5180 4 1990 550mL NW 12 1988 550mL 3 1989 KH 1 5 1990 KG 1 4 1992 1994 250mL 9 1994 5 10 15 20 KU FY T U 9 MRRKSKUMEKO KUFULERCRE C ORR 606 96 OTP8NL Nd _PNC TN8410 96 203 2 3 2 1 pH 5 1 5 3 KH 1 KG 1 pH 10 EC Na K C17 50 4 0 7 Si0 8 1113 pH SiO Ca HC0 0 50 EC dissolved solid pH
50. Ca HC0 Na HCOs 2 Ca HCO 550m NW So J Na HCOs Bld 550m LNB KO MBL 25001 14 5 k KG 1 Ca HC0 Ca HC0 Na HCO PNC TN8410 96 203 5 550mL NW KD 89 22 250mL NW 19 O KH 1 5 KG 1 3 100 14 PNC TN8410 96 203 3 3 1 KG 1
51. pH pH Ca HCO Si0 PNC TN8410 96 203 Gr X 1 Craig H Isotopic variations in meteoric waters Science 133
52. pH Ca HCO 00 22 pH Na Ca Na pH Nat Ca HCO Na HCO Ca PHS 9 pH pH 9 10 Ca Ca HCO Na HCO pH Na Ca pH 9 10 Ca Ca SI BGS 23 EQ3 6 SI pH
53. 2 3 1 28 2 3 2 2 2 2 2 31 3 3 1 KG 1 38 3 2 pH Na Ca HC0 Si0 ee 40 3 3 7 52 3 4 53 56 5 2 57 6 58 58 PNC TN8410 96 203 550m 9 250m 10 KH 1 ee 14 KG 1 15 5 1 1 20 5 2
54. 6 m 2 1 2 3 1 2 550mn 250m m ko HEROS k na o 250m TK 24 6FLELOTK 2AK BWC SET A PE DZ 1 550 2 b FARK UEORE 5 DIER 1988 685m 666 5m 88W01 NW 88W02 NW 88W03 NW 88W04 NW 88W05 NW 88W06 NW 88W07 NW
55. 50 27 04 18 SAS SA LHD ONT 550 FKOSO BEL S0 m m 900 800 700 5 sta 550mL 22 500 250mL 19 KH 1 400 5 300 KG 1 4 200 100 0 100 100 i 0 25 50 75 100 125 150 175 200 0 25 50 75 100 125 150 gS cm mg 10 606 96 017881 Nd 900 800 700 600 500 400 300 200 100 0 100 3 4 5 6 7 8 9 10 11 12 13 pH m 900 800 700 5 600 550mL 22 250mL 19 KH 1 400 5 KG 1 900 4 200 100 0 100 5 10 15 20 25 30 35 SiO2 11 pH 5 2 amp 606 96 OIP8NL 900 800 700 600 500 400 0 5 m 900 800 5 550mL 22 250mL 19 700 600 500 KH 1 400 5 KG 1 300 4 200 100 0 100 10 15 20 25 30 0 5 10
56. SI BEQ3 6 Wolery 1983 SI 0 37 0 37 SI 0 37 19 21 19 21 0 37 SI 0 37 EQ3 6 DATA0 3245R54 Sil pH gt 9 pH lt 9
57. e i Ca Mg Sr Al T Fe ICP AES Si 0 45 m Fe Ar 2 2 460nm F 17 BERUS S Ar P0 3 0 N
58. 1 9 2 3 montmorillonite s H 113H O 3 kaolinite s 4H SiO 9 1 3 Ca feldspar s 2H H O kaolinite s 14 4 4 3 Ca montmorillonite s 2H 23H O 7 kaolinite s 8H SiO 15 4 5 Kaolinite s 5H O 2 gibbsite s 2H SiO 9 4 6 SiO amorph 2H2O H SiO 2 7 7 5 calcite Ca2 8 3 8 HCO H CO3 10 3 9 H O HCO 7 8 10 H O 1 5 Ca feldspar Anorthite 1 51 Na feldspar Albite NaAlSi O Na montmorillonite Nao 1 Ca montmorillonite Cag Al 651 aO 6 OH Kaolinite Al Si 0 OH Gibbsite Al O 3H2O H2CO b CF R M Garrels Amer Mineralogist 42 789 1957 606 96 OTP8NL 9Nd pH log Na log H4SiO4 log H4SiO4 3 646 Ca R x N 2 H 2pH log Ca R gt N K x N gt log H4SiO4 1 18 Ca HCO3 Na HCO3 606 96 OTP8NL JNd PNC TN8410 96 203 gg Na HCO Si0
59. Desulfovibrio Fukunaga 35C 13C 17 KG 1 2 pH 9 8 Eh Eh 300 400mV Bh Eh KG 1 2 KG 1 2 Bh 3 2 pH Na HCO Si0 Eh
60. lt o sot lt o 600 lt o _ lt ot lt o lt o lt o lt 001 lt 001 r lt 0 oo So lt oot J lt 00 lt 0 j lt o lt 61 _ lt 000 lt 01 lt 00 LO lt ao S E j lt 002 lt 2 lt 01 lt 002 lt et lt o on lt 00 lt 001 lt 001 PNC TN8410 96 203 5 3 pana ee passa rapier nsdn 4 10 4 10 p mearen pe ene ae repere eere peperen l ee rr Ir 550m 0m KH 1 100m
61. KG 1 800m f 2 1 250m 258m 1 2 6 2 2 1 2 1 1 20km 0 1 1976
62. ee SA 2 gt g fy Wie SN SA gen G 9 4 a i 88W01 S 88W02 f V V V V 8wo3 A fy V 00738 V y v 3 YX sswoe FTK 14 V 88wo5 KD 89 v 88WO8 245 SGWO9 OTK 13 A V E BW10 N88wi1 A V V 2 88W12 lt MP F 15 MX V 88W14 T sewie Se 88W17 y x X 88W18 X V x x x x x x X X X X X X 1 5 5 2 X X ts T BL DJ X x 8 WP r X aH PNY Tes X X 4 550mL 1 5 000 X 530 M a ae oe va ee y x eee F v 1 V V V oTK 6 V V V V V N E Sti V ee V V ES V V V V WTE V lt am 602 96 OTP8NL ONd Di TK 21 LT
63. s IT PP y WS Es lt Pa I SITU TAS ri aaah DS my CP eT A he AAT 7122 herrani PGb gt 2 gt P ss i m B y hd 5 gjs LI HES r 8 4 2 1 50 000 rN E lt mw Ola A A EE ME SF gt EN 2777117 Fer vA TS RSE ol meet 4816227 2km 606 96 OIPSNL JNd PNC TN8410 96 203 MSN ASST 5 y PALA 475 3 SZ 52 oe bas PASS AT r p en b S W Ba ee ge gt 5 on de Cs ak Si We lt gt Z A Gen E Nevers 221 gt X we i s gt Sat j J athe f 11 Sel tate A 22 NGOS aM 500m ae re ZNA 22 gt
64. 88WO8tINW 88W09 NW 88W10 NW 88W11 NW 88W12 NW 88W13 NW 640m 631 8m 3775 300cemin _ ERE 298m S8W14 NWIS S8W15 NWSX8 ERA 247m aoooegmm 88W16 NWIKE 8 17 488 AERE Osr cm GERM 1222 aooczmn 606 96 OIP8NL JNd 2 250ML WIV HDI Foi rm 15m W1 30 301 0m W2 250mL 5m SCRIBE RRS No 58 x 48m O OO No62 RMR 509m O O No 7O mx 608m O O O No 85 eet 7Yom __ O No 99 82 1m No99 821m No 111 94 6m O No128 130001000021 1651 3 ARM 151 4m O W12 250mL No 181 RM 163m _ OO No188 168 3m No 197 d 9 No212 eM 199 3m 290m BE O 347 1m SCRIBES 29om W17 30 480 1m W18 250m
65. KH 1 4 KG 1 8 O 6 D HOMAHE PNC TN8410 96 203 6 0O CO D H 9 0O kU DOE SMOW Wize OBRUS D O 0 P mm 11010 SMOW D ZH 1 X 1000 D H SMOW H ml LEE 4 4 602
66. 48 1 22 pH Nat Catt 54 8 23 EQ3 6 55 PNC TN8410 96 203 1 1 63 3 5 H L 2 5 4 10 3 1 1 1 2 1 550m 575m KH 1 550m 500m
67. Atomic Emission Spectroscopy PNC TN8410 96 203 RA KG 1 ERE ER TE PRIRA 1 2 941118 KG 1 3 941202 KG 1 4 950121 gt so x PH s Eh smV rmv L 3 35 0 c ea os oh r Ns OS in ia ps mn 4 sz He 6 cosewl ss ss ch oo co GF Nl 3602 s c ee S icpAEs Om Na RA 0050 062 gt 0 K AAAS 0 05 mo 067 os x u Ga rcpAEs oomo io 965 0 Me icpAEs mn 10 ioo eg sr 0005 mg t os GEAes mn 90 1 s oemm x Te ricpAEs om 140 id os Few 0001 090 20 ao IE E 0050 2 664 too 2 Q06m9 szs sim PO4 082
68. k ae gd x c i v Di v Y 5 250m L AILS IC St 2 H Bl 1 5 000 V V V V V V 606 96 01881 ONd one oon ae oor aoe one wor s 1 a FLO 575m KG 1 1 558 562m ARE lt Ae 1 1 474 573m 1 2 01539 4 KH 1 3 238338m 1 4 164237m a gt a 6 KH 1 KG 1 602 96 OIF8NIL ONd PNC TN8410 96 203 2 550m 575m 61 4 550m NW NB NW NW 88W01 18 18 NW KD 89 9 4 1 5500 WUBI
69. KG 1 3 f RR cae KG 1 2 2 8 10 MPN ml KG 1 3 1 5X10 MPN m1 KG 1 3 g KG 1 2 2 0 MPN ml KG 1 3 1 3x10 MPN m1 KG 1 3 KG 1 2 KG 1 3 Desulfovibrio PNC TN8410 96 203 2 2 pH Eh T OH 2 2 1 TK 24 6 TK 21 NENS NIL GORFF KH 1 550m 500m KG 1 800m
70. N2 10 1 gt 10E 0 COQ CH4 16 Jorgensen 1980 PNC TN8410 96 203 KG 1 2030 Tit HGP 10 Au Ag AgCl 1992 12 11 Eh 176mV 5 1 KG 1 2 Bh Fukunaga et al 1995 pH Bh pH Eh 17 Fukunaga KG 1 2
71. 1702 1703 1961 Fukunaga S et al Experimental investigation on the active range of sulfate reducing bacteria for geological disposal Mat Res Soc Symp Proc vol 353 173 180 1995 Gascoyne M et al Geochemical and isotopic characterization of flow in fractured plutonic rocks Examples from the Canadian shield Proceedings fourth Canadian American conference on hydrogeology 20 31 1988 26 93 104 1976 1960 IAEA Environmental Isotope Data No 8 Technical Reports Series No 264 IAEA 1986 Jorgensen Mineralization and the bacterial cycling of carbon nitrogen and sulphur in marine sediments Contemporary Microbial Ecology Academic Press 1980 51 1976 52 1977 1983 Laaksoharju M et al An approach to quality classification of deep groundwaters in Sweden and Finland SKB TR 93 27 1993 BEH 266p 1990 HES 76 1 Vol 10 No 2 25 39 1985 PNC TN8410 96 203
72. 2000 isExos 70 10 15 20 25 30 35 40 45 50 55 60 7 HCO3 602 96 0I 8NJ JNd TN8410 96 203 KG 1 2 7 5X10 cells m1 KG 1 3 9 2 10 115 ml KG 1 2 KG 1 3 Thiobacillus ferrooxidans b MP N KG 1 2 1 8x10 MPN ml KG 1 3 8 9x10 MPN ml KG 1 2 2 9X10 CFU m1 KG 1 3 1 3 X10 CFU m1l KG 1 2 c KG 1 2 KG 1 3 d KG 1 2 KG 1 3 KG 1 2
73. NRA RER gt gt gt gt gt FRO gt oR BRO REG REA RAA gt WER TUG PNC TN8410 96 208 2 3 2 3 1 1 19 90
74. 15 20 ppm ppm 12 Na Car 602 96 OIL8NL m 900 10 20 30 40 50 60 CO3 ppm m 900 5 550mL 22 250mL 19 KH 1 5 KG 1 4 0 5 10 15 20 25 504 13 606 96 0IY8NL JNd PNC TN8410 96 203 2 5 1 5 3 KH 1 KG 1 Na K HC03 03 72 S50 Cl Piper 14 KH 1 14
75. KG 1 4 SHER 5 pH D 14 BS 14 pH 10 5 2 KUKH 1LFLOH F 7k R 3I Na K AAS Ca T Fe Si ICP AES Si 0 45 m 5 1 5 3 PR 6 510
76. L No 302 SHAE 303 6m 119m SERA 470 O me Na a Jx 606 96 01783 ONd PNC TN8410 96 203 3 KH 1 KH 1 550m SE 4 KG 1 KG 1 MP Multiple Piezometer MP MOSDAXX 2350 Westbay MOSDAX MOSDAX
77. PNC TN8410 96 203 1 1 9 9 6 10 17319 11 4 33 Inquiries about copyright and reproduction should be addressed to Technology Management Section Tokai Works Power Reactor and Nuclear Fuel Development Corporation 4 33 O aza Muramatsu Tokai mura Naka Ibaraki ken 319 11 Japan Power Reactor and Nuclear Fuel Development Corporation 1996 3 ASLIUIC BSF 2 Hb FIKOMEME ARTS 1 MERRIA 2 6
78. RER HER SED REF BES 3 1989 550m 501 20m LTE AFL 500m CHO RER RRA BER Kerth 2 2 2 250m No 69 70 W 5 No 1993 OR
79. TK 21 1977 250m 30 480 10m 1977 011900 50 119 480m BRE AAG SER OR RREO PNC TN8410 96 203 HS HRG OR
80. might be dominated by equilibrium between minerals and water 1 Power Reactor and Nuciear Fuel Development Corporation PNC Tokai Works Waste Technology Development Division Geological Isolation Technology Section GIS 2 PNC Head Office Geoscience Research Program PNC TN8410 96 203 1 18 1 12 1 2 2 1 2 1 1 1 2 1 2 8 2 1 3 11 2 1 4 12 2 1 5 2 2 2 2 1 26 2 2 2 27 2 8
81. om os 804 2 0 06 rr co c mx CU lt UV NOS mesa 005mg NHN WEB QO05mgW om EE tnorganic saana om 23 ss za Total Organic Carbon oram 070 oss osmz 0cmm i aO x 2 zzg g so1 3s 61 a 770 O MPN Most 7 eee MPNA N T T 1 meee GC TCD WEARER GC FID AODC PNC TN8410 96 203 KG 1 KG 1 2 4 K Li AAS
82. s EO 6 Ti 20 22 3 ss oa ae ee Od so Hat 6 00s os To No Wa sma ST 7 es 7 ar 1 sas em ll 7 L 062 066 or te m L s A eared sd rat i os mm 0 0710 EE 00 0o7 62 em dw arr ll em 0 008 aaa pee ee ee U U m L ss m ss C i m nr rr L s L aa GS Op oo ss sr es ss dt ss noe ss ts omn mm lt 00 oos Ne 0 004 inorganic Garbon ss 6 Total Organic Carson mo oa 633 os wm 45 5 or sp x 97 a J 303 TU ad ator ee s 15 sz 717 cas MeMmD 29Ex03 13Ex62 J ia ae MPNm ND EF WPNm Np NO WE tsEx63 sam
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