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Humic Science & Technology VIII March 16-18, 2005 Northeastern University Boston, MA, USA martina klučáková pavla žbánková miloslav pekař Brno University of Technology Faculty of Chemistry Institute of Physical and Applied Chemistry
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2 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA interaction of metal ions with humic acids toxicity of natural systems carry on previous study (Cu 2+ ) etc.
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3 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA lignite mine
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4 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA lignitic humic acid raw material: South-Moravian lignite isolation: alkalic extraction (NaOH) C [at. %] H [at. %] N [at. %] S [at. %] O [at. %] COOH [mmol/g] total acidity [mmol/g] 40.341.01.50.416.83.274.04 normalized on dry ash-free HA
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5 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA humic sols humic gels Co 2+ Ni 2+ physical & chemical interactions 0.01 - 0.20 M 0.1-1.0 g/L 17 % HA
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6 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA previous results: 0.2 M (Cu 2+ ) 1 g/dm 3 (HA) I = 0.1 M (sol) Cu 2+ + HR CuR + + H + 2CuR + CuR 2 + Cu 2+
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7 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA 0.2 M (Co 2+ ) 1 g/dm 3 (HA); I = 0.1 M (sol) 0.2 M (Ni 2+ )
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8 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA conductivity and pH increases stop in the same moment conductivity increases while pH-value is constant [H + ] 1×10 -6 mol/L 8×10 -7 mol/L [H + ] 3×10 -5 mol/L pH increasing is slower than in the case of Co 2+ & Ni 2+ Cu 2+
![8 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA conductivity and pH increases stop in the same moment conductivity increases while pH-value is constant [H + ] 1×10 -6 mol/L 8×10 -7 mol/L [H + ] 3×10 -5 mol/L pH increasing is slower than in the case of Co 2+ & Ni 2+ Cu 2+](http://images.slideplayer.com/15/4552750/slides/slide_8.jpg "8 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA conductivity and pH increases stop in the same moment conductivity increases while pH-value is constant [H + ] 1×10 -6 mol/L 8×10 -7 mol/L [H + ] 3×10 -5 mol/L pH increasing is slower than in the case of Co 2+ & Ni 2+ Cu 2+")
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9 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA MeCl 2 Me 2+ + 2Cl - HR + H 2 O H 3 O + + R - 2H 2 O H 3 O + + OH - Me 2+ + 4H 2 O Me(OH) 2 + 2H 3 O + Me 2+ + HR + H 2 O MeR + + H 3 O + Me 2+ + R - MeR + 2MeR + MeR 2 + Me 2+ MeR + + HR + H 2 O MeR 2 + H 3 O + MeR + + R - MeR 2
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10 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA Ni 2+ (0.01M) 0.01M Me 2+ – conductivity decreases (sol 0.1 – 1 g/L); I = 0.1 M sol (0.1 g/L) sol (1 g/L)
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11 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA Ni 2+ (0.01 M) I = 0.5 M (sol 0.1 – 1 g/L) no minimum on pH-curve sol (1 g/L) Ni 2+ (0.20 M)
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12 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA Co 2+ (0.01 M) gel no minimum on pH-curve conductivity only increases (Me 2+ : 0.01 – 0.20 M) gel Co 2+ (0.20 M)
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13 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA summary reaction: H 2 R + Me 2+ MeR + 2H + 2 nd order kinetic rate equation: dx / dt = k (a-x) (b-x) kt = 1 / (b-a) ln [a(b-x) / (b(a-x))] t = 0 a b 0 h t > 0 a – x b – x x h + 2x t ∞ 0 b – a a h + 2a
![13 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA summary reaction: H 2 R + Me 2+ MeR + 2H + 2 nd order kinetic rate equation: dx / dt = k (a-x) (b-x) kt = 1 / (b-a) ln [a(b-x) / (b(a-x))] t = 0 a b 0 h t > 0 a – x b – x x h + 2x t ∞ 0 b – a a h + 2a](http://images.slideplayer.com/15/4552750/slides/slide_13.jpg "13 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA summary reaction: H 2 R + Me 2+ MeR + 2H + 2 nd order kinetic rate equation: dx / dt = k (a-x) (b-x) kt = 1 / (b-a) ln [a(b-x) / (b(a-x))] t = 0 a b 0 h t > 0 a – x b – x x h + 2x t ∞ 0 b – a a h + 2a")
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14 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA apparent rate constants: sols (0.1 g/L; I = 0.1 M) apparent rate constants: gels c 0 [mol/L]Ni 2+ Co 2+ Cu 2+ 0.08 1.46 10 -5 7.89 10 -5 2.02 10 -5 0.10 4.39 10 -6 6.38 10 -5 1.05 10 -5 0.15 1.13 10 -6 2.25 10 -6 2.66 10 -6 0.20 2.98 10 -7 8.88 10 -7 5.21 10 -7 c 0 [mol/L]Ni 2+ Co 2+ Cu 2+ 0.08 1.12 10 -4 1.78 10 -4 1.67 10 -4 0.10 7.41 10 -5 1.64 10 -4 1.56 10 -4 0.15 5.23 10 -5 9.29 10 -5 9.13 10 -5 0.20 3.69 10 -5 7.92 10 -5 4.48 10 -5 [m 3 /mol.s] b >> a
![14 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA apparent rate constants: sols (0.1 g/L; I = 0.1 M) apparent rate constants: gels c 0 [mol/L]Ni 2+ Co 2+ Cu c 0 [mol/L]Ni 2+ Co 2+ Cu [m 3 /mol.s] b >> a](http://images.slideplayer.com/15/4552750/slides/slide_14.jpg "14 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA apparent rate constants: sols (0.1 g/L; I = 0.1 M) apparent rate constants: gels c 0 [mol/L]Ni 2+ Co 2+ Cu c 0 [mol/L]Ni 2+ Co 2+ Cu [m 3 /mol.s] b >> a")
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15 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA diffusion from constant source t = 0 x 0; L c 1 = 0 t 0 x = 0c 1 = c 1,s = const. t 0 x = L / 2 c 1 / x = 0 one-dimensional diffusion T, p = const.; D D (c) example: Ni 2+
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16 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA diffusion from constant source (24 h) D ef [m 2 /s]D tab [m 2 /s] Ni 2+ 8.18 10 -10 1.32 10 -9 Co 2+ 7.98 10 -10 1.46 10 -9 Cu 2+ 1.07 10 -9 1.43 10 -9
![16 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA diffusion from constant source (24 h) D ef [m 2 /s]D tab [m 2 /s] Ni Co Cu 10 -9](http://images.slideplayer.com/15/4552750/slides/slide_16.jpg "16 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA diffusion from constant source (24 h) D ef [m 2 /s]D tab [m 2 /s] Ni Co Cu 10 -9")
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17 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA diffusion from time-variable source example: Co 2+ 24 h 0.20 M
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18 Humic Science & Technology VIII, March 16-18, 2005, Northeastern University, Boston, MA, USA complex interaction mechanism HA - metal ions non-ideal kinetics diffusion-affected interaction with humic gel …….
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19 thanks
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