|
|
|
- つかさ たなせ
- 7 years ago
- Views:
Transcription
1 Eh- No
2
3 FACT/FACTSAGE SUPCRT/FLASK-AQ LLNL/GWB JNC-TDB/GWB HATCHES/FLASK-AQ OECD/NEA OECD-NEAupdate
4 List of Ac species List of Ag species List of Al species List of Am species List of As species List of Au species List of B species List of Ba species List of Be species List of Bi species List of Br species List of C species () List of C species (2) List of Ca species List of Cd species List of Ce species List of Cl species List of Cm species List of Co species List of Cr species List of Cs species List of Cu species List of Dy species List of Er species List of Eu species List of F species List of Fe species List of Fr species List of Ga species List of Gd species List of Ge species List of Hf species List of Hg species List of Ho species List of I species List of In species List of K species List of La species List of Li species List of Lu species List of Mg species List of Mn species List of Mo species List of N species
5 46 List of Na species List of Nb species List of Nd species List of Ni species List of Np species List of Os species List of P species List of Pa species List of Pb species List of Pd species List of Pm species List of Po species List of Pr species List of Pt species List of Pu species List of Ra species List of Rb species List of Re species List of Rh species List of Ru species List of S species List of Sb species List of Sc species List of Se species List of Si species List of Sm species List of Sn species List of Sr species List of Tb species List of Tc species List of Te species List of Th species List of Tl species List of Tm species List of U species List of V species List of W species List of Y species List of Yb species List of Zn species List of Zr species
6 Eh Eh- diagrams of the system Ac-O-H () Eh- diagrams of the system Ac-O-H (2) Eh- diagrams of the system Ag-O-H () Eh- diagrams of the system Ag-O-H (2) Eh- diagrams of the system Al-O-H () Eh- diagrams of the system Al-O-H (2) Eh- diagrams of the system Am-O-H () Eh- diagrams of the system Am-O-H (2) Eh- diagrams of the system As-O-H () Eh- diagrams of the system As-O-H (2) Eh- diagrams of the system Au-O-H Eh- diagrams of the system B-O-H () Eh- diagrams of the system B-O-H (2) Eh- diagrams of the system Ba-O-H () Eh- diagrams of the system Ba-O-H (2) Eh- diagrams of the system Be-O-H () Eh- diagrams of the system Be-O-H (2) Eh- diagrams of the system Bi-O-H Eh- diagrams of the system Br-O-H Eh- diagrams of the system C-O-H () Eh- diagrams of the system C-O-H (2) Eh- diagrams of the system Ca-O-H () Eh- diagrams of the system Ca-O-H (2) Eh- diagrams of the system Cd-O-H () Eh- diagrams of the system Cd-O-H (2) Eh- diagrams of the system Ce-O-H () Eh- diagrams of the system Ce-O-H (2) Eh- diagrams of the system Cl-O-H Eh- diagrams of the system Cm-O-H () Eh- diagrams of the system Cm-O-H (2) Eh- diagrams of the system Co-O-H () Eh- diagrams of the system Co-O-H (2) Eh- diagrams of the system Cr-O-H () Eh- diagrams of the system Cr-O-H (2) Eh- diagrams of the system Cs-O-H () Eh- diagrams of the system Cs-O-H (2) Eh- diagrams of the system Cu-O-H () Eh- diagrams of the system Cu-O-H (2) Eh- diagrams of the system Dy-O-H Eh- diagrams of the system Er-O-H Eh- diagrams of the system Eu-O-H () Eh- diagrams of the system Eu-O-H (2) Eh- diagrams of the system F-O-H ()
7 46 Eh- diagrams of the system F-O-H (2) Eh- diagrams of the system Fe-O-H () Eh- diagrams of the system Fe-O-H (2) Eh- diagrams of the system Fr-O-H Eh- diagrams of the system Ga-O-H Eh- diagrams of the system Gd-O-H Eh- diagrams of the system Ge-O-H Eh- diagrams of the system Hf-O-H Eh- diagrams of the system Hg-O-H () Eh- diagrams of the system Hg-O-H (2) Eh- diagrams of the system Ho-O-H Eh- diagrams of the system I-O-H () Eh- diagrams of the system I-O-H (2) Eh- diagrams of the system In-O-H Eh- diagrams of the system K-O-H () Eh- diagrams of the system K-O-H (2) Eh- diagrams of the system La-O-H () Eh- diagrams of the system La-O-H (2) Eh- diagrams of the system Li-O-H () Eh- diagrams of the system Li-O-H (2) Eh- diagrams of the system Lu-O-H Eh- diagrams of the system Mg-O-H () Eh- diagrams of the system Mg-O-H (2) Eh- diagrams of the system Mn-O-H () Eh- diagrams of the system Mn-O-H (2) Eh- diagrams of the system Mo-O-H () Eh- diagrams of the system Mo-O-H (2) Eh- diagrams of the system N-O-H () Eh- diagrams of the system N-O-H (2) Eh- diagrams of the system Na-O-H () Eh- diagrams of the system Na-O-H (2) Eh- diagrams of the system Nb-O-H () Eh- diagrams of the system Nb-O-H (2) Eh- diagrams of the system Nd-O-H () Eh- diagrams of the system Nd-O-H (2) Eh- diagrams of the system Ni-O-H () Eh- diagrams of the system Ni-O-H (2) Eh- diagrams of the system Np-O-H () Eh- diagrams of the system Np-O-H (2) Eh- diagrams of the system Os-O-H Eh- diagrams of the system P-O-H () Eh- diagrams of the system P-O-H (2) Eh- diagrams of the system Pa-O-H () Eh- diagrams of the system Pa-O-H (2) Eh- diagrams of the system Pb-O-H () Eh- diagrams of the system Pb-O-H (2)
8 92 Eh- diagrams of the system Pd-O-H Eh- diagrams of the system Pm-O-H Eh- diagrams of the system Po-O-H Eh- diagrams of the system Pr-O-H Eh- diagrams of the system Pt-O-H Eh- diagrams of the system Pu-O-H () Eh- diagrams of the system Pu-O-H (2) Eh- diagrams of the system Ra-O-H () Eh- diagrams of the system Ra-O-H (2) Eh- diagrams of the system Rb-O-H Eh- diagrams of the system Re-O-H Eh- diagrams of the system Rh-O-H Eh- diagrams of the system Ru-O-H () Eh- diagrams of the system Ru-O-H (2) Eh- diagrams of the system S-O-H () Eh- diagrams of the system S-O-H (2) Eh- diagrams of the system Sb-O-H () Eh- diagrams of the system Sb-O-H (2) Eh- diagrams of the system Sc-O-H Eh- diagrams of the system Se-O-H () Eh- diagrams of the system Se-O-H (2) Eh- diagrams of the system Si-O-H () Eh- diagrams of the system Si-O-H (2) Eh- diagrams of the system Sm-O-H () Eh- diagrams of the system Sm-O-H (2) Eh- diagrams of the system Sn-O-H () Eh- diagrams of the system Sn-O-H (2) Eh- diagrams of the system Sr-O-H () Eh- diagrams of the system Sr-O-H (2) Eh- diagrams of the system Tb-O-H Eh- diagrams of the system Tc-O-H () Eh- diagrams of the system Tc-O-H (2) Eh- diagrams of the system Te-O-H Eh- diagrams of the system Th-O-H () Eh- diagrams of the system Th-O-H (2) Eh- diagrams of the system Tl-O-H Eh- diagrams of the system Tm-O-H Eh- diagrams of the system U-O-H () Eh- diagrams of the system U-O-H (2) Eh- diagrams of the system V-O-H () Eh- diagrams of the system V-O-H (2) Eh- diagrams of the system W-O-H Eh- diagrams of the system Y-O-H Eh- diagrams of the system Yb-O-H Eh- diagrams of the system Zn-O-H () Eh- diagrams of the system Zn-O-H (2)
9 8 Eh- diagrams of the system Zr-O-H () Eh- diagrams of the system Zr-O-H (2)
10 Eh- Eh- Eh Eh Eh- Eh- Pourbaix (966) Brookins (988) Eh- Eh- (stateof-the-arts) as is Eh GTT-Technologies FactSage.2 (FACTSAGE Bale et al., 2002) FACT (FACT ) 2. Johnson et al. (992) SUPCRT92 Everette Shock 98 (SUPCRT ). C.M.Bethke Geochemist s Workbench Release 4.0 (GWB ) therm.dat Laurence Rivermore National Lab. Data 4r46 (LLNL ) 4. JNC-TDB 02g0 02g2 (JNC-TDB ). NEA Computer Program Services ZZ-HATCHES- (HATCHES ) 6. OECD/NEA Chemical Thermodynamics -4 (Grenthe et al., 992; Silva et al., 99; Rard et al., 999; Lemire et al., 200, OECD-NEA ) Pourbaix (966) 8
11 List StarSuite.ps ps2epsi LLNL JNC-TDB GWB(Act2) GWB(Act2) FACT FactSage(E).ps.bmp Acrobat Distiller Illustrator LaTeX dvips.pdf.eps.dvi.ps printout template template SUPCRT HATCHES OECD-NEA OECD-NEAupdate FLASK-AQ Ehdraw xwd convert intermediate X window.xwd file graphics.bmp : 7. OECD/NEA Chemical Thermodynamics (Guillaumont et al., 200, OECD-NEAupdate ) Chemical Thermodynamics -4 Eh- X-H-O X OECD-NEA 0 0 mole/kg Eh- 298.K 0 Pa FACTSAGE FACT GWB LLNL GWB JNC-TDB SUPCRT HATCHES OECD- NEA OECD-NEAupdate FLASK-AQ FLASK-AQ Ehdraw Eh- ( Garrels and Christ (96) ) FACTSAGE GWB Eh- FLASK-AQ Eh Eh- Eh- Anderko et al. (997) Eh ±02 ±2 / / ( ) 9
12 . FACT/FACTSAGE FACTSAGE E Eh- bmp Adobe Illustrator ( Illustrator).2 SUPCRT/FLASK-AQ FLASK-AQ FLASK-AQ Ehdraw Eh- Eh- xwd ImageMagic convert bmp Illustrator C H O. LLNL/GWB GWB Act2 Eh- Adobe Acrobat Distiller ( Acrobat Distiller) pdf ( ) Illustrator GWB eps Eh- Illustrator.4 JNC-TDB/GWB GWB Act2 Eh- Acrobat Distiller pdf Illustrator GWB eps Eh- Illustrator 02g0 S U 02g2 S U 02g0 02g2. HATCHES/FLASK-AQ HATCHES EQ/6 aux basis aux tdbconvert FLASK-AQ FLASK-AQ Eh- Ehdraw Eh- Eh- xwd ImageMagic convert bmp Illustrator basis SUPCRT/FLASK-AQ X-H-O.6 OECD/NEA OECD-NEA Chemical Thermodynamics 4 PC FLASK-AQ FLASK-AQ 0
13 Symbol Database.2 Ac (JNC-TDB/GWB) Software.0 Stability field of water (298.K, 0 Pa) Ac[+] AcOH[2+] Ac(OH) 2 [+] Ac(OH) (c) Solid phase in bold 7 9 2: Eh- Eh- Ehdraw Eh- Eh- xwd ImageMagic convert bmp Illustrator.7 OECD-NEAupdate OECD-NEA Chemical Thermodynamics OECD/NEA 4 / / ( 2) NODATA as is [] as is am c cr s FACT s s2 s K 0 Pa
14 : Software Version OS Description Acrobat Distiller 4.0 Windows 2000 Professional conversion from PS to pdf convert..8 Linux (SuSE 7.) conversion from xwd to bmp Ehdraw.0 Linux (SuSE 7.) X window software for Eh- drawing FactSage.2 Windows 2000 Server Eh- calculation and drawing FLASK-AQ. Linux (SuSE 7.) Eh- calculation GWB 4.0 Windows 2000 Server Eh- calculation and drawing Illustrator 8.0 Windows 2000 Professional final drawing of Eh- diagrams Intel C++ compiler 7.0 Linux (SuSE 7.) compiling FLASK-AQ and Ehdraw pdvips.92b p.6 Linux (Fedra CORE 2) conversion from dvi to PS and printing platex tetex 2. Linux (Fedra CORE 2) document processing of this report ps2epsi.2. Linux (Fedra CORE 2) conversion from PS to epsi StarSuite 6.0 Linux (RedHat 9.0) writing tables of species tdbconvert.0 Linux (RedHat 9.0) database file convert xwd XR6. Linux (SuSE 7.) X window dump software ) 2) ) OECD-NEA Chemical Thermodynamics FLASK-AQ FLASQ-AQ Eh- Eh ±02 ±2 6 GTT-Technologies FactSage.2 C.M.Bethke Geochemist s Workbench 4.0 FLASK-AQ. FactSage.2 Geochemist s Workbench 4.0 Dell PowerEdge 2600 (Xeon 2.4GHz x2 SMP, 4GB ) Microsoft Windows 2000 Server Flask- AQ. HIT PC (Pentium4 2.8GHz, GB ) SuSE Linux 7. (kernel ) Intel C Platform LSF 4.2 FLASK-AQ. Eh- Ehdraw ZZ- HATCHES- FLASK-AQ. sgi tdbconvert Ehdraw Eh- X Window dump xwd xwd bmp ImageMagic convert 2
15 IA2PC ( Pentium 2 CPU PC) Red Hat Linux ver.9 Fedra Core 2 pdf Adobe Acrobat Distiller 4.0 Adobe Illustrator 8.0 IA2PC Microsoft Windows 2000 Professional Sun StarSuite 6.0 ps2epsi eps ASCII platex pdvips IA2PC Fedra Core 2 ( ) Anderko, A. and Shuler, P.J. (998) A computational approach to predicting the formation of iron sulfide species using stability diagrams, Computers & Geosciences, 2, Bale, C.W., Chartrand, P., Degtrev, S.A., Eriksson, G., Hack, K., Ben Mahfoud, R., Melancon, J., Pelton, A.D., and Petersen, S. (2002) FactSage thermochemical software and databases, Calphad, 26, Brookins, D.G. (988) Eh- diagrams for geochemistry, Springer-Verlag New York, 76p. Garrels, R.M. and Christ, C.L. (96) Solution, minerals and equilibria, Freeman, Cooper & company, San Francisco, 40p. Johnson, J.W., Oelkers, E.H., and Helgeson, H.C. (992) SUPCRT92: a software package for calculating the standard molal thermodynamic properties of minerals gases, aqueous species, and reactions from to 000 bar and 0 to 000 C,Computers & Geosciences, 8, Grenthe, I., Fuger, J., Konings, R.J.M., Lemire, R.J., Muller, A.B., Nguyen-Trung, C., and Wanner, H. (992) Chemical Thermodynamics of Uranium (Wanner, H., Forest, I., Nuclear Energy Agency, Organisation for Economic Co-operation, Development eds.), vol., Chemical Thermodynamics, North Holland Elsevier Science Publishers B.V., Amsterdam, 7p. Guillaumont, R., Fanghanel, T., Neck, V., Fuger, J., Palmer, D.A., Grenthe, I., and Rand, M.H. (200) Updete on the chemical thermodynamics of uranium, neptunium, plutonium, americium and technetium (Mompean, F.J., Illemassene, M., Domenech-Orti, C., and Ben-Said K., Nuclear Energy Agency Data Bank, Organisation for Economic Co-operation, Development eds.), vol. Chemical Thermodynamics, North Holland Elsevier Science Publishers B.V., Amsterdam, 964p. Lemire, R.J., Fuger, J., Nitsche, H., Potter, P.E., Rand, M.H., Rydberg, J., Spahiu, K., Sullivan, J.C., Ullman, W.J., Vitorge,P., and Wanner, H.(200) Chemical Thermodynamics of Neptunium and Plutonium (Nuclear Energy Agency Data Bank, Organisation for Economic Co-operation, Development ed.), vol. 4, Chemical Thermodynamics, North Holland Elsevier Science Publishers B.V., Amsterdam. 84p. Pourbaix, M. (966) Atlas of electrochemical equilibria in aqueous solutions (English edition), Pergamon press, Oxford, 644p.
16 Rard, J.A., Rand, M.H., Anderegg, G., and Wanner, H. (999) Chemical Thermodynamics of Technetium (Sandino, M.C.A., Osthols, E., Nuclear Energy Agency Data Bank, Organisation for Economic Co-operation, Development eds.), vol., Chemical Thermodynamics, North Holland Elsevier Science Publishers B.V., Amsterdam, 44p. Silva, R.J., Bidoglio, G., Rand, M.H., Robouch, P.B., Wanner, H., and Puigdomenech, I. (99) Chemical Thermodynamics of Americium (Nuclear Energy Agency, Organisation for Economic Co-operation, Development ed.), vol. 2, Chemical Thermodynamics, North Holland Elsevier Science Publishers B.V., Amsterdam, 74p. 4
17 2: List of Ac species FACT SUPCRT LLNL JNC-TDB Ac[+], AcOH[2+], Ac(OH)2[+], Ac(OH)(aq), Ac(OH) (am), Ac(OH) (c) HATCHES Ac[+], AcOH[2+], Ac(OH)
![Ac(OH)2[+], Ac(OH)(aq), Ac(OH)](/docs-images/41/20121098/images/page_17.jpg "(am), Ac(OH) (c) HATCHES Ac[+],")
18 .2 Ac (FACT/FACTSAGE).2 Ac (SUPCRT/FLASK-AQ).0.0 NO DATA NO DATA Ac ( LLNL/GWB) Ac (JNC-TDB/GWB) NO DATA Ac[+] AcOH[2+] Ac(OH) 2 [+] Ac(OH) (c) : Eh- diagrams of the system Ac-O-H (). Ac = 0 0, 298.K, 0 Pa. 6
19 .2 Ac (HATCHES/FLASK-AQ).0 AcOH[2+] Ac[+] Ac(OH) 7 9 4: Eh- diagrams of the system Ac-O-H (2). Ac = 0 0, 298.K, 0 Pa. 7
20 8
21 : List of Ag species FACT SUPCRT LLNL JNC-TDB Ag[+], AgOH(aq), Ag(OH)2[-],Ag 2O(s), Ag 2O 2(s), Ag 2O (s), Ag(Native silver) Ag[2+], Ag[+], AgOH(aq), AgO[-], Ag(Native silver) Ag[+], Silver Ag[+] HATCHES Ag[+], Ag(OH) 2[-], AgOH(aq), Ag, Ag 2O, Ag 2O 2, Ag 2O 9
22 .2 Ag (FACT/FACTSAGE) Ag 2 O (s).2 Ag (SUPCRT/FLASK-AQ).0 Ag 2 O 2 (s).0 Ag[+] AgOH(aq) Ag(OH) 2 [-] Ag[+] AgOH(aq) AgO[-] Ag(s) Ag(s) Ag (LLNL/GWB).2 Ag (JNC-TDB/GWB).0.0 Ag[+] Ag[+] Ag(s) : Eh- diagrams of the system Ag-O-H (). Ag = 0 0, 298.K, 0 Pa. 20
23 .2.0 Ag (HATCHES/FLASK-AQ) Ag 2 O 2 (s) Ag 2 O (s) Ag[+] Ag(OH) 2 [-] Ag(s) 7 9 6: Eh- diagrams of the system Ag-O-H (2). Ag = 0 0, 298.K, 0 Pa. 2
24 22
25 4: List of Al species FACT SUPCRT LLNL JNC-TDB Al[+], AlO 2[-], AlOH[2+], Al(s), AlH (s), Al 2O (s), Al 2O (s2), Al 2O (s), Al 2O (s4), Al(OH) (s), Al 2O (H 2O)(s), Al 2O (H 2O)(s2), Al2O(H2O)(s) AlO[+], HAlO 2(aq), Al[+], AlO2[-], AlOH[2+], Al 2O (Corundum), AlO(OH)(Diaspore), AlO(OH)(Boehmite), Al(OH) (Gibbsite), AlO[+], HAlO 2(aq) Al[+], Al(OH) 2[+], Al(OH)(aq), Al(OH)4[-] AlO 4(OH) 24[7+], Al2(OH)2[4+], Al(OH)4[+], AlOH[2+], Boehmite, Corundum, Diaspore, Gibbsite Al[+], AlOH[2+], Al(OH) 2[+], Al(OH)(aq), Al(OH)4[-], Gibbsite HATCHES Al[+], Al(OH)[2+], Al(OH)2[+], Al(OH)(aq), Al(OH)4[-], Boehmite, Corundum, Diaspore, Gibbsite 2
26 .2 Al (FACT/FACTSAGE).2 Al (SUPCRT/FLASK-AQ).0.0 Al[+] Al 2 O (H 2 O)(s) AlOH[2+] AlO 2 [-] Al[+] AlOH[2+] HAlO 2 (aq) AlO 2 [-] Al (LLNL/GWB).2 Al (JNC-TDB/GWB).0.0 AlOH[2+] Al[+] Al(OH) 2 [+] Al(OH) 4 [-] Al[+] AlOH[2+] Al(OH) 4 [-] Al(OH) 2 [+] AlOH : Eh- diagrams of the system Al-O-H (). Al = 0 0, 298.K, 0 Pa. 24
27 .2 Al (HATCHES/FLASK-AQ).0 Al[+] Al(OH)[2+] Al(OH) 2 [+] Al(OH) 4 [-] 7 9 8: Eh- diagrams of the system Al-O-H (2). Al = 0 0, 298.K, 0 Pa. 2
28 26
29 : List of Am species FACT SUPCRT LLNL JNC-TDB Am(s), Am(s2), Am (s), AmO 2(s), Am 2O (s) Am[+], Am[4+], AmO 2[+], AmO 2[2+], Am(OH)2[+], Am(OH)(aq), AmOH[2 +], Am(OH) (am), Am(OH) (c) Am[+], AmOH[2+], Am(OH) 2[+], Am(OH) (aq), Am(OH) (am), Am(OH) (c) HATCHES OECD-NEA OECD-NEA update Am[+], Am[4+], AmO 2[+], AmO2[2+], Am (OH)2[+], Am(OH)(a q), AmOH[2+], Am, A m(oh), Am 2O, AmH 2, AmO 2, Am(OH) (cr) Am[4+], Am[2+], Am [+], AmO 2[+], AmO2 [2+], AmOH[2+], Am (OH)2[+], Am(OH) (a q), Am(c), AmO 2(c), Am 2O (c), AmH 2(c), A m(oh) (am), Am(OH) (c) Am[4+], Am[2+], Am [+], AmO 2[+], AmO2 [2+], AmOH[2+], Am (OH)2[+], Am(OH) (a q), Am(cr), AmO 2(c r), Am 2O (cr), AmH 2 (cr), Am(OH) (cr) 27
30 .2 Am (FACT/FACTSAGE).2 Am (SUPCRT/FLASK-AQ).0.0 NO AQUEOUS SPECIES DATA NO DATA Am (LLNL/GWB).2 Am (JNC-TDB/GWB).0 AmO 2 [+].0 Am[+] AmOH[2+] Am(OH) (aq) Am[+] AmOH[2+] Am(OH) 2 [+] Am(OH) (c) : Eh- diagrams of the system Am-O-H (). Am = 0 0, 298.K, 0 Pa. 28
31 .2 Am (HATCHES/FLASK-AQ).2 Am (OECD-NEA/FLASK-AQ).0 AmO 2 [+].0 AmO 2 [+] AmO 2 (s) AmO 2 (c) Am[+] AmOH[2+] Am(OH) 2 [+] Am(OH) (c) Am[+] AmOH[2+] Am(OH) 2 [+] Am(OH) (c) Am (OECD-NEA update/flask-aq).0 AmO 2 [+] AmO 2 (cr) Am[+] AmOH[2+] Am(OH) 2 [+] Am(OH) (cr) 7 9 0: Eh- diagrams of the system Am-O-H (2). Am = 0 0, 298.K, 0 Pa. 29
32 0
33 6: List of As species FACT SUPCRT LLNL JNC-TDB AsO2[-], AsO4[-], HAsO2(aq), H 2AsO [- ], H2AsO4[2-], H2AsO 4[-], HAsO4(aq), AsO[+], As(s), As 2O (s), As 2O (s2), As 2O (s), AsO 2[-], AsO4[-], HAsO2(aq), H 2AsO [- ], HAsO4[2-], H2AsO 4[-], H AsO 4(aq) As(OH) 4[-], AsH(aq), AsO 4[-], As(OH)(aq), AsO2OH[2-], H2AsO4[-], HAsO4(aq), HAsO4[2-] Arsenolite, As 2O (c), Claudetite HATCHES As(OH)4[-], H2AsO4[- ], As(OH)(aq), AsO[+], AsO4[-], HAsO4(aq), HAsO2(aq), HAsO 4[2- ], Arsenolite, As 2O (c), As 4O 6, Claudetite
34 .2 As (FACT/FACTSAGE).2 As (SUPCRT/FLASK-AQ).0.0 H AsO 4 (aq) H AsO 4 (aq) H 2 AsO 4 [-] H 2 AsO 4 [-] HAsO 2 (aq) HAsO 4 [2-] AsO 4 [-] HAsO 2 (aq) HAsO 4 [2-] AsO 4 [-] As(s) H 2 AsO [-] AsO 2 [-] As (LLNL/GWB).2 As (JNC-TDB/GWB).0.0 H AsO 4 (aq) H 2 AsO 4 [-] As(OH) (aq) HAsO 4 [2-] NO DATA AsO 4 [-] AsH (aq) As(OH) 4 [-] AsO 2 OH[2-] : Eh- diagrams of the system As-O-H (). As = 0 0, 298.K, 0 Pa. 2
35 .2 As (HATCHES/FLASK-AQ).0 H AsO 4 (aq) H 2 AsO 4 [-] HAsO 4 [2-] As(OH) (aq) AsO 4 [-] As(OH) 4 [-] 7 9 2: Eh- diagrams of the system As-O-H (2). As = 0 0, 298.K, 0 Pa.
36 7: List of Au species FACT SUPCRT LLNL JNC-TDB AuO[-], HAuO[2- ], H2AuO [-], Au(OH)(aq), Au 2O (s), Au(OH) (s), Au(s) Au[+], Au[+], Au(Native gold) Au[+], Au[+], Gold 4
37 .2 Au (FACT/FACTSAGE).2 Au (SUPCRT/FLASK-AQ) Au[+].0 Au(OH) (aq).0 H 2 AuO [-] HAuO [2-] Au(s) Au(s) Au (LLNL/GWB) Au[+].2 Au (JNC-TDB/GWB).0.0 Au(s) NO DATA : Eh- diagrams of the system Au-O-H. Au = 0 0, 298.K, 0 Pa.
38 6
39 8: List of B species FACT SUPCRT LLNL JNC-TDB BH4[-], BO2[-], B4O7[2-], H2BO[-], HBO(aq), H2BO(H2O2)[-], HB4O7[-], H2B4O7(aq), H(BO)2(H2O2)2[-], B(s), B 0H 4(s), B 2O (s), HBO 2(s), HBO 2(s2), HBO 2(s), H BO (s), B H O (s), B 2(OH) 4(s) BO 2[-], B(OH)(aq) B(OH)(aq), B(OH)4[-], B2O(OH)[-], BO(OH)4[-], B4O(OH)4[2-], BH4[- ], B(OH) (c,boric acid) B(OH) (aq), H2BO[- ], B(c), B 2O (c), B(OH) (c), B(g) HATCHES B(OH)(aq), B4O7[2- ], BH[4-], H2B 4O 7(aq), H 2BO [-], HB4O 7[-], B 2O, Boric Acid, H BO (c), HBO 2 7
40 .2 B (FACT/FACTSAGE) H 2 BO (H 2 O 2 )[-].2 B (SUPCRT/FLASK-AQ).0.0 H BO (aq) B(OH) (aq) BO 2 [-] BO 2 [-] BH 4 [-] B (LLNL/GWB).2 B (JNC-TDB/GWB).0.0 B(OH) (aq) B(OH) 4 [-] B(OH) (aq) H 2 BO [-] BH 4 [-] : Eh- diagrams of the system B-O-H (). B=0 0, 298.K, 0 Pa. 8
41 .2 B (HATCHES/FLASK-AQ).0 B(OH) (aq) H 2 BO [-] BH[4-] 7 9 : Eh- diagrams of the system B-O-H (2). B=0 0, 298.K, 0 Pa. 9
42 40
43 9: List of Ba species FACT SUPCRT LLNL JNC-TDB Ba[2+], BaOH[+], Ba(s), BaH 2(s), BaO(s), BaO 2(s), Ba(OH) 2(s), Ba(OH) 2(H 2O) 8(s) Ba[2+], BaOH[+] Ba[2+], BaOH[+], Ba(OH) 2*8H 2O(c), BaO(c) Ba[2+], BaOH[+], Ba(c), BaO(c) HATCHES Ba[2+], Ba(OH)[+], Ba(OH) 2*8H 2O, BaO(c) 4
44 .2 Ba (FACT/FACTSAGE).2 Ba (SUPCRT/FLASK-AQ).0 BaO 2 (s).0 Ba[2+] BaOH[+] Ba[2+] BaOH[+] Ba (LLNL/GWB).2 Ba (JNC-TDB/GWB).0.0 Ba[2+] BaOH[+] Ba[2+] BaOH[+] : Eh- diagrams of the system Ba-O-H (). Ba = 0 0, 298.K, 0 Pa. 42
45 .2 Ba (HATCHES/FLASK-AQ).0 Ba[2+] Ba(OH)[+] 7 9 7: Eh- diagrams of the system Ba-O-H (2). Ba = 0 0, 298.K, 0 Pa. 4
46 44
47 0: List of Be species FACT SUPCRT LLNL JNC-TDB Be[2+], BeO2[2-], Be(OH)[+], Be(s), Be(s2), BeO(s), BeO(s2), Be(OH) 2(s), Be(OH) 2(s2) Be[2+], BeO 2[2-], BeOH[+], BeO(aq), HBeO2[-] HATCHES Be[2+], BeOH[+], Be(OH)2(aq), Be(OH)[-], Be(OH)4[2-], Be2(OH)[+], Be(OH)[+], Be(OH)6[4+], Be6(OH)8[4+], Be(OH) 2(alpha), Be(OH) 2(beta) 4
48 .2 Be (FACT/FACTSAGE).2 Be (SUPCRT/FLASK-AQ).0.0 Be[2+] Be[2+] Be(OH) 2 (s2) BeO 2 [2-] BeOH[+] BeO(aq) HBeO 2 [-] Be (LLNL/GWB).2 Be (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Be-O-H (). Be = 0 0, 298.K, 0 Pa. 46
49 .2 Be (HATCHES/FLASK-AQ).0 Be[2+] Be(OH) 2 (aq) Be(OH) [-] 7 9 9: Eh- diagrams of the system Be-O-H (2). Be = 0 0, 298.K, 0 Pa. 47
50 : List of Bi species FACT SUPCRT LLNL JNC-TDB Bi[+], BiO[+], BiOH[2+], Bi6O6[6+], Bi6O 6(OH) [+], Bi9(OH)20[7+], Bi9(OH)2[6+], Bi 9(OH) 22[+], Bi(s), Bi 2O (s), Bi 2O (s2), BiOOH(s) Bi[+], BiO[+], BiOH[2+], HBiO2(aq), BiO2[-] Bi[+], BiOH[2+], Bi(OH) 2[+], Bi(OH)(aq), Bi(OH)4[-], Bi6(OH)2[6+], Bi9(OH)20[7+], Bi 9(OH) 2[6+], Bi 9(OH) 22[+], Bi (OH) 4[+] Bi(c), Bi2O (s) 48
51 .2 Bi (FACT/FACTSAGE).2 Bi (SUPCRT/FLASK-AQ).0.0 Bi[+] Bi[+] BiOH[2+] BiO[+] BiO[+] BiOOH(s) HBiO 2 (aq) Bi(s) BiO 2 [-] Bi (LLNL/GWB).2 Bi (JNC-TDB/GWB).0.0 BiOH[2+] Bi[+] Bi(OH) 2 [+] Bi(OH) (aq) NO DATA Bi(OH) 4 [-] Bi(c) : Eh- diagrams of the system Bi-O-H. Bi = 0 0, 298.K, 0 Pa. 49
52 2: List of Br species FACT SUPCRT LLNL JNC-TDB Br[-], Br2(aq), Br[-], Br[-], BrO[-], BrO[-], HBrO(aq) Br[-], Br [-], BrO[-], BrO[-], HBrO(aq), BrO4[-] Br[-] Br[-], Br 2(aq), Br2(l), BrO[-], BrO[-], HBrO(aq), Br(g), Br2(g), HBr(g) 0
53 .2 Br (FACT/FACTSAGE).2 Br (SUPCRT/FLASK-AQ) BrO 4 [-].0 BrO [-].0 BrO [-] Br[-] Br[-] Br (LLNL/GWB).2 Br (JNC-TDB/GWB).0.0 BrO [-] Br 2 (l) Br[-] Br[-] : Eh- diagrams of the system Br-O-H. Br = 0 0, 298.K, 0 Pa.
54 : List of C species () FACT SUPCRT LLNL JNC-TDB CH4(aq), C 2H 2(aq), C2H4(aq), C2H6(aq), CO(aq), CO2(aq), CO[2-], C2O4[2-], CHOH(aq), C 2H O[-], CHCH 2OH(aq), HCOO[-], HCOOH(aq), CH COO[-], CH COOH(aq), HCO [- ], HC 2O 4[-], C(s), C(s2) CH 4(aq,Methan), C 2H 2 (aq,ethyne), C2H4(aq,Ethylene), C2H6(aq,Ethane), CO(aq), CO2(aq), CO[2-], C 2O 4[2-] (Oxalate), CH OH(aq,Methanol), C 2H OH(aq,Ethanol), HCO 2[-](Formate), H2CO2(aq, Formicacid), C2H O 2[-] (Acetate), C2H4O2(aq,Aceticacid), HCO[-], C2HO4[-](H- Oxalate), C4H9OH (aq,-butanol), C4H8(aq,-Butene), C4H6(aq,-Butyne), C7HOH (aq,-heptanol), C7H4(aq,-Heptene), C7H2(aq,-Heptyne), C6H OH(aq,- Hexanol), C6H 2(aq, -Hexene), C6H0(aq, -Hexyne), C8H 7OH(aq,- Octanol), C8H6(aq, -Octene), C8H4(aq, -Octyne), C H OH(aq,- Pentanol), C H 0(aq, -Pentene), CH8(aq, -Pentyne), CH7OH(aq,- Propanol), CH 6 (aq, -Propene), CH4(aq, -Propyne), C4H 8O(aq,2- Butanone), C7H4O (aq,2-heptanone), C6H2O(aq,2- Hexanone), C4H7O[- ](2- Hydroxybutanoate), C4H 8O (aq,2- Hydroxybutanoic), C0H9O[-] (2- Hydroxydecanoate), C0H20O(aq,2- Hydroxydecanoic), C7HO[-](2- Hydroxyheptanoate), C 7H 4O (aq,2- Hydroxyheptanoic), C6HO[-](2- Hydroxyhexanoate), C6H 2O (aq,2- Hydroxyhexanoic), C9H7O[-](2- Hydroxynonanoate), C9H 8O (aq,2- Hydroxynonanoic), HCO [-], (Ophth)[2-], CHCOO[- ], CH4(aq), CO2(aq), CO[2-], H(O-phth)[-], H2(Ophth), HCHCOO, Graphite, O-phth acid(c), CH4(g), CO2(g) CO [2-], CH 4(aq), HCO[-], CO2(aq), C(c), CH4(g), C(g), CO(g), CO2(g) 2
55 C (CONTINUED) 4: List of C species (2) FACT SUPCRT LLNL JNC-TDB C8HO[-](2- Hydroxyoctanoate), C8H6O(aq,2- Hydroxyoctanoic), CH9O[-](2- Hydroxypentanoate), C H 0O (aq,2- Hydroxypentanoic), C 8H 6O(aq,2- Octanone), CH0O(aq,2- Pentanone), CH6O (aq,acetone), C6H 8O 4[2-] (Adipate), C6H0O4 (aq,adipic-acid), C9H6O4 (aq,azelaicacid), C9H4O4[2-] (Azelate), C6H6(aq, Benzene), C7HO2[-] (Benzoate), C7H6O2(aq,Benzoicacid), C4H 0(aq, Butane), C4H 8O 2(aq, Butanoic-acid), C6H4OHCH(aq,o- Cresol), C6H 4OHCH (aq,m- Cresol), C 6H 4OHCH (aq,p- Cresol), C 0H 9O 2[-] (Decanoate), C0H20O2(aq,Decanoicacid), C6HOHCHCH(aq, 2-DMP), C6HOHCHCH(aq, 2-4DMP), C6HOHCHCH(aq, 2-DMP), C6HOHCHCH(aq, 2-6DMP), C6H OHCH CH (aq, -4DMP), C6HOHCHCH(aq, -DMP), C2H2O2[-] (Dodecanoate), C2H24O2 (aq,dodecanoicacid), CHCOOCH2CH(aq, Ethylacetate), C 6H C 2H (aq, Ethylbenzene), C H 6O 4[2- ](Glutarate), CH8O4 (aq,glutaric-acid), C2HO[- ](Glycolate), C2H 4O (aq,glycolic-acid), C6H9O4[-](H- Adipate), C9HO4[-] (H-Azelate),
56 .2 C (FACT/FACTSAGE).2 C (SUPCRT/FLASK-AQ).0.0 CO 2 (aq) CO 2 (aq) HCO [-] HCO [-] CO [2-] CO [2-] CH 4 (aq) CH 4 (aq) H-SUCCINATE(aq) HEPTANOATE(aq) C (LLNL/GWB).2 C (JNC-TDB/GWB).0.0 CO 2 (aq) HCO [-] CO [2-] CO 2 (aq) HCO [-] CO [2-] CH 4 (aq) CH 4 (aq) : Eh- diagrams of the system C-O-H (). C=0 0, 298.K, 0 Pa. 4
57 .2 C (HATCHES/FLASK-AQ).0 H 2 CO (aq) HCO [-] CO [2-] CH 4 (aq) 7 9 2: Eh- diagrams of the system C-O-H (2). C=0 0, 298.K, 0 Pa.
58 6
59 : List of Ca species FACT SUPCRT LLNL JNC-TDB Ca[2+], CaOH[+], Ca(s), Ca(s2), CaH 2(s), CaO 2(s), Ca(OH) 2(s), CaO(s) Ca[2+], CaOH[+], CaO(Lime) Ca[2+], CaOH[+], Ca(OH) 2(c), Lime, Portlandite Ca[2+], CaOH[+], CaO(s, Lime_qu), Ca(c), CaO(c), Ca(g) HATCHES Ca[2+], Ca(OH)[+], Ca(OH) 2, CaO Remarks JNC-TDB: Detailed description of Lime_qu is not given, it may be lime quenched? 7
60 .2 Ca (FACT/FACTSAGE) CaO 2 (s).2 Ca (SUPCRT/FLASK-AQ).0.0 Ca[2+] Ca[2+] CaOH[+] CaOH[+] Ca (LLNL/GWB).2 Ca (JNC-TDB/GWB).0.0 Ca[2+] CaOH[+] Ca[2+] CaOH[+] : Eh- diagrams of the system Ca-O-H (). Ca = 0 0, 298.K, 0 Pa. 8
61 .2 Ca (HATCHES/FLASK-AQ).0 Ca[2+] Ca(OH)[+] 7 9 2: Eh- diagrams of the system Ca-O-H (2). Ca = 0 0, 298.K, 0 Pa. 9
62 60
63 6: List of Cd species FACT SUPCRT LLNL JNC-TDB Cd[2+], CdO 2[2-], CdOH[+], HCdO2[-], Cd(OH)2(aq), Cd(s), CdO(s), Cd(OH) 2(s) Cd[2+], CdO 2[2-], CdOH[+], HCdO2[-], CdO(aq) HATCHES Cd[2+], Cd(OH)2(aq), Cd(OH)[-], Cd(OH)4[2-], Cd2OH[+], Cd4(OH) 4[4+], CdOH[+], Cd(OH) 2 6
64 .2 Cd (FACT/FACTSAGE).2 Cd (SUPCRT/FLASK-AQ).0.0 Cd[2+] Cd[2+] CdOH[+] Cd(OH) 2 (aq) HCdO 2 [-] CdOH[+] CdO(aq) CdO 2 [2-] HCdO 2 [-] Cd(s) Cd (LLNL/GWB).2 Cd (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Cd-O-H (). Cd = 0 0, 298.K, 0 Pa. 62
65 .2 Cd (HATCHES/FLASK-AQ).0 Cd[2+] Cd(OH)[+] Cd(OH) 2 (aq) Cd(OH) [-] : Eh- diagrams of the system Cd-O-H (2). Cd = 0 0, 298.K, 0 Pa. 6
66 64
67 7: List of Ce species FACT SUPCRT LLNL JNC-TDB Ce[+], Ce[4+], Ce(s), Ce(s2), CeH 2(s), CeO 2(s), Ce 2O (s), Ce 6O (s), Ce 8O (s) Ce[+], Ce[4+], Ce[2+], CeOH[2+], CeO[+], CeO2H (aq), CeO2[-] HATCHES Ce[+], Ce 2(OH)2[4+], Ce(OH)[4+], CeOH[2+], Ce(OH), Ce 2O 6
68 .2 Ce (FACT/FACTSAGE).2 Ce (SUPCRT/FLASK-AQ).0.0 Ce[+] CeO 2 (s) Ce[+] CeO[+] CeO 2 H(aq) CeO 2 [-] Ce (LLNL/GWB).2 Ce (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Ce-O-H (). Ce = 0 0, 298.K, 0 Pa. 66
69 .2 Ce (HATCHES/FLASK-AQ).0 Ce[+] CeOH[2+] Ce(OH) (s) : Eh- diagrams of the system Ce-O-H (2). Ce = 0 0, 298.K, 0 Pa. 67
70 8: List of Cl species FACT SUPCRT LLNL JNC-TDB Cl2(aq), Cl [-], ClO2(aq), Cl[-], ClO[-], ClO2[-], ClO[-], ClO4[-], HOCl(aq), HClO2(aq) Cl[-], ClO[-], ClO 2[-], ClO[-], ClO4[-], HClO(aq), HClO2(aq), HCl(aq) Cl[-], ClO 4[-], HCl(aq) Cl[-], ClO[-], ClO2[-], ClO[-], ClO4[-], HClO(aq), HClO2(aq), Cl(g), Cl2(g), HCl(g) 68
71 .2 Cl (FACT/FACTSAGE).2 Cl (SUPCRT/FLASK-AQ).0 ClO 4 [-].0 ClO 4 [-] Cl[-] Cl[-] Cl (LLNL/GWB).2 Cl (JNC-TDB/GWB).0 ClO 4 [-].0 ClO 4 [-] Cl[-] Cl[-] : Eh- diagrams of the system Cl-O-H. Cl = 0 0, 298.K, 0 Pa. 69
72 70
73 9: List of Cm species FACT SUPCRT LLNL JNC-TDB Cm[+], CmOH[2+], Cm(OH)2[+], Cm(OH)(aq), Cm(OH) (am), Cm(OH) (c) HATCHES Cm[+], Cm[4+], Cm(OH)[2+], Cm(OH)2[+], Cm(OH), Cm 2O, CmO 2 7
74 .2 Cm (FACT/FACTSAGE).2 Cm (SUPCRT/FLASK-AQ).0.0 NO DATA NO DATA Cm (LLNL/GWB).2 Cm (JNC-TDB/GWB).0.0 NO DATA Cm[+] Cm(OH) 2 [+] CmOH[2+] Cm(OH) (c) : Eh- diagrams of the system Cm-O-H (). Cm = 0 0, 298.K, 0 Pa. 72
75 .2 Cm (HATCHES/FLASK-AQ).0 CmO 2 (s) Cm[+] Cm(OH)[2+] Cm(OH) 2 [+] Cm(OH) (s) 7 9 2: Eh- diagrams of the system Cm-O-H (2). Cm = 0 0, 298.K, 0 Pa. 7
76 74
77 20: List of Co species FACT SUPCRT LLNL JNC-TDB Co[2+], Co[+], HCoO2[-], Co(OH)2(aq), Co(s), Co(s2), CoO(s), Co O 4(s), Co(OH) 2(s) Co[2+], Co[+], HCoO 2[-], CoO(aq), CoOH[+], CoO2[2-], CoOH[2+] Co[2+], Co[+], Co(OH) 2(aq), Co(OH)[-], Co(OH)4[2-], Co2(OH)[+], Co4(OH) 4[4+], CoOH[+], HCoO 2[-], Co(OH) 2(s,pink), Co O 4, CoO Co[2+], CoO(s, COBALTO2) HATCHES Co[2+], Co[+], Co(OH)2(aq), Co(OH)[-], Co(OH)4[2-], Co2OH[+], Co4(OH)4[4+], CoOH[+], Co(OH) 2, Co O 4, CoO 7
78 .2 Co (FACT/FACTSAGE).2 Co (SUPCRT/FLASK-AQ).0.0 Co(OH) 2 (aq) Co[2+] HCoO 2 [-] CoO(aq) Co (LLNL/GWB).2 Co (JNC-TDB/GWB) Co O 4 (s).0.0 Co[2+] HCoO 2 [-] Co[2+] COBALTO 2 (s) : Eh- diagrams of the system Co-O-H (). Co = 0 0, 298.K, 0 Pa. 76
79 .2 Co (HATCHES/FLASK-AQ).0 Co O 4 (s) Co[2+] Co(OH) 2 (aq) Co(OH) [-] 7 9 4: Eh- diagrams of the system Co-O-H (2). Co = 0 0, 298.K, 0 Pa. 77
80 78
81 2: List of Cr species FACT SUPCRT LLNL JNC-TDB Cr[2+], Cr[+], CrO4[2-], Cr2O7[2-], CrOH[2+], HCrO4[-], Cr(s), CrO 2(s), CrO (s), Cr 2O (s), Cr O 4(s), Cr O 2(s), Cr 8O 2(s) Cr[2+], Cr[+], CrO 4[2-], Cr2O7[2-], CrOH[2+], HCrO4[-], HCrO2(aq), CrO 2[-], CrO[+] Cr[+], Cr[2+], CrO 4[2-], CrO4[-], Cr(OH)2[+], Cr(OH)(aq), Cr(OH)4[-], Cr2(OH) 2[4+], Cr 2O 7[2-], Cr (OH) 4[+], CrOH[2+], H2CrO4(aq), HCrO4[- ], Cr 2O (s), CrO 2(s), CrO (s) HATCHES Cr[+], Cr[2+], CrO4[2-], Cr(OH)2[+], Cr(OH)(aq), Cr(OH)4[-], Cr2(OH) 2[4+], Cr2O 7[2-], Cr(OH)4[4+], CrOH[2+], H 2CrO 4(aq), HCrO 4[- ], Cr(OH), Cr 2O, CrO 2 79
82 .2 Cr (FACT/FACTSAGE).2 Cr (SUPCRT/FLASK-AQ).0.0 HCrO 4 [-] HCrO 4 [-] Cr[+] CrO 4 [2-] Cr[+] CrOH[2+] CrO 4 [2-] CrOH[2+] CrO[+] Cr 2 O (s) HCrO 2 (aq) CrO2[-] Cr[2+] Cr[2+] Cr (LLNL/GWB).2 Cr (JNC-TDB/GWB).0.0 HCrO 4 [-] CrO 4 [2-] Cr[+] NO DATA CrOH[2+] CrO 4 [-] Cr 2 O (s) Cr[2+] Cr(OH) 4 [-] : Eh- diagrams of the system Cr-O-H (). Cr = 0 0, 298.K, 0 Pa. 80
83 .2.0 Cr (HATCHES/FLASK-AQ) HCrO 4 [-] CrO 4 [2-] Cr[+] Cr 2 O (s) Cr[2+] 7 9 6: Eh- diagrams of the system Cr-O-H (2). Cr = 0 0, 298.K, 0 Pa. 8
84 82
85 22: List of Cs species FACT SUPCRT LLNL JNC-TDB Cs[+], Cs(s), CsO 2(s), Cs 2O(s), Cs 2O (s), CsOH(s), CsOH(s2), CsOH(s) Cs[+], CsOH(aq) Cs[+] Cs[+], Cs(c), Cs 2O(s), CsOH(s), Cs(g) HATCHES Cs[+], CsO, CsOH 8
86 .2 Cs (FACT/FACTSAGE).2 Cs (SUPCRT/FLASK-AQ).0 CsO 2 (s).0 Cs[+] Cs[+] Cs (LLNL/GWB).2 Cs (JNC-TDB/GWB).0.0 Cs[+] Cs[+] : Eh- diagrams of the system Cs-O-H (). Cs = 0 0, 298.K, 0 Pa. 84
87 .2 Cs (HATCHES/FLASK-AQ).0 Cs[+] 7 9 8: Eh- diagrams of the system Cs-O-H (2). Cs = 0 0, 298.K, 0 Pa. 8
88 86
89 2: List of Cu species FACT SUPCRT LLNL JNC-TDB Cu[+], Cu[2+], CuO2[2-], HCuO 2[-], Cu(OH) 2(s), Cu (s), CuO(s), Cu 2O(s) Cu[+], Cu[2+], CuO 2[2-], HCuO 2[-], CuOH[+], CuO(aq), Cu(Native Copper), CuO(Tenorite), Cu 2O (Cuprite) Cu[+], Cu[2+], CuOH[+], Copper, Cuprite, Tenorite HATCHES Cu[2+], Cu[+], Cu(OH)4[2-], Cu2(OH) 2[2+], Copper, Cuprite, Tenorite 87
90 .2 Cu (FACT/FACTSAGE).2 Cu (SUPCRT/FLASK-AQ).0.0 Cu[2+] Cu[2+] Cu(OH) 2 (s) HCuO 2 [-] CuO(aq) CuO 2 [2-] Cu[+] Cu 2 O(s) CuO 2 [2-] Cu[+] HCuO 2 [-] Cuprite Cu(s) Cu(s) Cu (LLNL/GWB).2 Cu (JNC-TDB/GWB).0.0 Cu[2+] CuOH[+] Tenorite NO DATA Cu[+] Cuprite Copper : Eh- diagrams of the system Cu-O-H (). Cu = 0 0, 298.K, 0 Pa. 88
91 .2 Cu (HATCHES/FLASK-AQ).0 Cu[2+] Tenorite Cu(OH) 4 [2-] Cu[+] Cuprite Copper : Eh- diagrams of the system Cu-O-H (2). Cu = 0 0, 298.K, 0 Pa. 89
92 24: List of Dy species FACT SUPCRT LLNL JNC-TDB Dy[+], Dy(s), Dy(s2), Dy 2O (s) Dy[+], Dy[2+], Dy[4+], DyOH[2+], DyO[+], DyO 2H(aq), DyO 2[-] 90
93 .2 Dy (FACT/FACTSAGE).2 Dy (SUPCRT/FLASK-AQ).0.0 Dy[+] Dy[+] Dy 2 O (s) DyOH[2+] DyO[+] DyO 2 [-] Dy (LLNL/GWB).2 Dy (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Dy-O-H. Dy = 0 0, 298.K, 0 Pa. 9
94 2: List of Er species FACT SUPCRT LLNL JNC-TDB Er[+], Er(s), Er 2O (s), Er 2O (s2) Er[+], Er[2+], Er[4+], ErOH[2+], ErO[+], ErO 2H(aq), ErO 2[-] 92
95 .2 Er (FACT/FACTSAGE).2 Er (SUPCRT/FLASK-AQ).0.0 Er[+] Er 2 O (s) Er[+] ErOH[2+] ErO[+] ErO 2 [-] Er (LLNL/GWB).2 Er (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Er-O-H. Er = 0 0, 298.K, 0 Pa. 9
96 94
97 26: List of Eu species FACT SUPCRT LLNL JNC-TDB Eu[2+], Eu[+], Eu(s), EuH 2(s), EuO(s), Eu 2O (s), Eu 2O (s2), Eu O 4(s), EuO H (s) Eu[2+], Eu[+], Eu[4+], EuOH[2+], EuO[+], EuO 2H(aq), EuO 2[-] Eu[+], Eu[2+], Eu(OH) 2[+], EuOH[2+], Eu(s), Eu(OH) (s), Eu 2O (cubic), Eu 2O (monoclinic), Eu O 4(s), EuO(s) HATCHES Eu[+], Eu(OH)[2+], Eu, Eu(OH), Eu 2O (cubic), Eu 2O (monoclinic), Eu O 4, EuO 9
98 .2 Eu (FACT/FACTSAGE).2 Eu (SUPCRT/FLASK-AQ).0.0 Eu[+] EuO H (s) Eu[+] EuOH[2+] EuO[+] EuO2[-] Eu[2+] Eu[2+] Eu (LLNL/GWB).2 Eu (JNC-TDB/GWB).0.0 Eu[+] Eu(OH)2[+] Eu(OH)(s) NO DATA Eu[2+] : Eh- diagrams of the system Eu-O-H (). Eu = 0 0, 298.K, 0 Pa. 96
99 .2 Eu (HATCHES/FLASK-AQ).0 Eu[+] Eu(OH)[2+] Eu(OH) (s) : Eh- diagrams of the system Eu-O-H (2). Eu = 0 0, 298.K, 0 Pa. 97
100 98
101 27: List of F species FACT SUPCRT LLNL JNC-TDB F[-], HF(aq), HF2[-] F[-], HF(aq), HF2[-] F[-], H2F2, HF, HF2[-] F-, HF(aq), HF 2[-], F(g), F2(g), HF(g) HATCHES F[-], HF(aq), HF2[-] 99
102 .2 F (FACT/FACTSAGE).2 F (SUPCRT/FLASK-AQ).0.0 HF(aq) F[-] HF(aq) F[-] F (LLNL/GWB).2 F (JNC-TDB/GWB).0.0 HF F[-] HF(aq) F[-] : Eh- diagrams of the system F-O-H (). F=0 0, 298.K, 0 Pa. 00
103 .2 F (HATCHES/FLASK-AQ).0 HF(aq) F[-] : Eh- diagrams of the system F-O-H (2). F=0 0, 298.K, 0 Pa. 0
104 02
105 28: List of Fe species FACT SUPCRT LLNL JNC-TDB Fe[2+], Fe[+], FeOH[+], FeOH[2+], HFeO2[-], Fe(OH)2[+],FeO2[2- ], Fe(OH)(aq), Fe2(OH)2[4+], Fe(s), Fe(s2), Fe 2O (s2), Fe 2O (s), Fe O 4(s2), Fe O 4(s), Fe O 4(s4), Fe(OH) 2(s), Fe(OH) (s), Fe 2O (H 2O)(s), FeO (s), Fe 2O (s), Fe O 4(s) HFeO 2(aq), FeO 2[-], FeO(aq), Fe[2+], Fe[+], FeOH[+], FeOH[2+], HFeO2[-], FeO[+], FeO (Ferrous-oxide), Fe 2O (Hematite), Fe O 4(Magnetite) Fe[2+], Fe[+], Fe(OH) 2(aq), Fe(OH)2[+], Fe(OH)(aq), Fe(OH)[-], Fe(OH)4[-], Fe 2(OH) 2[4+], Fe (OH) 4[+], FeOH[+], FeOH[2+], Fe(OH) 2(ppd), Fe(OH) (ppd), FeO(c) Goethite, Hematite, Magnetite, Wustite Fe[2+], Fe[+], FeOH[2+], Fe(OH) 2[+], Fe(OH)(aq), FeOH4[-], Fe2(OH)2[4+], Fe (OH) 4[+], FeOH[+], Fe(OH) 2(aq), Fe(OH)[-], Fe(OH) (a) Hematite, Magnetite, Goethite HATCHES Fe[2+], Fe[+], Fe(OH)[+], Fe(OH)2(aq), Fe(OH)2[+], Fe(OH)(aq), Fe(OH)[-], Fe(OH)4[-], Fe(OH) 4[2-], Fe 2(OH) 2[4+], Fe (OH) 4[+], FeOH[2+], Fe(OH)2, Fe(OH), FeO(c), Goethite, Hematite, Magnetite, Wustite 0
106 .2 Fe (FACT/FACTSAGE).2 Fe (SUPCRT/FLASK-AQ).0 Fe[+] FeOH[2+].0 Fe[+] FeOH[2+] FeO[+] Fe2O(s) Fe[2+] Fe 2 O (s) Fe[2+] FeO2[-] FeOH[+] Fe O 4 (s) FeOH[+] HFeO 2 [-] HFeO2[-] Fe(s) Fe (LLNL/GWB).2 Fe (JNC-TDB/GWB).0 Fe[+] FeOH[2+] Fe(OH) 2 [+].0 Fe[+] FeOH[2+] Fe[2+] Hematite Fe(OH) 4 [-] Fe[2+] Hematite FeOH 4 [-] Magnetite Magnetite 7 9 Fe(OH) [-] FeOH[+] FeO(c) 7 9 FeOH[+] FeOH [-] 47: Eh- diagrams of the system Fe-O-H (). Fe = 0 0, 298.K, 0 Pa. 04
107 .2 Fe (HATCHES/FLASK-AQ).0 Fe[+] FeOH[2+] Fe(OH) 2 [+] Fe[2+] Hematite Fe(OH) 4 [-] Magnetite Fe(OH) [-] : Eh- diagrams of the system Fe-O-H (2). Fe = 0 0, 298.K, 0 Pa. 0
108 29: List of Fr species FACT SUPCRT LLNL JNC-TDB Fr[+] 06
109 .2 Fr (FACT/FACTSAGE).2 Fr (SUPCRT/FLASK-AQ).0.0 NO DATA Fr[+] Fr (LLNL/GWB).2 Fr (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Fr-O-H. Fr = 0 0, 298.K, 0 Pa. 07
110 0: List of Ga species FACT SUPCRT LLNL JNC-TDB Ga[+], GaOH[2+], Ga(OH)2[+], H 2GaO [- ],Ga[2+], GaO[-], HGaO2[2-], Ga(s), Ga 2O (s), Ga(OH) (s) Ga[+], GaOH[2+], GaO[+], GaO 2[-], HGaO2(aq) 08
111 .2 Ga (FACT/FACTSAGE).2 Ga (SUPCRT/FLASK-AQ).0 Ga[+] GaOH[2+] Ga 2 O (s) H 2 GaO [-].0 Ga(OH) 2 [+] GaO [-] HGaO 2 [2-] Ga[+] GaOH[2+] GaO[+] HGaO 2 (aq) GaO 2 [-] Ga (LLNL/GWB).2 Ga (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Ga-O-H. Ga = 0 0, 298.K, 0 Pa. 09
112 : List of Gd species FACT SUPCRT LLNL JNC-TDB Gd[+], Gd(s), Gd(s2), Gd 2O (s) Gd[+], Gd[4+], Gd[2+], GdOH[2+], GdO[+], GdO2H(aq), GdO2[-] 0
113 .2 Gd (FACT/FACTSAGE).2 Gd (SUPCRT/FLASK-AQ).0.0 GdOH[2+] Gd[+] Gd[+] Gd 2 O (s) GdO[+] GdO 2 H(aq) GdO 2 [-] Gd (LLNL/GWB).2 Gd (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Gd-O-H. Gd = 0 0, 298.K, 0 Pa.
114 2: List of Ge species FACT SUPCRT LLNL JNC-TDB HGeO [-], Ge(s), GeO(s), GeO(s2), GeO 2(s), GeO 2(s2) 2
115 .2 Ge (FACT/FACTSAGE).2 Ge (SUPCRT/FLASK-AQ).0.0 HGeO [-] NO DATA Ge(s) Ge (LLNL/GWB).2 Ge (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Ge-O-H. Ge = 0 0, 298.K, 0 Pa.
116 : List of Hf species FACT SUPCRT LLNL JNC-TDB Hf(s), Hf(s2), HfO 2(s), HfO 2(s2) Hf[4+], HfOH[+], HfO[2+], HHfO2[+], HfO2(aq), HHfO[-] 4
117 .2 Hf (FACT/FACTSAGE).2 Hf (SUPCRT/FLASK-AQ).0.0 Hf[4+] HfOH[+] HfO[2+] NO AQUEOUS SPECIES DATA HHfO 2 [-] HfO 2 (aq) HHfO [-] Hf (LLNL/GWB).2 Hf (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Hf-O-H. Hf = 0 0, 298.K, 0 Pa.
118 6
119 4: List of Hg species FACT SUPCRT LLNL JNC-TDB Hg[2+], Hg 2[2+], HgOH[+], HHgO2[-], Hg(OH)2, Hg(aq), HgO(s) Hg[2+], Hg 2[2+], HgOH[+], HHgO2[-], HgO(aq), Hg(Quicksilver) Hg[2+], Hg 2[2+], Quicksilver HATCHES Hg[2+], Hg(OH)2(aq), Hg(OH)[-], Hg2OH[+], Hg(OH)[+], HgOH[+], HgO, Quicksilver 7
120 .2 Hg (FACT/FACTSAGE).2 Hg (SUPCRT/FLASK-AQ).0.0 Hg[2+] Hg[2+] Hg(OH) 2 (aq) Hg 2 [2+] HgO(aq) Hg(aq) Hg(s) Hg (LLNL/GWB).2 Hg (JNC-TDB/GWB).0.0 Hg[2+] Hg 2 [2+] NO DATA Quicksilver : Eh- diagrams of the system Hg-O-H (). Hg = 0 0, 298.K, 0 Pa. 8
121 .2 Hg (HATCHES/FLASK-AQ).0 Hg[2+] Hg(OH) 2 (aq) Quicksilver 7 9 : Eh- diagrams of the system Hg-O-H (2). Hg = 0 0, 298.K, 0 Pa. 9
122 : List of Ho species FACT SUPCRT LLNL JNC-TDB Ho[+], Ho(s), Ho(s2), Ho 2O (s), Ho 2O (s2) Ho[+], Ho[4+], Ho[2+], HoOH[2+], HoO[+], HoO2H(aq), HoO2[-] 20
123 .2 Ho (FACT/FACTSAGE).2 Ho (SUPCRT/FLASK-AQ).0.0 Ho[+] Ho[+] Ho 2 O (s) HoOH[2+] HoO[+] HoO 2 H(aq) Ho 2 [-] Ho (LLNL/GWB).2 Ho (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Ho-O-H. Ho = 0 0, 298.K, 0 Pa. 2
124 22
125 6: List of I species FACT SUPCRT LLNL JNC-TDB I[-], I[-], IO[-], IO[-], HIO(aq), HIO(aq), I2 (aq), H2OI[+], I2OH[-], I 2(s) I[-], I [-], IO[-], IO[-], HIO(aq), HIO(aq), IO4[-] I[-] I[-], IO [-], HIO(aq), I [-], IO[-], IO4[-], I2O[2-], HIO(aq), I2OH[-],I2(aq), HI(aq), H2OI[-], I 2(s), I 2(c), I(g), I 2(g), HI(g) HATCHES I[-], IO[-], H2IO[+], HI(aq), HIO(aq), HIO(aq), I2(aq), I2O[2-], I2OH[-], I[-], IO[-], IO4[-], I 2 Remarks JNC-TDB: I2(s) is originally given as I2 in the database file, but its detailed description is not given. Then (s) is appended to I2 to avoid confusion with I2(c). 2
126 .2.0 I (FACT/FACTSAGE) HIO (aq) H 2 OI[+].2.0 I (SUPCRT/FLASK-AQ) HIO (aq) HIO(aq) IO 4 [-] I 2 OH[-] IO [-] IO [-] I[-] I[-] I (LLNL/GWB).2.0 I (JNC-TDB/GWB) HIO (aq) HIO(aq) I 2 (aq) IO 4 [-] I 2 OH[-] IO [-] I[-] I[-] : Eh- diagrams of the system I-O-H (). I=0 0, 298.K, 0 Pa. 24
127 .2.0 I (HATCHES/FLASK-AQ) HIO (aq) HIO(aq) H 2 IO[+] I 2 OH[-] IO 4 [-] IO [-] I[-] 7 9 8: Eh- diagrams of the system I-O-H (2). I=0 0, 298.K, 0 Pa. 2
128 7: List of In species FACT SUPCRT LLNL JNC-TDB In[+], InOH[2+], In(OH)2[+], In[+], In[2+], In(s), In 2O (s), In 2O (s2) In[+], InOH[2+], InO[+], HInO 2(aq), InO2[-] 26
129 .2 In (FACT/FACTSAGE).2 In (SUPCRT/FLASK-AQ).0.0 In[+] InOH[2+] In(OH) 2 [+] In 2 O (s) In[+] InO[+] HInO 2 (aq) InO 2 [-] In[+] In(s) In (LLNL/GWB).2 In (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system In-O-H. In = 0 0, 298.K, 0 Pa. 27
130 28
131 8: List of K species FACT SUPCRT LLNL JNC-TDB K[+], K(s), KH(s), KO 2(s), K 2O(s), K 2O 2(s), KOH(s), KOH(s2) K[+], KOH(aq), K 2O (Potassium-oxide) K[+], KOH(aq) K[+], K(c), K(g) HATCHES K[+], KOH 29
132 .2 K (FACT/FACTSAGE).2 K (SUPCRT/FLASK-AQ).0 KO 2 (s).0 K[+] K[+] K (LLNL/GWB).2 K (JNC-TDB/GWB).0.0 K[+] K[+] : Eh- diagrams of the system K-O-H (). K=0 0, 298.K, 0 Pa. 0
133 .2 K (HATCHES/FLASK-AQ).0 K[+] 7 9 6: Eh- diagrams of the system K-O-H (2). K=0 0, 298.K, 0 Pa.
134 2
135 9: List of La species FACT SUPCRT LLNL JNC-TDB La[+], La(s), La(s2), La(s), LaH 2(s), La 2O (s) La[+], La[2+], LaOH[2+], LaO[+], LaO2H(aq), LaO 2[-] HATCHES La[+], La 2OH[+], La(OH) 9[6+], LaOH[2+], La(OH)
136 .2 La (FACT/FACTSAGE).2 La (SUPCRT/FLASK-AQ).0.0 La[+] La[+] LaOH[2+] LaO[+] LaO 2 H(aq) LaO 2 [-] La (LLNL/GWB).2 La (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system La-O-H (). La = 0 0, 298.K, 0 Pa. 4
137 .2 La (HATCHES/FLASK-AQ).0 La[+] LaOH[2+] La(OH) (s) 7 9 6: Eh- diagrams of the system La-O-H (2). La = 0 0, 298.K, 0 Pa.
138 6
139 40: List of Li species FACT SUPCRT LLNL JNC-TDB Li[+], LiOH(aq), Li(s), LiH(s), Li 2O(s), Li 2O 2(s), LiOH(s) Li[+], LiOH(aq) Li[+], LiOH(aq) Li[+] HATCHES Li[+] 7
140 .2 Li (FACT/FACTSAGE).2 Li (SUPCRT/FLASK-AQ).0.0 Li[+] LiOH(aq) Li[+] LiOH(aq) Li (LLNL/GWB).2 Li (JNC-TDB/GWB).0.0 Li[+] Li[+] LiOH(aq) : Eh- diagrams of the system Li-O-H (). Li = 0 0, 298.K, 0 Pa. 8
141 .2 Li (HACHES/FLASK-AQ).0 Li[+] 7 9 6: Eh- diagrams of the system Li-O-H (2). Li = 0 0, 298.K, 0 Pa. 9
142 Lu[+], Lu(s), Lu 2O (s) 4: List of Lu species FACT SUPCRT LLNL JNC-TDB Lu[+], Lu[4+], LuOH[2+], LuO[+], LuO2H(aq), LuO2[-] 40
143 .2 Lu (FACT/FACTSAGE).2 Lu (SUPCRT/FLASK-AQ).0.0 Lu[+] Lu[+] Lu 2 O (s) LuOH[2+] LuO[+] LuO 2 [-] Lu (LLNL/GWB).2 Lu (JNC-TDB/GWB).0.0 NO DATA NO DATA : Eh- diagrams of the system Lu-O-H. Lu = 0 0, 298.K, 0 Pa. 4
144 42
145 42: List of Mg species FACT SUPCRT LLNL JNC-TDB Mg[2+], MgOH[+], Mg(s), MgH 2(s), MgO(s), Mg(OH) 2(s) Mg[2+], MgOH[+], MgO(Periclase), Mg(OH) 2(Brucite) Mg[2+], Mg 2OH[+], Mg4(OH)4[4+], MgOH[+], Brucite Mg[2+], MgOH[+], Periclase HATCHES Mg[2+], MgOH[+], Mg(OH) 2 4
146 .2 Mg (FACT/FACTSAGE).2 Mg (SUPCRT/FLASK-AQ).0.0 Mg[2+] MgOH[+] Mg[2+] MgOH[+] Mg (LLNL/GWB).2 Mg (JNC-TDB/GWB).0.0 Mg[2+] MgOH[+] Mg[2+] MgOH[+] : Eh- diagrams of the system Mg-O-H (). Mg = 0 0, 298.K, 0 Pa. 44
1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e
No. 1 1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e I X e Cs Ba F Ra Hf Ta W Re Os I Rf Db Sg Bh
03J_sources.key
Radiation Detection & Measurement (1) (2) (3) (4)1 MeV ( ) 10 9 m 10 7 m 10 10 m < 10 18 m X 10 15 m 10 15 m ......... (isotope)...... (isotone)......... (isobar) 1 1 1 0 1 2 1 2 3 99.985% 0.015% ~0% E
36 th IChO : - 3 ( ) , G O O D L U C K final 1
36 th ICh - - 5 - - : - 3 ( ) - 169 - -, - - - - - - - G D L U C K final 1 1 1.01 2 e 4.00 3 Li 6.94 4 Be 9.01 5 B 10.81 6 C 12.01 7 N 14.01 8 16.00 9 F 19.00 10 Ne 20.18 11 Na 22.99 12 Mg 24.31 Periodic
1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合
1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合の実効線 務従事者 区域外の 区域外の 量係数 量係数 の呼吸す 空気中の 水中の濃 る空気中 濃度限度
RAA-05(201604)MRA対応製品ver6
M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構
2_R_新技術説明会(佐々木)
% U: 6.58%, Np, Am:.5%, Pu:.% 5.8% Cs 6.5% Sr %.9%Mo 8.74% Tc.9% TODA C 8 H 7 C 8 H 7 N CH C CH N CH O C C 8 H 7 O N MIDOA C 8 H 7 DOODA NTA + HN(C 8 H 7 ) + H O DCC + SOCl + HN(C 8 H 7 ) + Cl TODA (TODA)
元素分析
: このマークが付してある著作物は 第三者が有する著作物ですので 同著作物の再使用 同著作物の二次的著作物の創作等については 著作権者より直接使用許諾を得る必要があります (PET) 1 18 1 18 H 2 13 14 15 16 17 He 1 2 Li Be B C N O F Ne 3 4 5 6 7 8 9 10 Na Mg 3 4 5 6 7 8 9 10 11 12 Al Si P
RN201602_cs5_0122.indd
ISSN 1349-1229 No.416 February 2016 2 SPECIAL TOPIC113 SPECIAL TOPIC 113 FACE Mykinso 113 SPECIAL TOPIC IUPAC 11320151231 RI RIBFRILAC 20039Zn30 Bi83 20047113 20054201283 113 1133 Bh107 20082009 113 113
2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
H1-H4
42 S H He Li H He Li Be B C N O F Ne Be B C N O F Ne H He Li Be B H H e L i Na Mg Al Si S Cl Ar Na Mg Al Si S Cl Ar C N O F Ne Na Be B C N O F Ne Na K Sc T i V C r K Sc Ti V Cr M n F e C o N i Mn Fe Mg
K 吸収端 XAFS 用標準試料 Ti Ti-foil 金属箔 縦 1.3 cm 横 1.3 cm 厚さ 3 µm TiO2 anatase ペレット φ 7 mm 厚さ 0.5 mm 作製日 TiO2 rutile ペレット φ 7 mm 厚さ 0.5 mm 作製日 2017.
あいち SR BL5S1 硬 X 線 XAFS ビームライン Ⅰ 標準試料リスト 周期表のリンクをクリックすると 各元素の標準試料リストに飛びます 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 H He Li Be B C N O F Ne Na Mg Al Si P S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga
MP-AES ICP-QQQ Agilent 5100 ICP-OES Agilent 5100 (SVDV) ICP-OES (DSC) 1 5100 SVDV ICP-OES VistaChip II CCD Agilent 7900 ICP-MS 7700 / 10 7900 ICP-MS ICP-MS FTIR Agilent 7900 ICP-MS Agilent Cary 7000 (UMS)
IS(A3) 核データ表 ( 内部転換 オージェ電子 ) No.e1 By IsoShieldJP 番号 核種核種半減期エネルギー放出割合核種番号通番数値単位 (kev) (%) 核崩壊型 娘核種 MG H β-/ce K A
IS(A3)- 284 - No.e1 核種核種半減期エネルギー放出割合核種通番数値単位 (kev) (%) 1 1 1 MG-28 20.915 H 29.08 27.0000 β-/ce K Al-28 2 1 2 MG-28 20.915 H 30.64 2.6000 β-/ce L Al-28 3 2 1 SC-44M 58.6 H 270.84 0.0828 EC/CE CA-44 4 2
物理化学I-第12回(13).ppt
I- 12-1 11 11.1 2Mg(s) + O 2 (g) 2MgO(s) [Mg 2+ O 2 ] Zn(s) + Cu 2+ (aq) Zn 2+ (aq) + Cu(s) - 2Mg(s) 2Mg 2+ (s) + 4e +) O 2 (g) + 4e 2O 2 (s) 2Mg(s) + O 2 (g) 2MgO(s) Zn(s) Zn 2+ (aq) + 2e +) Cu 2+ (aq)
PowerPoint プレゼンテーション
2004 3 3 2 3 4 5 6 7 8 9 10 T. Ito, A. Yamamoto, et al., J. Chem. Soc., Chem. Commun., 136 (1974) J. Chem. Soc., Dalton Trans., 1783 (1974) J. Chem. Soc., Dalton Trans., 1398 (1975) 11 T.Ito, A. Yamamoto,
あいち SR 硬 X 線 XAFS ビームライン参照試料リスト 周期表のリンクをクリックすると 各元素の参照試料リストに飛びます H He Li Be B C N O F Ne Na Mg Al Si P S
あいち SR 硬 X 線 XAFS ビームライン参照試料リスト 周期表のリンクをクリックすると 各元素の参照試料リストに飛びます 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 H He Li Be B C N O F Ne Na Mg Al Si P S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se
hv (%) (nm) 2
HOLLOW CATHODE LAMPS hv 1 2 1 8 5 3 4 6 (%) 6 4 7 8 2 16 2 24 28 32 36 4 44 (nm) 2 1 328.7 346.5 Ag 47-47NB(AG) 338.28 1 2 Re 75-75NB(RE) 346.47 2 25 39.27 343.49 Al 13-13NB(AL) 396.15 1 2 Rh 45-45NB(RH)
CuSO POINT S 2 Ni Sn Hg Cu Ag Zn 2 Cu Cu Cu OH 2 Cu NH CuSO 4 5H 2O Ag Ag 2O Ag 2CrO4 Zn ZnS ZnO 2+ Fe Fe OH 2 Fe 3+ Fe OH 3 2 Cu Cu OH 2 Ag Ag
CuSO POINT S 2 Ni Sn Hg Cu Ag Zn 2 CuCu Cu OH 2 Cu NH 3 4 2 CuSO 4 5H 2O AgAg 2O Ag 2CrO4 ZnZnS ZnO 2+ Fe Fe OH 2 Fe 3+ Fe OH 3 2 Cu Cu OH 2 Ag Ag 2O Cl Cl AgCl PbCl 2 Ag Cl AgCl Pb 2 2Cl PbCl2 Cl Hg22
10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph
10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph Cd 2+ Ca 2+ - Cr(OH) 4 ph ph ph ph 6 CrO 2-4 AsO 3-4 ph 9 Cd 2+ ph 6 ph 9 ph 6 9 ph B(OH) - 4 ph B(OH) 3 ph ph B(OH) - 4 ph soil organic matter ph ph ph ph 2,4-D ph 2,4-D
CRA3689A
AVIC-DRZ90 AVIC-DRZ80 2 3 4 5 66 7 88 9 10 10 10 11 12 13 14 15 1 1 0 OPEN ANGLE REMOTE WIDE SET UP AVIC-DRZ90 SOURCE OFF AV CONTROL MIC 2 16 17 1 2 0 0 1 AVIC-DRZ90 2 3 4 OPEN ANGLE REMOTE SOURCE OFF
希少金属資源 -新たな段階に入った資源問題-
H 耐用 TMR 占有増大 Li 94.5 4CL 0 Na 56 0 K 800 6CA 99 Rb 0. Cs 0.0 Fr Be.5 86US 4 Mg 5500 0.07 8CN 5 Ca 0.09 7 Sr 0.5 48ES Ba 0.5 47 Ra Sc. Y 6.7 7 (Ln) 800-97CN 6 (An) Center for Strategic Material NIMS,Japan
登録プログラムの名称 登録番号 初回登録日 最新交付日 登録された事業所の名称及び所在地 問い合わせ窓口 JCSS JCSS 年 12 月 1 日 2018 年 5 月 23 日公益社団法人日本アイソトープ協会川崎技術開発センター 神奈川県川崎市川崎区殿町三丁目
登録プログラムの名称 登録番号 初回登録日 最新交付日 登録された事業所の名称及び所在地 問い合わせ窓口 JCSS JCSS0061 1995 年 12 月 1 日 2018 年 5 月 23 日公益社団法人日本アイソトープ協会川崎技術開発センター 210-0821 神奈川県川崎市川崎区殿町三丁目 25 番 20 号法人番号 7010005018674 研究開発課 Tel: 044-589-5494
untitled
NPO 2006( ) 11 14 ( ) (2006/12/3) 1 50% % - - (CO+H2) ( ) 6 44 1) --- 2) ( CO H2 ) 2 3 3 90 3 3 2 3 2004 ( ) 1 1 4 1 20% 5 ( ) ( ) 2 6 MAWERA ) MAWERA ( ) ( ) 7 6MW -- 175kW 8 ( ) 900 10 2 2 2 9 -- - 10
42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =
![42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =](/thumbs/73/68712188.jpg "42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =")
3 3.1 3.1.1 kg m s J = kg m 2 s 2 MeV MeV [1] 1MeV=1 6 ev = 1.62 176 462 (63) 1 13 J (3.1) [1] 1MeV/c 2 =1.782 661 731 (7) 1 3 kg (3.2) c =1 MeV (atomic mass unit) 12 C u = 1 12 M(12 C) (3.3) 41 42 3 u
コロイド化学と界面化学
x 25 1 kg 1 kg = 1 l mmol dm -3 ----- 1000 mg CO 2 -------------------------------------250 mg Li + --------------------------------1 mg Sr 2+ -------------------- 10
CH 2 CH CH 2 CH CH 2 CH CH 2 CH 2 COONa CH 2 N CH 2 COONa O Co 2+ O CO CH 2 CH N 2 CH 2 CO 9 Change in Ionic Form of IDA resin with h ph CH 2 NH + COO
CH 2 CH CH 2 CH CH 2 CH CH 2 CH 2 COONa CH 2 N CH 2 COONa O Co 2+ O CO CH 2 CH N 2 CH 2 CO 9 Change in Ionic Form of IDA resin with h ph CH 2 NH + COOH COOH COOH COO - CH 2 NH + + CH 2 NH COO - COO - COO
土壌の観察・実験テキスト −土壌を調べよう!−
( ) 2006 7 20 i 21 1962 1969 1987 1992 2005 65 1972 1977 1997 1977 1998 1982 1998 2002 2004 2005 SPP 1999 ii 1 g cm m 6378km ( ) 4.2, 4.3 5.1 7.1 8.1 4.1 7.3, 7.4 7.1 1 2 7.1 8.2 2 5 6 1, 2 2.3 4.2, 4.3
untitled
5 28 EAR CCLECCN ECCN 1. 2. 3. 4. 5.EAR page 1 of 28 WWW.Agilent.co.jp -> Q&A ECCN 10020A 10070A 10070B 10070C 10071A 10071B 10072A 10073A 10073B 10073C 10074A 10074B 10074C 10076A 10229A 10240B 10430A
2 1 7 - TALK ABOUT 21 μ TALK ABOUT 21 Ag As Se 2. 2. 2. Ag As Se 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 Sb Ga Te 2. Sb 2. Ga 2. Te 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4
SIサイエンス株式会社 stable isotope metal
12 マグネシウム Magnesium 24 Mg 酸化物 78.99 99.7 12 マグネシウム Magnesium 25 Mg 酸化物 10.0 97.0 12 マグネシウム Magnesium 26 Mg 酸化物 11.01 97.0 12 マグネシウム Potassium 39 K 塩化物 93.11 99.97 12 マグネシウム Potassium 40 K 塩化物 0.011 2.10
apple ヲ0 09 apple ヲ apple0309apple076 56ヲ fl 0603apple6ヲ
1305ィャ00010204ィヲ00ィヲ07ィ ィケ ィ 0500090502ィヲ00ィヲ07ィ ィケ, 2009, 6ァ8 6, 06. 1ィC18 ィャ0501 551.23/21;558.42 07ィ 05ィコィヲ0700ィヲ07ィ 02ィ ィケ ィェ00ィコ020200ィイ040107 ィ 05ィェィヲィョ04ィ 01ィヲ05 05ィャ0001020402 02ィャィェ04ィヲ050501ィ
2 6 8 10 12 14 18 20 22 24 26 29 32 34 36 1 40 42 44 39 47 48 50 52 54 56 58 60 62 64 68 70 72 74 76 78 80 67 83 84 86 88 90 92 94 96 97 98 100 102 103 104 106 110 112 114 116 118 120 122 124 126 128 130
JAJP
Agilent 7500ce ORS ICP-MS Glenn Woods Agilent Technologies Ltd. 5500 Lakeside, Cheadle Royal Business Park Stockport UK Agilent 7500ce ICP-MS 5 7500ce (ORS) 1 ORS 7500ce ORS ICP-MS ( ) 7500 ICP-MS (27.12
1/68 A. 電気所 ( 発電所, 変電所, 配電塔 ) における変圧器の空き容量一覧 平成 31 年 3 月 6 日現在 < 留意事項 > (1) 空容量は目安であり 系統接続の前には 接続検討のお申込みによる詳細検討が必要となります その結果 空容量が変更となる場合があります (2) 特に記載
1/68 A. 電気所 ( 発電所, 変電所, 配電塔 ) における変圧器の空き容量一覧 平成 31 年 3 月 6 日現在 < 留意事項 > (1) 空容量は目安であり 系統接続の前には 接続検討のお申込みによる詳細検討が必要となります その結果 空容量が変更となる場合があります (2) 特に記載のない限り 熱容量を考慮した空き容量を記載しております その他の要因 ( 電圧や系統安定度など ) で連系制約が発生する場合があります
01-表紙.ai
B 0 5 0-5 双極子核 I=1/ 2 四極子核 I 1 e Li Be B C N F Ne Na Mg 黒字はNMR 観測不可 Al Si P S Cl Ar K Ca Sc Ti V Cr MnFe Co Ni Cu ZnGaGe As Se Br Kr RbSr Y Zr NbMoTc RuRhPdAgCd In Sn SbTe I Xe Cs Ba La f Ta W Res Ir Pt
第 11 回化学概論 酸化と還元 P63 酸化還元反応 酸化数 酸化剤 還元剤 金属のイオン化傾向 酸化される = 酸素と化合する = 水素を奪われる = 電子を失う = 酸化数が増加する 還元される = 水素と化合する = 酸素を奪われる = 電子を得る = 酸化数が減少する 銅の酸化酸化銅の還元
第 11 回化学概論 酸化と還元 P63 酸化還元反応 酸化数 酸化剤 還元剤 金属のイオン化傾向 酸化される = 酸素と化合する = 水素を奪われる = 電子を失う = 酸化数が増加する 還元される = 水素と化合する = 酸素を奪われる = 電子を得る = 酸化数が減少する 銅の酸化酸化銅の還元 2Cu + O 2 2CuO CuO + H 2 Cu + H 2 O Cu Cu 2+ + 2e
新規な金属抽出剤
新規な金属イオン抽出剤 (MIDA) 貴金属の簡便な回収法に利用 日本原子力研究開発機構 基礎工学研究センター 佐々木祐二 原子力機構では使用済み燃料中の有用金属の回収を目的として 様々な分離技術の開発を行っています 発電前発電後 (An, 含む ) せん断 溶解分離 U, Pu 精製 U 精製 再処理工場へ ウラン燃料 Pu 精製 核変換 高レベル廃液 燃料再処理 (PUREX) 中間貯蔵 U,
4 1 Ampère 4 2 Ampere 31
4. 2 2 Coulomb 2 2 2 ( ) electricity 2 30 4 1 Ampère 4 2 Ampere 31 NS 2 Fleming 4 3 B I r 4 1 0 1.257 10-2 Gm/A µ 0I B = 2πr 4 1 32 4 4 A A A A 4 4 10 9 1 2 12 13 14 4 1 16 4 1 CH 2 =CH 2 28.0313 28 2
理工学部無機化学ノート
2 周期表と元素の性質の周期性 電子配置 通常の長周期型周期表 非金属元素と金属元素 e Cs Ba f Ta W Re Os Ir Pt Au g Tl Pb Bi Po At Rn Fr Ra Rf Db Sg Bh s Mt Ds Rg Cn Fl Lv 元素の大半は金属元素である 14 族や 15 族は 周期が下がるにつれ 性質が大幅に変化することが分かる La Ce Pr Nd Pm Sm
untitled
254nm UV TiO 2 20nm :Sr 5 Ta 4 O 15 3 4 KEY-1 KEY-2 (Ti,Nb,Ta) 5 KEY-1 KEY-2 6 7 NiO/ Sr 2 Ta 2 O 7 mmol h -1 g -1 20 15 10 5 H 2 O 2 H 2 O 2 0 0 2 4 6 8 10 12 NiO/Sr 2 Ta 2 O 7 The synthesis of photocatalysts
2001 Mg-Zn-Y LPSO(Long Period Stacking Order) Mg,,,. LPSO ( ), Mg, Zn,Y. Mg Zn, Y fcc( ) L1 2. LPSO Mg,., Mg L1 2, Zn,Y,, Y.,, Zn, Y Mg. Zn,Y., 926, 1
Mg-LPSO 2566 2016 3 2001 Mg-Zn-Y LPSO(Long Period Stacking Order) Mg,,,. LPSO ( ), Mg, Zn,Y. Mg Zn, Y fcc( ) L1 2. LPSO Mg,., Mg L1 2, Zn,Y,, Y.,, Zn, Y Mg. Zn,Y., 926, 1 1,.,,., 1 C 8, 2 A 9.., Zn,Y,.
( )
18 10 01 ( ) 1 2018 4 1.1 2018............................... 4 1.2 2018......................... 5 2 2017 7 2.1 2017............................... 7 2.2 2017......................... 8 3 2016 9 3.1 2016...............................
Al アルミニウム Cu 銅 Fe 鉄 Ni ニ
Al アルミニウム 30000 30000 30000 26000 26000 26000 28000 Cu 銅 140000 140000 140000 110000 110000 110000 130000 Fe 鉄 86000 87000 88000 140000 140000 140000 110000 Ni ニッケル 13000 13000 14000 23000 23000 23000
iii 1 1 1 1................................ 1 2.......................... 3 3.............................. 5 4................................ 7 5................................ 9 6............................
<576F F202D F94BD899E8EAE82CC8DEC82E895FB5F31325F352E6C7770>
1 ( 問 ) 金属が溶けて H 2 を発生する場合 ( 例 ) 1. 金属と H で考える Na H 2O H 2 Fe H 2 H 2 2Na 2H 2Na H 2 Fe 2H Fe 2 H 2 2. 水の場合は OH を両辺に加える 2'. 酸の場合は 酸の陰イオンを両辺に加える 3. たし算をする Na H 2O K H 2O Ca H 2O Mg H 2O Zn H 2 Fe H 2 Al
2008/02/18 08:40-10:10, 12:50-14:20 14:30-16:00, 16:10-17:40,
008/0/18 08:40-10:10, 1:50-14:0 14:30-16:00, 16:10-17:40, 1pt A 1911 Leiden Heike Kammelingh-Onnes H.Kammelingh Onnes 1907 He 1 4. K H H c T c T H c Hg:40 mt, Pb:80 mt, Sn:30 mt 100 mt I c H c H c H
リサイクルデータブック2017
AppendixEU SDGs2159EU 21512UNEPOECD2165G7 2165 214 Appendix 1 EU 2 EU EU( EU EU EU EU 3 217 i CONTENTS i 1 214 1 214 2 1 4 2 2 6 3 3 6 4 214 7 4 5 9 6 214 9 5 7 1 8 214 1 9 11 1 214 11 11 214 11 6 6.1
Microsoft Word - Jmol リソースの使い方-2.doc
Moodle での Jmol リソースの 使 い 方 1. 表 示 例 分 子 構 造 データファイルを 指 定 して 分 子 の 3 次 元 構 造 と 分 子 軌 道 などを 表 示 することができます 1.1. DNA PDB 形 式 データファイル 1.2. タンパク 質 の 表 示 GFP の 一 種 1 1.3. 波 動 関 数 の 表 示 -アセトアルデヒド 2. リソースの 追 加
Microsoft PowerPoint - 基礎化学4revPart1b [互換モード]
![Microsoft PowerPoint - 基礎化学4revPart1b [互換モード]](/thumbs/101/152457308.jpg "Microsoft PowerPoint - 基礎化学4revPart1b [互換モード]")
化学結合と分 の形 なぜ原 と原 はつながるのかなぜ分 はきまった形をしているのか化学結合の本質を理解しよう 分子の形と電子状態には強い相関がある! 原子 分子 基礎化学 ( 化学結合論 構造化学 量子化学 ) 電子配置分子の形強い相関関係 ( 電子状態 ) ( 立体構造 ) 分子の性質 ( 反応性 物性 ) 先端化学 ( 分子設計 機能化学 ) 機能 分子の形と電子配置の基礎的理解 基礎 ( 簡単
空き容量一覧表(154kV以上)
1/3 A. 電気所 ( 発電所, 変電所, 配電塔 ) における変圧器の空き容量 覧 < 留意事項 > (1) 空容量は 安であり 系統接続の前には 接続検討のお申込みによる詳細検討が必要となります その結果 空容量が変更となる場合があります (2) 熱容量を考慮した空き容量を記載しております その他の要因 ( や系統安定度など ) で連系制約が発 する場合があります (3) 表 は 既に空容量がないため
2/8 一次二次当該 42 AX 変圧器 なし 43 AY 変圧器 なし 44 BA 変圧器 なし 45 BB 変圧器 なし 46 BC 変圧器 なし
1/8 A. 電気所 ( 発電所, 変電所, 配電塔 ) における変圧器の空き容量一覧 < 留意事項 > (1) 空容量は目安であり 系統接続の前には 接続検討のお申込みによる詳細検討が必要となります その結果 空容量が変更となる場合があります (2) 特に記載のない限り 熱容量を考慮した空き容量を記載しております その他の要因 ( や系統安定度など ) で連系制約が発生する場合があります (3)
() () () () () 175 () Tel Fax
JPCA-PE04-02-01-02-01S JPCA PE04-02-01-02-01S 2005 () () () () () 175 () 167-0042 3122 2 Tel 03-5310-2020Fax 03-5310-2021e-mailstd@jpca.org Detail Specification for PT Optical Module 1 PT PT 12 Optoelectronic
Basic Welding 1. welding processes and equipments
オーステナイト FCC: 面心立方格子 Face Centered Cubic = 最密 (closed pack)! α,δ- フェライト BCC : 体心立方格子 Body Centered Cubic A1 変態温度 (A1 変態線 ) A3 変態温度 (A3 変態線 ) 変形 = 転位の動き 最大せん断応力方向 刃状転位 変形 = 転位の動き 最大せん断応力方向 刃状転位 粒界 鉄鋼材料の熱処理
リサイクルデータブック2016
AppendixEU SDGs2159EU 21512UNEPOECD2165G7 2165 213 Appendix 1 EU 2 EU 3 215 i CONTENTS i 1 213 1 213 2 1 4 2 2 6 3 3 6 4 213 7 4 5 9 6 213 9 5 7 1 8 213 1 9 11 1 213 11 11 213 11 6 6.1 12 213 14 6.2 13
CPT2L1Z1J154.indd
要点学習化学変化と原子分子 1 1 30 分分解, 物質のしくみ CPT2L1-Z1J1-01 要点 要点を読んで重要なポイントを確認しましょう 分解 1 分解 物質そのものが 性質が異なる別の物質に変わる変化を() といいます 1 種類の物質が2 種類以上の別の物質に分かれる化学変化をといいます 加熱により起こる分解をとくにといい 電流を流すことにより起こる分解をとくに といいます 2 炭酸水素ナトリウムを熱分解する実験
05秋案内.indd
1 2 3 4 5 6 7 R01a U01a Q01a L01a M01b - M03b Y01a R02a U02a Q02a L02a M04b - M06b Y02a R03a U03a Q03a L03a M08a Y03a R04a U04a Q04a L04a M09a Y04a A01a L05b, L07b, R05a U05a Q05a M10a Y05b - Y07b L08b
案内(最終2).indd
1 2 3 4 5 6 7 8 9 Y01a K01a Q01a T01a N01a S01a Y02b - Y04b K02a Q02a T02a N02a S02a Y05b - Y07b K03a Q03a T03a N03a S03a A01r Y10a Y11a K04a K05a Q04a Q05a T04b - T06b T08a N04a N05a S04a S05a Y12b -
学習の手順
NAVI 2 MAP 3 ABCD EFGH D F ABCD EFGH CD EH A ABC A BC AD ABC DBA BC//DE x 4 a //b // c x BC//DE EC AD//EF//BC x y AD DB AE EC DE//BC 5 D E AB AC BC 12cm DE 10 AP=PB=BR AQ=CQ BS CS 11 ABCD 1 C AB M BD P
Agilent 7900 ICP-MS 1 1 Ed McCurdy 2 1 Agilent Technologies, Japan 2 Agilent Technologies, UK
Agilent 7900 ICP-MS 1 1 Ed McCurdy 2 1 Agilent Technologies, Japan 2 Agilent Technologies, UK Na P K Ca Co Cu Sr Cd Ce Cs Tl 11 [1]18 [2] (FAO) (WTO) (Codex) Pb Cd As Sn Pb 0.3 mg/kg Cd 0.4 mg/kg 0.2 mg/kg
untitled
2008-11/13 12 4 12 5 401 501 702 401 501 A-1 9:00-10:30 B-1 9:15-10:30 C-1 9:00-10:30 A-5 9:00-10:30 B-5 9:15-10:30 A A-2 10:45-12:15 B-2 10:45-12:15 C-2 10:45-12:15 A-6 10:45-12:15 B-6 10:45-12:15 A B
案内最終.indd
1 2 3 4 5 6 IC IC R22 IC IC http://www.gifu-u.ac.jp/view.rbz?cd=393 JR JR JR JR JR 7 / JR IC km IC km IC IC km 8 F HPhttp://www.made.gifu-u.ac.jp/~vlbi/index.html 9 Q01a N01a X01a K01a S01a T01a Q02a N02a
温泉の化学 1
H O 1,003 516 149 124 2,237 1974 90 110 1km 2,400 ( 100 Mg 200 (98 ) 43,665 mg 38,695 mg 19,000 mg 2000 2000 Na-Ca-Cl 806 1970 1989 10 1991 4 ph 1 981 10,000 1993... (^^; (SO_4^{2-}) " " 1973-1987 1970
物理化学I-第11回(13).ppt
I- 11-1 10 10.5 H 3 O + (aq) + OH (aq) + Na + (aq) + Cl (aq) Na + (aq) + Cl (aq) + 2H 2 O(l) - or - [A] V A = [B] V B 22 mol dm 3 equiv dm 3 - H 2 SO 4 (aq) + 2NaOH(aq) 2Na + (aq) + SO 4 2 (aq) + 2H 2
名称未設定-2
Contents 1 2 3 4 5 6 7 8 9 1 11 12 13 14 15 16 17 18 19 2 21 22 i 23 24 25 26 27 28 29 3 31 32 33 34 35 36 37 38 39 4 41 42 43 44 45 46 47 48 49 5 51 52 53 54 55 56 57 ii 58 59 6 61 62 63 64 65 66 67 68
Microsoft PowerPoint - ①-3_データ集(タンク推定・実測)r6
参考資料 -3 ALPS 処理水データ集 ( タンク群毎 ) 1. タンク群毎の放射能濃度推定値 1 1. タンク群毎の放射能濃度推定値 G3 エリア 以上は橙色 部分 62 核種告示比 ( 限度比総和 ) 推定 1 未満は水色 部分 Gr 9.00E+01 6.00E+01 2.00E+02 8.00E+02 1.00E+02 3.00E+01 9.00E+00 6.00E+04 62 核種告示比推定
Contents 4 06 IP2 41 Thermo Scientific Nalgene Nalgene
Nalgene & Packaging plastic Bottles & Vials Contents 4 06 IP2 41 Thermo Scientific Nalgene 5 07 42 8 08 43 9 09 45 11 10 46 Nalgene 12 11 50 13 12 53 01 20 13 61 02 28 14 64 03 33 15 66 04 37 16 / 67 05
熊本県数学問題正解
00 y O x Typed by L A TEX ε ( ) (00 ) 5 4 4 ( ) http://www.ocn.ne.jp/ oboetene/plan/. ( ) (009 ) ( ).. http://www.ocn.ne.jp/ oboetene/plan/eng.html 8 i i..................................... ( )0... (
genron-3
" ( K p( pasals! ( kg / m 3 " ( K! v M V! M / V v V / M! 3 ( kg / m v ( v "! v p v # v v pd v ( J / kg p ( $ 3! % S $ ( pv" 3 ( ( 5 pv" pv R" p R!" R " ( K ( 6 ( 7 " pv pv % p % w ' p% S & $ p% v ( J /
スライド 1
High-k & Selete 1 2 * * NEC * # * # # 3 4 10 Si/Diamond, Si/SiC, Si/AlOx, Si Si,,, CN SoC, 2007 2010 2013 2016 2019 Materials Selection CZ Defectengineered SOI: Bonded, SIMOX, SOI Emerging Materials Various
1. 2 A B B A B 0 y A + y B A Burner FP SRAC FP CBZ BurnupChainGenerator 197 FP BurnupChainGenerator 1
1 CBZ/BurnupChainGenerator 27 4 27 1 (n,g) (n,γ) (n,2n) U-235 (n,g) U-236 (n,2n) U-234 α β Cm-242 α 2 2 Pu-238 heavy nuclides 30 fission product, FP 1,000 ORNL ORIGEN ORIGEN UO 2 MOX MOX CBZ/Burner Burner
1-x x µ (+) +z µ ( ) Co 2p 3d µ = µ (+) µ ( ) W. Grange et al., PRB 58, 6298 (1998). 1.0 0.5 0.0 2 1 XMCD 0-1 -2-3x10-3 7.1 7.2 7.7 7.8 8.3 8.4 up E down ρ + (E) ρ (E) H, M µ f + f E F f + f f + f X L
金属元素製錬・精製における環境負荷基礎データ
15 3 13 14 14 6 CO 2 LCA CO 2 LCA 15 3 ...1...1...1...1...4...6...14...16...17...18...20...28...32...36...40...44...48...52...56...60...64...68...72...76...84...88...92...96...100...104...108... 112...
a (a + ), a + a > (a + ), a + 4 a < a 4 a,,, y y = + a y = + a, y = a y = ( + a) ( x) + ( a) x, x y,y a y y y ( + a : a ) ( a : a > ) y = (a + ) y = a
[] a x f(x) = ( + a)( x) + ( a)x f(x) = ( a + ) x + a + () x f(x) a a + a > a + () x f(x) a (a + ) a x 4 f (x) = ( + a) ( x) + ( a) x = ( a + a) x + a + = ( a + ) x + a +, () a + a f(x) f(x) = f() = a
Microsoft Word - 00”ŒŁ\”ƒf.doc
1-1 1 1-2 5S 3 1-3 5 2-1 1 2-2 3 2-3 5 2-4 7 3-1 1 3-2 3 3-3 5 3-4 7 4-1 1977 1 4-2 1987 7 4-3 17 4-4 26 1-1 1 1-2 5S 3 1-3 5 1-1 (1) (2) (3) 1. -1-1 1:15 1:10 2.. owf / 1.0 40 1.0 3.0 60 3.0 80 kg 0.25
London -van der Waals Coulomb Fe, Mn
4 [ ] London -van der Waals physical adsorption electrostatic adsorption ( chemical adsorption London -van der Waals Coulomb Fe, Mn Freundlich Langmuir Linear isotherm m i(ads) = K d m i(soln) m i(ads)
Microsoft Word - 目次注意事項2.doc
I II 2009 1. 2. 12 50 3. 1. 2. 3 ( 0.1g, 0.01g, 0.001g ) 3. 4. 1. 2. ()A4 3. 000005 19 5 11 () 19 5 15 () EDTA " # $ 1000 500 =... mol/l Web 1) p.159 2) 1987pp.14-15 3) 1989pp.58-60 4) http://www.chem.zenkyo.h.kyoto-u.ac.jp/operation/
ナノ粒子のサイズ・形態制御と 構造敏感型触媒プロセスへの応用
2 3 10 9 m = 1 nm m 4 5 100 m 1m 10cm 100 m 1cm 1mm 10 m 1 m 100nm 10nm 1nm 1 10 m 1 m 1nm 100nm 10nm 10 8 6 1 nm 10 8 7 9 10 11 12 13 14 15 17 18 19 20 21 nm Ni-Zn 2- Ni-Zn Zn Ni Ni-Zn B 5 10 nm 23
1 平成 27 年度環境研究総合推進費研究成果発表会 平成 27 年 10 月 23 日 廃自動車の行方を考える - 資源と環境の視点から見た使用済み自動車 - 京都大学環境科学センター酒井伸一
1 平成 27 年度環境研究総合推進費研究成果発表会 平成 27 年 10 月 23 日 廃自動車の行方を考える - 資源と環境の視点から見た使用済み自動車 - 京都大学環境科学センター酒井伸一 平成 24~26 年度環境研究総合推進費研究 使用済み自動車 (ELV) の資源ポテンシャルと環境負荷に関するシステム分析 研究代表者酒井伸一 ( 京都大学 ) 研究分担者滝上英孝 梶原夏子 ( 国立環境研究所
FORES II [フォレスII]
![FORES II [フォレスII]](/thumbs/93/113034327.jpg "FORES II [フォレスII]")
ORES Z7 M06 G699 MG59 M59 M49 M06 Z7 G699 1 JOIA ABS 02 231 1 2013-2014 40 -OPEN -LOK L L 1 1 L 735 A4BOX6 /653 2 601 A4BOX5 /525 257 40 2 OA 40 P252 1230 02 232 2 2013-2014 A B 9G-MP59 920RG-MP 59 106,6
(1) θ a = 5(cm) θ c = 4(cm) b = 3(cm) (2) ABC A A BC AD 10cm BC B D C 99 (1) A B 10m O AOB 37 sin 37 = cos 37 = tan 37
4. 98 () θ a = 5(cm) θ c = 4(cm) b = (cm) () D 0cm 0 60 D 99 () 0m O O 7 sin 7 = 0.60 cos 7 = 0.799 tan 7 = 0.754 () xkm km R km 00 () θ cos θ = sin θ = () θ sin θ = 4 tan θ = () 0 < x < 90 tan x = 4 sin
後期化学_04_酸塩基pH
2011 ( ) ph H3O + H + H3O + HCl H3O + HCl + H2O H3O + + Cl HCl H + + Cl OH OH NaOH OH NaOH Na + + OH NH3 OH NH3 + H2O NH4 + + OH 1 H + OH H + H + * 1 NH3 HCl NH4Cl NH4Cl NH3 + Cl NH3 + HCl NH4 + + Cl.
欧州特許庁米国特許商標庁との共通特許分類 CPC (Cooperative Patent Classification) 日本パテントデータサービス ( 株 ) 国際部 2019 年 7 月 31 日 CPC 版が発効します 原文及び詳細はCPCホームページのCPC Revision
欧州特許庁米国特許商標庁との共通特許分類 CPC (Cooperative Patent Classification) 日本パテントデータサービス ( 株 ) 国際部 2019 年 7 月 31 日 CPC 2019.08 版が発効します 原文及び詳細はCPCホームページのCPC Revisions(CPCの改訂 ) をご覧ください https://www.cooperativepatentclassification.org/cpcrevisions/noticeofchanges.html
PowerPoint プレゼンテーション
ICP-AES, AA ppb - 1% ICP-MS ppt - 100ppm SEM-EDX 0.1% - 100% B - U XRF 0.01% - 100% Na - U EMIA ppm - 100% C, S EMGA EMIA : EMGA ppm - 100% O, N, H Carbon Sulfur Nitrigen Oxygen ISO ISO/TC 17/SC ISO 9556
Ni PLD GdBa 2 Cu 3 O 7 x 2 6
Ni PLD GdBa 2 Cu 3 O 7 x 2 6 1 1 1.1.................................. 1 1.2................................ 2 1.2.1......................... 3 1.3 RE 1 Ba 2 Cu 3 O 7 x...................... 3 1.3.1...............................
Microsoft Word - FINALmanual_pm1703mo1ab.docx
PM1703MO-1A PM1703MO-1B 2 ... 6... 6... 7... 8... 9... 10... 11... 12... 15... 16... 17... 17... 17... 18 []... 18... 19... 19... 20... 22... 22... 23... 23... 24... 24... 25... 26... 26... 26... 26...
Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6
NMR ESR NMR 5 Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6 Fig. (a) Na O-B -Si Na O-B Si Fig. (b) Na O-CaO-SiO Na O-CaO-B -Si. Na O-. CaO-. Si -. Al O
[ ] (Verschieden Wissenschaft auf Pedologie fur Geologe) (Taqumi, TuZino) Julius 2007 I. 3 II. 3 II. 1 : : : : : : : : : : : : :
![[ ] (Verschieden Wissenschaft auf Pedologie fur Geologe) (Taqumi, TuZino) Julius 2007 I. 3 II. 3 II. 1 : : : : : : : : : : : : :](/thumbs/99/141558843.jpg "[ ] (Verschieden Wissenschaft auf Pedologie fur Geologe) (Taqumi, TuZino) Julius 2007 I. 3 II. 3 II. 1 : : : : : : : : : : : : :")
[ ] (Verschieden Wissenschaft auf Pedologie fur Geologe) 2008 1 8 (Taqumi, TuZino) 2008 1 8 10 Julius 2007 I. 3 II. 3 II. 1 : : : : : : : : : : : : : : : : : : : : : : : : : : : : 3 II. 2 : : : : : : :
23 1 Section ( ) ( ) ( 46 ) , 238( 235,238 U) 232( 232 Th) 40( 40 K, % ) (Rn) (Ra). 7( 7 Be) 14( 14 C) 22( 22 Na) (1 ) (2 ) 1 µ 2 4
23 1 Section 1.1 1 ( ) ( ) ( 46 ) 2 3 235, 238( 235,238 U) 232( 232 Th) 40( 40 K, 0.0118% ) (Rn) (Ra). 7( 7 Be) 14( 14 C) 22( 22 Na) (1 ) (2 ) 1 µ 2 4 2 ( )2 4( 4 He) 12 3 16 12 56( 56 Fe) 4 56( 56 Ni)
電子配置と価電子 P H 2He 第 4 回化学概論 3Li 4Be 5B 6C 7N 8O 9F 10Ne 周期表と元素イオン 11Na 12Mg 13Al 14Si 15P 16S 17Cl 18Ar 価電子数 陽
電子配置と価電子 P11 1 2 13 14 15 16 17 18 1H 2He 第 4 回化学概論 3Li 4Be 5B 6C 7N 8O 9F 10Ne 周期表と元素イオン 11Na 12Mg 13Al 14Si 15P 16S 17Cl 18Ar 1 2 3 4 5 6 7 0 陽性元素陰性元素安定電子を失いやすい電子を受け取りやすい 原子番号と価電子の数 P16 元素の周期表 P17 最外殻の電子配置と周期表
2 (1) a = ( 2, 2), b = (1, 2), c = (4, 4) c = l a + k b l, k (2) a = (3, 5) (1) (4, 4) = l( 2, 2) + k(1, 2), (4, 4) = ( 2l + k, 2l 2k) 2l + k = 4, 2l
ABCDEF a = AB, b = a b (1) AC (3) CD (2) AD (4) CE AF B C a A D b F E (1) AC = AB + BC = AB + AO = AB + ( AB + AF) = a + ( a + b) = 2 a + b (2) AD = 2 AO = 2( AB + AF) = 2( a + b) (3) CD = AF = b (4) CE
unitech PA600 Rugged En PDA - RFID HF - unitech G Ver.1.2
unitech PA600 Rugged En PDA - RFID HF - unitech 400618G Ver.1.2 - 2009 Unitech Oracle Embedded Software Licensing Program FCC - i 16 PA600 1. 5V/2A AC USB DC 2. PA600 DC 8 SDRAM 60 C C C C ii PA600 RFID
X線分析の進歩36 別刷
X X X-Ray Fluorescence Analysis on Environmental Standard Reference Materials with a Dry Battery X-Ray Generator Hideshi ISHII, Hiroya MIYAUCHI, Tadashi HIOKI and Jun KAWAI Copyright The Discussion Group
欧州特許庁米国特許商標庁との共通特許分類 CPC (Cooperative Patent Classification) 日本パテントデータサービス ( 株 ) 国際部 2019 年 1 月 17 日 CPC 版のプレ リリースが公開されました 原文及び詳細はCPCホームページの C
欧州特許庁米国特許商標庁との共通特許分類 CPC (Cooperative Patent Classification) 日本パテントデータサービス ( 株 ) 国際部 2019 年 1 月 17 日 CPC 2019.02 版のプレ リリースが公開されました 原文及び詳細はCPCホームページの CPC Revisions(CPCの改訂 ) 内のPre-releaseをご覧ください http://www.cooperativepatentclassification.org/cpcrevisions/prereleases.html
00) î âûë¨ìx.pdf
....... .... = 1) 2) Ca + CO CaCO 3) 温泉水からの鉱物生成 指宿温泉での鉄鉱物の生成 霧島丸尾温泉でのシリカ鉱物の生成 湧水からの鉱物生成 Dissolution of anorthite Ca 2 2 O 8 + 8H + Ca 2+ + 2 3+ + 2H 4 O 4 Reaction of Ca ions Ca 2+ + CO 2 + H 2 O CaCO
Taro-化学5 無機化学 最新版
18 典型元素とその化合物 Ⅰ P oint.43 アルカリ金属元素 1 価電子価のイオン 2 常温で水と激しく反応する強いアルカリ性を示す Na + H2O に保存 3すべての塩は水に溶ける 4 炎色反応を示す Sr Li Ca Na Ba Cu K 5 イオン化傾向が大きい酸化されやすい 力 6 単体 Na は 7 アンモニアソーダ法 で得る ソルベー法 (1) (5) NaCl NaHCO3
untitled
第 1 1 号 ぶんきんニュース 2 0 0 8. 7. 3 0 ----------------------------------------------------------------------------------------------------------- p. 2 p. 3 p. 4 2 p. 9 5 p. 11 -----------------------------------------------------------------------------------------------------------------------
PROSTAGE[プロステージ]
![PROSTAGE[プロステージ]](/thumbs/94/119083133.jpg "PROSTAGE[プロステージ]")
PROSTAGE & L 2 3200 650 2078 Storage system Panel system 3 esk system 2 250 22 01 125 1 2013-2014 esk System 2 L4OA V 01 2 L V L V OA 4 3240 32 2 7 4 OA P202 MG55 MG57 MG56 MJ58 MG45 MG55 MB95 Z712 MG57
ル札幌市公式ホームページガイドライン
平 成 16 年 1 月 8 日 総 ) 広 報 部 長 決 裁 企 ) 情 報 化 推 進 部 長 決 裁 最 近 改 正 平 成 23 年 3 月 10 日 ...3...3...4...5...5...5...5...6...6...7...8...9...9...10...11...11...12...12...13...13...14...15...15...16...17...18...19...20