5 epa as course coag and ppt processes yujungchang
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Coagulation-Filtration - Chwirka & Thomson*Arsenic Removal by Coagulation & Precipitation ProcessesPresentation Prepared by:Joe Chwirka - Camp Dresser & McKee (chwirkajd@cdm.com)Bruce Thomson - University of New Mexico (bthomson@unm.edu)Presented by: YuJung Chang HDR Engineering, Inc.
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*IntroductionArsenic removal by coagulation & filtration is effective for many applicationsPresentation will discuss:Chemistry of the processVariables affecting process performance (especially pH & coagulant dose)Process variationsCoagulation & granular media filtrationCoagulation & membrane filtrationDesign considerations
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Acid-Base Chemistry of As(V)
Coagulation-Filtration - Chwirka & Thomson
Chart2
0.99440803170.00559196730.0000000010
0.94675969520.05324021020.00000009470
0.6400609030.35993269640.00000640060
0.15095676580.84889227740.00015095680
0.01744161730.98081422090.00174416170
0.00174416170.98081421660.01744161730.0000000044
0.00015095670.84889195550.15095670860.0000003792
0.00000640050.35992690960.64005061250.0000160773
0.00000009470.05322755180.94653459480.0002377587
0.0000000010.00557803430.99193034840.0024916164
00.00054826130.97496180540.0244899333
00.00004494250.79920407120.2007509862
00.00000160120.2847467930.7152516058
00.00000002150.03828650310.9617134754
00.00000000020.00396528560.9960347142
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO4
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As(V)
pHH+H3AsO4H2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+009.94E-015.59E-039.94E-102.50E-21-5.00E+00-7.25E+00-1.40E+01-2.56E+010-14
11.00E-019.47E-015.32E-029.47E-082.38E-18-5.02E+00-6.27E+00-1.20E+01-2.26E+01-1-13
21.00E-026.40E-013.60E-016.40E-061.61E-15-5.19E+00-5.44E+00-1.02E+01-1.98E+01-2-12
31.00E-031.51E-018.49E-011.51E-043.79E-13-5.82E+00-5.07E+00-8.82E+00-1.74E+01-3-11
41.00E-041.74E-029.81E-011.74E-034.38E-11-6.76E+00-5.01E+00-7.76E+00-1.54E+01-4-10
51.00E-051.74E-039.81E-011.74E-024.38E-09-7.76E+00-5.01E+00-6.76E+00-1.34E+01-5-9
61.00E-061.51E-048.49E-011.51E-013.79E-07-8.82E+00-5.07E+00-5.82E+00-1.14E+01-6-8
71.00E-076.40E-063.60E-016.40E-011.61E-05-1.02E+01-5.44E+00-5.19E+00-9.79E+00-7-7
81.00E-089.47E-085.32E-029.47E-012.38E-04-1.20E+01-6.27E+00-5.02E+00-8.62E+00-8-6
91.00E-099.92E-105.58E-039.92E-012.49E-03-1.40E+01-7.25E+00-5.00E+00-7.60E+00-9-5
101.00E-109.75E-125.48E-049.75E-012.45E-02-1.60E+01-8.26E+00-5.01E+00-6.61E+00-10-4
111.00E-117.99E-144.49E-057.99E-012.01E-01-1.81E+01-9.35E+00-5.10E+00-5.70E+00-11-3
121.00E-122.85E-161.60E-062.85E-017.15E-01-2.05E+01-1.08E+01-5.55E+00-5.15E+00-12-2
131.00E-133.83E-192.15E-083.83E-029.62E-01-2.34E+01-1.27E+01-6.42E+00-5.02E+00-13-1
141.00E-143.97E-222.23E-103.97E-039.96E-01-2.64E+01-1.47E+01-7.40E+00-5.00E+00-140
log Ct =-5
log K1 =-2.250.0056234133
log K2 =-6.750.0000001778
log K3 =-11.60
As(V)
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(III)
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO4
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As(III) Solubility
pHH+alpha-oH2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+001.00E+006.03E-104.68E-221.82E-35-5.00E+00-1.42E+01-2.63E+01-3.97E+010-14
11.00E-011.00E+006.03E-094.68E-201.82E-32-5.00E+00-1.32E+01-2.43E+01-3.67E+01-1-13
21.00E-021.00E+006.03E-084.68E-181.82E-29-5.00E+00-1.22E+01-2.23E+01-3.37E+01-2-12
31.00E-031.00E+006.03E-074.68E-161.82E-26-5.00E+00-1.12E+01-2.03E+01-3.07E+01-3-11
41.00E-041.00E+006.03E-064.68E-141.82E-23-5.00E+00-1.02E+01-1.83E+01-2.77E+01-4-10
51.00E-051.00E+006.03E-054.68E-121.82E-20-5.00E+00-9.22E+00-1.63E+01-2.47E+01-5-9
61.00E-069.99E-016.02E-044.67E-101.82E-17-5.00E+00-8.22E+00-1.43E+01-2.17E+01-6-8
71.00E-079.94E-015.99E-034.65E-081.81E-14-5.00E+00-7.22E+00-1.23E+01-1.87E+01-7-7
81.00E-089.43E-015.68E-024.41E-061.72E-11-5.03E+00-6.25E+00-1.04E+01-1.58E+01-8-6
91.00E-096.24E-013.76E-012.92E-041.14E-08-5.20E+00-5.42E+00-8.53E+00-1.29E+01-9-5
101.00E-101.41E-018.52E-016.61E-032.57E-06-5.85E+00-5.07E+00-7.18E+00-1.06E+01-10-4
111.00E-111.52E-029.14E-017.09E-022.76E-04-6.82E+00-5.04E+00-6.15E+00-8.56E+00-11-3
121.00E-129.18E-045.53E-014.29E-011.67E-02-8.04E+00-5.26E+00-5.37E+00-6.78E+00-12-2
131.00E-131.41E-058.49E-026.59E-012.56E-01-9.85E+00-6.07E+00-5.18E+00-5.59E+00-13-1
141.00E-144.36E-082.63E-032.04E-017.93E-01-1.24E+01-7.58E+00-5.69E+00-5.10E+00-140
log Ct =-5
log K1 =-9.220.0000000006
log K2 =-12.110
log K3 =-13.410
As(III) Solubility
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO3
H2AsO3-
HAsO32-
AsO33-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(V) Solubility
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
H3AsO3
H2AsO3-
HAsO32-
AsO33-
alpha-o
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As vs S
pHH+Alpha3As2O3Arsenolite (As2O3)As2O3Claudetite (As2O3)Alpha1-SAs2S3Orpiment (As2S3)
01.00E+001.00E+002.02E-01-0.692.19E-01-0.667.94E-088.92E-09-8.05
11.00E-011.00E+002.02E-01-0.692.19E-01-0.667.94E-078.92E-09-8.05
21.00E-021.00E+002.02E-01-0.692.19E-01-0.667.94E-068.92E-09-8.05
31.00E-031.00E+002.02E-01-0.692.19E-01-0.667.94E-058.92E-09-8.05
41.00E-041.00E+002.02E-01-0.692.19E-01-0.667.94E-048.92E-09-8.05
51.00E-051.00E+002.02E-01-0.692.19E-01-0.667.88E-038.96E-09-8.05
61.00E-069.99E-012.02E-01-0.692.19E-01-0.667.36E-029.34E-09-8.03
71.00E-079.94E-012.03E-01-0.692.20E-01-0.664.43E-011.27E-08-7.90
81.00E-089.43E-012.14E-01-0.672.32E-01-0.638.88E-013.40E-08-7.47
91.00E-096.24E-013.24E-01-0.493.51E-01-0.469.88E-011.50E-07-6.82
101.00E-101.41E-011.43E+000.151.55E+000.199.99E-011.07E-06-5.97
111.00E-111.52E-021.33E+011.121.44E+011.161.00E+001.04E-05-4.98
121.00E-129.18E-042.20E+022.342.38E+022.381.00E+001.27E-04-3.89
131.00E-131.41E-051.43E+044.161.55E+044.191.00E+002.70E-03-2.57
141.00E-144.36E-084.63E+066.675.02E+066.709.99E-011.08E-01-0.97
logKsp
log K1 =-9.220.0000000006-1.39-1.32logK1 =-7.17.94E-08-61.02
log K2 =-12.1104.07E-024.79E-02logK2 =-171.00E-179.55E-62
log K3 =-13.410
Reactions:
Arsenolite & Claudetite:
As2O3 + 3H2O = 2H3AsO3
Orpiment:
As2S3 + 6H2O = 3HS- + 2H3AsO3 + 3H+
As vs S
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
Arsenolite (As2O3)
Claudetite (As2O3)
Orpiment (As2S3)
pH
log Concentration
U(VI)
pHH+Alpha3AlAsO4AlAsO4Ca3(AsO4)2Ca3(AsO4)2CrAsO4CrAsO4Cu3(AsO4)2Cu3(AsO4)2Fe3(AsO4)2Fe3(AsO4)2FeAsO4FeAsO4Mn3(AsO4)2Mn3(AsO4)2LaAsO4LaAsO4
01.00E+002.50E-212.52E+022.402.99E+088.481.76E+000.251.72E+055.243.98E+066.601.59E+000.203.28E+066.526.55E-01-0.18
11.00E-012.38E-188.16E+000.914.88E+066.695.71E-02-1.242.81E+033.456.50E+044.815.15E-02-1.295.35E+044.732.12E-02-1.67
21.00E-021.61E-153.14E-01-0.509.79E+044.992.20E-03-2.665.63E+011.751.30E+033.111.98E-03-2.701.07E+033.038.16E-04-3.09
31.00E-033.79E-132.04E-02-1.693.69E+033.571.43E-04-3.842.12E+000.334.91E+011.691.29E-04-3.894.05E+011.615.32E-05-4.27
41.00E-044.38E-111.90E-03-2.722.13E+022.331.33E-05-4.881.23E-01-0.912.84E+000.451.20E-05-4.922.34E+000.374.95E-06-5.31
51.00E-054.38E-091.90E-04-3.721.35E+011.131.33E-06-5.887.75E-03-2.111.79E-01-0.751.20E-06-5.921.48E-01-0.834.95E-07-6.31
61.00E-063.79E-072.04E-05-4.699.27E-01-0.031.43E-07-6.845.33E-04-3.271.23E-02-1.911.29E-07-6.891.02E-02-1.995.32E-08-7.27
71.00E-071.61E-053.14E-06-5.509.79E-02-1.012.20E-08-7.665.63E-05-4.251.30E-03-2.891.98E-08-7.701.07E-03-2.978.16E-09-8.09
81.00E-082.38E-048.16E-07-6.091.94E-02-1.715.71E-09-8.241.12E-05-4.952.59E-04-3.595.15E-09-8.292.13E-04-3.672.12E-09-8.67
91.00E-092.49E-032.52E-07-6.604.75E-03-2.321.77E-09-8.752.73E-06-5.566.32E-05-4.201.59E-09-8.805.21E-05-4.286.56E-10-9.18
101.00E-102.45E-028.04E-08-7.091.20E-03-2.925.63E-10-9.256.93E-07-6.161.60E-05-4.805.08E-10-9.291.32E-05-4.882.09E-10-9.68
111.00E-112.01E-012.81E-08-7.553.41E-04-3.471.97E-10-9.711.96E-07-6.714.54E-06-5.341.77E-10-9.753.74E-06-5.437.31E-11-10.14
121.00E-127.15E-011.49E-08-7.831.59E-04-3.801.04E-10-9.989.16E-08-7.042.12E-06-5.679.39E-11-10.031.74E-06-5.763.87E-11-10.41
131.00E-139.62E-011.28E-08-7.891.33E-04-3.888.98E-11-10.057.67E-08-7.121.77E-06-5.758.10E-11-10.091.46E-06-5.843.34E-11-10.48
141.00E-149.96E-011.26E-08-7.901.30E-04-3.888.83E-11-10.057.51E-08-7.121.74E-06-5.767.96E-11-10.101.43E-06-5.843.28E-11-10.48
logKsp
log K1 =-2.250.0056234133-15.8-18.9-20.11-35.1-28.28-20.2-28.7-20.97
log K2 =-6.750.00000017780000002.00E-290
log K3 =-11.60
Data from Norman (1998), pg. 191
U(VI)
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
CrAsO4
FeAsO4
Ca3(AsO4)2
Fe3(AsO4)2
Mn3(AsO4)2
Cu3(AsO4)2
AlAsO4
LaAsO4
AlAsO4
Ca3(AsO4)2
CrAsO4
Cu3(AsO4)2
Fe3(AsO4)2
FeAsO4
Mn3(AsO4)2
LaAsO4
pH
log Concentration
Dependence of As phase on pe, pH, & [HS-]
Rx: As2O3 + 4H+ + 2HS- + 2e- = As2S2 + 3H2O
log K =50.45
logSt4710
014.1210.875.22
-104.120.87-4.78
Sulfide SystemAlpha1Alpha1Alpha1
pK1 =7.10.00079369780.44268836620.9987425577
pK2 =17
000
000
pH = 4
pH = 7
pH = 10
As2O3
As2S2
log [Total S(-II)]
pe
pHH+alpha-olog[H3As]log[H2As-]log[HAs2-]log[As3-]
01.00E+009.90E-01-5.00E+00-7.00E+00-1.40E+01-2.60E+01
11.00E-019.09E-01-5.04E+00-6.04E+00-1.20E+01-2.30E+01
21.00E-025.00E-01-5.30E+00-5.30E+00-1.03E+01-2.03E+01
31.00E-039.09E-02-6.04E+00-5.04E+00-9.04E+00-1.80E+01
41.00E-049.89E-03-7.00E+00-5.00E+00-8.00E+00-1.60E+01
51.00E-059.89E-04-8.00E+00-5.00E+00-7.00E+00-1.40E+01
61.00E-069.09E-05-9.04E+00-5.04E+00-6.04E+00-1.20E+01
71.00E-075.00E-06-1.03E+01-5.30E+00-5.30E+00-1.03E+01
81.00E-089.09E-08-1.20E+01-6.04E+00-5.04E+00-9.04E+00
91.00E-099.89E-10-1.40E+01-7.00E+00-5.00E+00-8.00E+00
101.00E-109.89E-12-1.60E+01-8.00E+00-5.00E+00-7.00E+00
111.00E-119.09E-14-1.80E+01-9.04E+00-5.04E+00-6.04E+00
121.00E-125.00E-16-2.03E+01-1.03E+01-5.30E+00-5.30E+00
131.00E-139.09E-19-2.30E+01-1.20E+01-6.04E+00-5.04E+00
141.00E-149.90E-22-2.60E+01-1.40E+01-7.00E+00-5.00E+00
log Ct =-5
log K1 =-20.01
log K2 =-70.0000001
log K3 =-120
-5.0024353766-7.2524353766-14.0024353766-25.6024353766
-5.0237602389-6.2737602389-12.0237602389-22.6237602389
-5.1937787001-5.4437787001-10.1937787001-19.7937787001
-5.8211474173-5.0711474173-8.8211474173-17.4211474173
-6.7584132459-5.0084132459-7.7584132459-15.3584132459
-7.7584132478-5.0084132478-6.7584132478-13.3584132478
-8.821147582-5.071147582-5.821147582-11.421147582
-10.1937856825-5.4437856825-5.1937856825-9.7937856825
-12.0238635084-6.2738635084-5.0238635084-8.6238635084
-14.0035188222-7.2535188222-5.0035188222-7.6035188222
-16.0110123977-8.2610123977-5.0110123977-6.6110123977
-18.0973423124-9.3473423124-5.0973423124-5.6973423124
-20.5455411585-10.7955411585-5.5455411585-5.1455411585
-23.4169542986-12.6669542986-6.4169542986-5.0169542986
-26.4017255251-14.6517255251-7.4017255251-5.0017255251
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
pH
log Concentration
-
Coagulation-Filtration - Chwirka & Thomson*Acid-Base Chemistry of As(III)
Coagulation-Filtration - Chwirka & Thomson
Chart3
0.99999999940.000000000600
0.9999999940.00000000600
0.99999993970.000000060300
0.99999939740.000000602600
0.99999397440.000006025600
0.99993974770.000060252300
0.99939780280.00060219670.00000000050
0.99401044830.00598950520.00000004650
0.94316431830.05683127010.00000441150
0.62381967880.37588852750.00029178240.0000000114
0.1413949660.85198892160.00661353940.000002573
0.01516265580.91364035970.07092106950.000275915
0.00091785920.55306485230.42931499690.0167022915
0.00001408510.08487099170.65880862590.2563062974
0.00000004360.0026272930.20394286160.7934298018
H3AsO3
H2AsO3-
HAsO32-
AsO33-
alpha-o
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As(V)
pHH+H3AsO4H2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+009.94E-015.59E-039.94E-102.50E-21-5.00E+00-7.25E+00-1.40E+01-2.56E+010-14
11.00E-019.47E-015.32E-029.47E-082.38E-18-5.02E+00-6.27E+00-1.20E+01-2.26E+01-1-13
21.00E-026.40E-013.60E-016.40E-061.61E-15-5.19E+00-5.44E+00-1.02E+01-1.98E+01-2-12
31.00E-031.51E-018.49E-011.51E-043.79E-13-5.82E+00-5.07E+00-8.82E+00-1.74E+01-3-11
41.00E-041.74E-029.81E-011.74E-034.38E-11-6.76E+00-5.01E+00-7.76E+00-1.54E+01-4-10
51.00E-051.74E-039.81E-011.74E-024.38E-09-7.76E+00-5.01E+00-6.76E+00-1.34E+01-5-9
61.00E-061.51E-048.49E-011.51E-013.79E-07-8.82E+00-5.07E+00-5.82E+00-1.14E+01-6-8
71.00E-076.40E-063.60E-016.40E-011.61E-05-1.02E+01-5.44E+00-5.19E+00-9.79E+00-7-7
81.00E-089.47E-085.32E-029.47E-012.38E-04-1.20E+01-6.27E+00-5.02E+00-8.62E+00-8-6
91.00E-099.92E-105.58E-039.92E-012.49E-03-1.40E+01-7.25E+00-5.00E+00-7.60E+00-9-5
101.00E-109.75E-125.48E-049.75E-012.45E-02-1.60E+01-8.26E+00-5.01E+00-6.61E+00-10-4
111.00E-117.99E-144.49E-057.99E-012.01E-01-1.81E+01-9.35E+00-5.10E+00-5.70E+00-11-3
121.00E-122.85E-161.60E-062.85E-017.15E-01-2.05E+01-1.08E+01-5.55E+00-5.15E+00-12-2
131.00E-133.83E-192.15E-083.83E-029.62E-01-2.34E+01-1.27E+01-6.42E+00-5.02E+00-13-1
141.00E-143.97E-222.23E-103.97E-039.96E-01-2.64E+01-1.47E+01-7.40E+00-5.00E+00-140
log Ct =-5
log K1 =-2.250.0056234133
log K2 =-6.750.0000001778
log K3 =-11.60
As(V)
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(III)
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO4
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As(III) Solubility
pHH+alpha-oH2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+001.00E+006.03E-104.68E-221.82E-35-5.00E+00-1.42E+01-2.63E+01-3.97E+010-14
11.00E-011.00E+006.03E-094.68E-201.82E-32-5.00E+00-1.32E+01-2.43E+01-3.67E+01-1-13
21.00E-021.00E+006.03E-084.68E-181.82E-29-5.00E+00-1.22E+01-2.23E+01-3.37E+01-2-12
31.00E-031.00E+006.03E-074.68E-161.82E-26-5.00E+00-1.12E+01-2.03E+01-3.07E+01-3-11
41.00E-041.00E+006.03E-064.68E-141.82E-23-5.00E+00-1.02E+01-1.83E+01-2.77E+01-4-10
51.00E-051.00E+006.03E-054.68E-121.82E-20-5.00E+00-9.22E+00-1.63E+01-2.47E+01-5-9
61.00E-069.99E-016.02E-044.67E-101.82E-17-5.00E+00-8.22E+00-1.43E+01-2.17E+01-6-8
71.00E-079.94E-015.99E-034.65E-081.81E-14-5.00E+00-7.22E+00-1.23E+01-1.87E+01-7-7
81.00E-089.43E-015.68E-024.41E-061.72E-11-5.03E+00-6.25E+00-1.04E+01-1.58E+01-8-6
91.00E-096.24E-013.76E-012.92E-041.14E-08-5.20E+00-5.42E+00-8.53E+00-1.29E+01-9-5
101.00E-101.41E-018.52E-016.61E-032.57E-06-5.85E+00-5.07E+00-7.18E+00-1.06E+01-10-4
111.00E-111.52E-029.14E-017.09E-022.76E-04-6.82E+00-5.04E+00-6.15E+00-8.56E+00-11-3
121.00E-129.18E-045.53E-014.29E-011.67E-02-8.04E+00-5.26E+00-5.37E+00-6.78E+00-12-2
131.00E-131.41E-058.49E-026.59E-012.56E-01-9.85E+00-6.07E+00-5.18E+00-5.59E+00-13-1
141.00E-144.36E-082.63E-032.04E-017.93E-01-1.24E+01-7.58E+00-5.69E+00-5.10E+00-140
log Ct =-5
log K1 =-9.220.0000000006
log K2 =-12.110
log K3 =-13.410
As(III) Solubility
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO3
H2AsO3-
HAsO32-
AsO33-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(V) Solubility
H3AsO3
H2AsO3-
HAsO32-
AsO33-
alpha-o
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As vs S
pHH+Alpha3As2O3Arsenolite (As2O3)As2O3Claudetite (As2O3)Alpha1-SAs2S3Orpiment (As2S3)
01.00E+001.00E+002.02E-01-0.692.19E-01-0.667.94E-088.92E-09-8.05
11.00E-011.00E+002.02E-01-0.692.19E-01-0.667.94E-078.92E-09-8.05
21.00E-021.00E+002.02E-01-0.692.19E-01-0.667.94E-068.92E-09-8.05
31.00E-031.00E+002.02E-01-0.692.19E-01-0.667.94E-058.92E-09-8.05
41.00E-041.00E+002.02E-01-0.692.19E-01-0.667.94E-048.92E-09-8.05
51.00E-051.00E+002.02E-01-0.692.19E-01-0.667.88E-038.96E-09-8.05
61.00E-069.99E-012.02E-01-0.692.19E-01-0.667.36E-029.34E-09-8.03
71.00E-079.94E-012.03E-01-0.692.20E-01-0.664.43E-011.27E-08-7.90
81.00E-089.43E-012.14E-01-0.672.32E-01-0.638.88E-013.40E-08-7.47
91.00E-096.24E-013.24E-01-0.493.51E-01-0.469.88E-011.50E-07-6.82
101.00E-101.41E-011.43E+000.151.55E+000.199.99E-011.07E-06-5.97
111.00E-111.52E-021.33E+011.121.44E+011.161.00E+001.04E-05-4.98
121.00E-129.18E-042.20E+022.342.38E+022.381.00E+001.27E-04-3.89
131.00E-131.41E-051.43E+044.161.55E+044.191.00E+002.70E-03-2.57
141.00E-144.36E-084.63E+066.675.02E+066.709.99E-011.08E-01-0.97
logKsp
log K1 =-9.220.0000000006-1.39-1.32logK1 =-7.17.94E-08-61.02
log K2 =-12.1104.07E-024.79E-02logK2 =-171.00E-179.55E-62
log K3 =-13.410
Reactions:
Arsenolite & Claudetite:
As2O3 + 3H2O = 2H3AsO3
Orpiment:
As2S3 + 6H2O = 3HS- + 2H3AsO3 + 3H+
As vs S
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
Arsenolite (As2O3)
Claudetite (As2O3)
Orpiment (As2S3)
pH
log Concentration
U(VI)
pHH+Alpha3AlAsO4AlAsO4Ca3(AsO4)2Ca3(AsO4)2CrAsO4CrAsO4Cu3(AsO4)2Cu3(AsO4)2Fe3(AsO4)2Fe3(AsO4)2FeAsO4FeAsO4Mn3(AsO4)2Mn3(AsO4)2LaAsO4LaAsO4
01.00E+002.50E-212.52E+022.402.99E+088.481.76E+000.251.72E+055.243.98E+066.601.59E+000.203.28E+066.526.55E-01-0.18
11.00E-012.38E-188.16E+000.914.88E+066.695.71E-02-1.242.81E+033.456.50E+044.815.15E-02-1.295.35E+044.732.12E-02-1.67
21.00E-021.61E-153.14E-01-0.509.79E+044.992.20E-03-2.665.63E+011.751.30E+033.111.98E-03-2.701.07E+033.038.16E-04-3.09
31.00E-033.79E-132.04E-02-1.693.69E+033.571.43E-04-3.842.12E+000.334.91E+011.691.29E-04-3.894.05E+011.615.32E-05-4.27
41.00E-044.38E-111.90E-03-2.722.13E+022.331.33E-05-4.881.23E-01-0.912.84E+000.451.20E-05-4.922.34E+000.374.95E-06-5.31
51.00E-054.38E-091.90E-04-3.721.35E+011.131.33E-06-5.887.75E-03-2.111.79E-01-0.751.20E-06-5.921.48E-01-0.834.95E-07-6.31
61.00E-063.79E-072.04E-05-4.699.27E-01-0.031.43E-07-6.845.33E-04-3.271.23E-02-1.911.29E-07-6.891.02E-02-1.995.32E-08-7.27
71.00E-071.61E-053.14E-06-5.509.79E-02-1.012.20E-08-7.665.63E-05-4.251.30E-03-2.891.98E-08-7.701.07E-03-2.978.16E-09-8.09
81.00E-082.38E-048.16E-07-6.091.94E-02-1.715.71E-09-8.241.12E-05-4.952.59E-04-3.595.15E-09-8.292.13E-04-3.672.12E-09-8.67
91.00E-092.49E-032.52E-07-6.604.75E-03-2.321.77E-09-8.752.73E-06-5.566.32E-05-4.201.59E-09-8.805.21E-05-4.286.56E-10-9.18
101.00E-102.45E-028.04E-08-7.091.20E-03-2.925.63E-10-9.256.93E-07-6.161.60E-05-4.805.08E-10-9.291.32E-05-4.882.09E-10-9.68
111.00E-112.01E-012.81E-08-7.553.41E-04-3.471.97E-10-9.711.96E-07-6.714.54E-06-5.341.77E-10-9.753.74E-06-5.437.31E-11-10.14
121.00E-127.15E-011.49E-08-7.831.59E-04-3.801.04E-10-9.989.16E-08-7.042.12E-06-5.679.39E-11-10.031.74E-06-5.763.87E-11-10.41
131.00E-139.62E-011.28E-08-7.891.33E-04-3.888.98E-11-10.057.67E-08-7.121.77E-06-5.758.10E-11-10.091.46E-06-5.843.34E-11-10.48
141.00E-149.96E-011.26E-08-7.901.30E-04-3.888.83E-11-10.057.51E-08-7.121.74E-06-5.767.96E-11-10.101.43E-06-5.843.28E-11-10.48
logKsp
log K1 =-2.250.0056234133-15.8-18.9-20.11-35.1-28.28-20.2-28.7-20.97
log K2 =-6.750.00000017780000002.00E-290
log K3 =-11.60
Data from Norman (1998), pg. 191
U(VI)
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
CrAsO4
FeAsO4
Ca3(AsO4)2
Fe3(AsO4)2
Mn3(AsO4)2
Cu3(AsO4)2
AlAsO4
LaAsO4
AlAsO4
Ca3(AsO4)2
CrAsO4
Cu3(AsO4)2
Fe3(AsO4)2
FeAsO4
Mn3(AsO4)2
LaAsO4
pH
log Concentration
Dependence of As phase on pe, pH, & [HS-]
Rx: As2O3 + 4H+ + 2HS- + 2e- = As2S2 + 3H2O
log K =50.45
logSt4710
014.1210.875.22
-104.120.87-4.78
Sulfide SystemAlpha1Alpha1Alpha1
pK1 =7.10.00079369780.44268836620.9987425577
pK2 =17
000
000
pH = 4
pH = 7
pH = 10
As2O3
As2S2
log [Total S(-II)]
pe
pHH+alpha-olog[H3As]log[H2As-]log[HAs2-]log[As3-]
01.00E+009.90E-01-5.00E+00-7.00E+00-1.40E+01-2.60E+01
11.00E-019.09E-01-5.04E+00-6.04E+00-1.20E+01-2.30E+01
21.00E-025.00E-01-5.30E+00-5.30E+00-1.03E+01-2.03E+01
31.00E-039.09E-02-6.04E+00-5.04E+00-9.04E+00-1.80E+01
41.00E-049.89E-03-7.00E+00-5.00E+00-8.00E+00-1.60E+01
51.00E-059.89E-04-8.00E+00-5.00E+00-7.00E+00-1.40E+01
61.00E-069.09E-05-9.04E+00-5.04E+00-6.04E+00-1.20E+01
71.00E-075.00E-06-1.03E+01-5.30E+00-5.30E+00-1.03E+01
81.00E-089.09E-08-1.20E+01-6.04E+00-5.04E+00-9.04E+00
91.00E-099.89E-10-1.40E+01-7.00E+00-5.00E+00-8.00E+00
101.00E-109.89E-12-1.60E+01-8.00E+00-5.00E+00-7.00E+00
111.00E-119.09E-14-1.80E+01-9.04E+00-5.04E+00-6.04E+00
121.00E-125.00E-16-2.03E+01-1.03E+01-5.30E+00-5.30E+00
131.00E-139.09E-19-2.30E+01-1.20E+01-6.04E+00-5.04E+00
141.00E-149.90E-22-2.60E+01-1.40E+01-7.00E+00-5.00E+00
log Ct =-5
log K1 =-20.01
log K2 =-70.0000001
log K3 =-120
-5.0024353766-7.2524353766-14.0024353766-25.6024353766
-5.0237602389-6.2737602389-12.0237602389-22.6237602389
-5.1937787001-5.4437787001-10.1937787001-19.7937787001
-5.8211474173-5.0711474173-8.8211474173-17.4211474173
-6.7584132459-5.0084132459-7.7584132459-15.3584132459
-7.7584132478-5.0084132478-6.7584132478-13.3584132478
-8.821147582-5.071147582-5.821147582-11.421147582
-10.1937856825-5.4437856825-5.1937856825-9.7937856825
-12.0238635084-6.2738635084-5.0238635084-8.6238635084
-14.0035188222-7.2535188222-5.0035188222-7.6035188222
-16.0110123977-8.2610123977-5.0110123977-6.6110123977
-18.0973423124-9.3473423124-5.0973423124-5.6973423124
-20.5455411585-10.7955411585-5.5455411585-5.1455411585
-23.4169542986-12.6669542986-6.4169542986-5.0169542986
-26.4017255251-14.6517255251-7.4017255251-5.0017255251
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
pH
log Concentration
-
Coagulation-Filtration - Chwirka & Thomson*Redox Chemistry of As
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Solubility of As(III) Compounds
Coagulation-Filtration - Chwirka & Thomson
Chart6
-0.6949999997-0.6599999997-8.0496547346
-0.6949999974-0.6599999974-8.0496545474
-0.6949999738-0.6599999738-8.0496526751
-0.6949997383-0.6599997383-8.0496339532
-0.6949973831-0.6599973831-8.0494468074
-0.694973832-0.659973832-8.0475826314
-0.6947383903-0.6597383903-8.0296327396
-0.6923909494-0.6573909494-7.8962700006
-0.6695873622-0.6345873622-7.4685915349
-0.4900590707-0.4550590707-6.8244183926
0.15456605230.1895660523-5.9695004682
1.12422472391.1592247239-4.9819318027
2.34222394042.3772239404-3.8947592931
4.15624072324.1912407232-2.5691320818
6.66549149126.7004914912-0.9651976797
Arsenolite (As2O3)
Claudetite (As2O3)
Orpiment (As2S3)
pH
log Concentration
As(V)
pHH+H3AsO4H2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+009.94E-015.59E-039.94E-102.50E-21-5.00E+00-7.25E+00-1.40E+01-2.56E+010-14
11.00E-019.47E-015.32E-029.47E-082.38E-18-5.02E+00-6.27E+00-1.20E+01-2.26E+01-1-13
21.00E-026.40E-013.60E-016.40E-061.61E-15-5.19E+00-5.44E+00-1.02E+01-1.98E+01-2-12
31.00E-031.51E-018.49E-011.51E-043.79E-13-5.82E+00-5.07E+00-8.82E+00-1.74E+01-3-11
41.00E-041.74E-029.81E-011.74E-034.38E-11-6.76E+00-5.01E+00-7.76E+00-1.54E+01-4-10
51.00E-051.74E-039.81E-011.74E-024.38E-09-7.76E+00-5.01E+00-6.76E+00-1.34E+01-5-9
61.00E-061.51E-048.49E-011.51E-013.79E-07-8.82E+00-5.07E+00-5.82E+00-1.14E+01-6-8
71.00E-076.40E-063.60E-016.40E-011.61E-05-1.02E+01-5.44E+00-5.19E+00-9.79E+00-7-7
81.00E-089.47E-085.32E-029.47E-012.38E-04-1.20E+01-6.27E+00-5.02E+00-8.62E+00-8-6
91.00E-099.92E-105.58E-039.92E-012.49E-03-1.40E+01-7.25E+00-5.00E+00-7.60E+00-9-5
101.00E-109.75E-125.48E-049.75E-012.45E-02-1.60E+01-8.26E+00-5.01E+00-6.61E+00-10-4
111.00E-117.99E-144.49E-057.99E-012.01E-01-1.81E+01-9.35E+00-5.10E+00-5.70E+00-11-3
121.00E-122.85E-161.60E-062.85E-017.15E-01-2.05E+01-1.08E+01-5.55E+00-5.15E+00-12-2
131.00E-133.83E-192.15E-083.83E-029.62E-01-2.34E+01-1.27E+01-6.42E+00-5.02E+00-13-1
141.00E-143.97E-222.23E-103.97E-039.96E-01-2.64E+01-1.47E+01-7.40E+00-5.00E+00-140
log Ct =-5
log K1 =-2.250.0056234133
log K2 =-6.750.0000001778
log K3 =-11.60
As(V)
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(III)
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO4
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As(III) Solubility
pHH+alpha-oH2AsO4-HAsO42-AsO43-log[H3As]log[H2As-]log[HAs2-]log[As3-]log[H+]log[OH-]
01.00E+001.00E+006.03E-104.68E-221.82E-35-5.00E+00-1.42E+01-2.63E+01-3.97E+010-14
11.00E-011.00E+006.03E-094.68E-201.82E-32-5.00E+00-1.32E+01-2.43E+01-3.67E+01-1-13
21.00E-021.00E+006.03E-084.68E-181.82E-29-5.00E+00-1.22E+01-2.23E+01-3.37E+01-2-12
31.00E-031.00E+006.03E-074.68E-161.82E-26-5.00E+00-1.12E+01-2.03E+01-3.07E+01-3-11
41.00E-041.00E+006.03E-064.68E-141.82E-23-5.00E+00-1.02E+01-1.83E+01-2.77E+01-4-10
51.00E-051.00E+006.03E-054.68E-121.82E-20-5.00E+00-9.22E+00-1.63E+01-2.47E+01-5-9
61.00E-069.99E-016.02E-044.67E-101.82E-17-5.00E+00-8.22E+00-1.43E+01-2.17E+01-6-8
71.00E-079.94E-015.99E-034.65E-081.81E-14-5.00E+00-7.22E+00-1.23E+01-1.87E+01-7-7
81.00E-089.43E-015.68E-024.41E-061.72E-11-5.03E+00-6.25E+00-1.04E+01-1.58E+01-8-6
91.00E-096.24E-013.76E-012.92E-041.14E-08-5.20E+00-5.42E+00-8.53E+00-1.29E+01-9-5
101.00E-101.41E-018.52E-016.61E-032.57E-06-5.85E+00-5.07E+00-7.18E+00-1.06E+01-10-4
111.00E-111.52E-029.14E-017.09E-022.76E-04-6.82E+00-5.04E+00-6.15E+00-8.56E+00-11-3
121.00E-129.18E-045.53E-014.29E-011.67E-02-8.04E+00-5.26E+00-5.37E+00-6.78E+00-12-2
131.00E-131.41E-058.49E-026.59E-012.56E-01-9.85E+00-6.07E+00-5.18E+00-5.59E+00-13-1
141.00E-144.36E-082.63E-032.04E-017.93E-01-1.24E+01-7.58E+00-5.69E+00-5.10E+00-140
log Ct =-5
log K1 =-9.220.0000000006
log K2 =-12.110
log K3 =-13.410
As(III) Solubility
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
H3AsO4
H2AsO4-
HAsO42-
AsO43-
H3AsO3
H2AsO3-
HAsO32-
AsO33-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
log[H+]
log[OH-]
pH
log Concentration
As(V) Solubility
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
H3AsO3
H2AsO3-
HAsO32-
AsO33-
alpha-o
H2AsO4-
HAsO42-
AsO43-
pH
Fraction
As vs S
pHH+Alpha3As2O3Arsenolite (As2O3)As2O3Claudetite (As2O3)Alpha1-SAs2S3Orpiment (As2S3)
01.00E+001.00E+002.02E-01-0.692.19E-01-0.667.94E-088.92E-09-8.05
11.00E-011.00E+002.02E-01-0.692.19E-01-0.667.94E-078.92E-09-8.05
21.00E-021.00E+002.02E-01-0.692.19E-01-0.667.94E-068.92E-09-8.05
31.00E-031.00E+002.02E-01-0.692.19E-01-0.667.94E-058.92E-09-8.05
41.00E-041.00E+002.02E-01-0.692.19E-01-0.667.94E-048.92E-09-8.05
51.00E-051.00E+002.02E-01-0.692.19E-01-0.667.88E-038.96E-09-8.05
61.00E-069.99E-012.02E-01-0.692.19E-01-0.667.36E-029.34E-09-8.03
71.00E-079.94E-012.03E-01-0.692.20E-01-0.664.43E-011.27E-08-7.90
81.00E-089.43E-012.14E-01-0.672.32E-01-0.638.88E-013.40E-08-7.47
91.00E-096.24E-013.24E-01-0.493.51E-01-0.469.88E-011.50E-07-6.82
101.00E-101.41E-011.43E+000.151.55E+000.199.99E-011.07E-06-5.97
111.00E-111.52E-021.33E+011.121.44E+011.161.00E+001.04E-05-4.98
121.00E-129.18E-042.20E+022.342.38E+022.381.00E+001.27E-04-3.89
131.00E-131.41E-051.43E+044.161.55E+044.191.00E+002.70E-03-2.57
141.00E-144.36E-084.63E+066.675.02E+066.709.99E-011.08E-01-0.97
logKsp
log K1 =-9.220.0000000006-1.39-1.32logK1 =-7.17.94E-08-61.02
log K2 =-12.1104.07E-024.79E-02logK2 =-171.00E-179.55E-62
log K3 =-13.410
Reactions:
Arsenolite & Claudetite:
As2O3 + 3H2O = 2H3AsO3
Orpiment:
As2S3 + 6H2O = 3HS- + 2H3AsO3 + 3H+
As vs S
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
Arsenolite (As2O3)
Claudetite (As2O3)
Orpiment (As2S3)
pH
log Concentration
U(VI)
pHH+Alpha3AlAsO4AlAsO4Ca3(AsO4)2Ca3(AsO4)2CrAsO4CrAsO4Cu3(AsO4)2Cu3(AsO4)2Fe3(AsO4)2Fe3(AsO4)2FeAsO4FeAsO4Mn3(AsO4)2Mn3(AsO4)2
01.00E+002.50E-212.52E+022.402.99E+088.481.76E+000.251.72E+055.243.98E+066.601.59E+000.203.28E+066.52
11.00E-012.38E-188.16E+000.914.88E+066.695.71E-02-1.242.81E+033.456.50E+044.815.15E-02-1.295.35E+044.73
21.00E-021.61E-153.14E-01-0.509.79E+044.992.20E-03-2.665.63E+011.751.30E+033.111.98E-03-2.701.07E+033.03
31.00E-033.79E-132.04E-02-1.693.69E+033.571.43E-04-3.842.12E+000.334.91E+011.691.29E-04-3.894.05E+011.61
41.00E-044.38E-111.90E-03-2.722.13E+022.331.33E-05-4.881.23E-01-0.912.84E+000.451.20E-05-4.922.34E+000.37
51.00E-054.38E-091.90E-04-3.721.35E+011.131.33E-06-5.887.75E-03-2.111.79E-01-0.751.20E-06-5.921.48E-01-0.83
61.00E-063.79E-072.04E-05-4.699.27E-01-0.031.43E-07-6.845.33E-04-3.271.23E-02-1.911.29E-07-6.891.02E-02-1.99
71.00E-071.61E-053.14E-06-5.509.79E-02-1.012.20E-08-7.665.63E-05-4.251.30E-03-2.891.98E-08-7.701.07E-03-2.97
81.00E-082.38E-048.16E-07-6.091.94E-02-1.715.71E-09-8.241.12E-05-4.952.59E-04-3.595.15E-09-8.292.13E-04-3.67
91.00E-092.49E-032.52E-07-6.604.75E-03-2.321.77E-09-8.752.73E-06-5.566.32E-05-4.201.59E-09-8.805.21E-05-4.28
101.00E-102.45E-028.04E-08-7.091.20E-03-2.925.63E-10-9.256.93E-07-6.161.60E-05-4.805.08E-10-9.291.32E-05-4.88
111.00E-112.01E-012.81E-08-7.553.41E-04-3.471.97E-10-9.711.96E-07-6.714.54E-06-5.341.77E-10-9.753.74E-06-5.43
121.00E-127.15E-011.49E-08-7.831.59E-04-3.801.04E-10-9.989.16E-08-7.042.12E-06-5.679.39E-11-10.031.74E-06-5.76
131.00E-139.62E-011.28E-08-7.891.33E-04-3.888.98E-11-10.057.67E-08-7.121.77E-06-5.758.10E-11-10.091.46E-06-5.84
141.00E-149.96E-011.26E-08-7.901.30E-04-3.888.83E-11-10.057.51E-08-7.121.74E-06-5.767.96E-11-10.101.43E-06-5.84
logKsp
log K1 =-2.250.0056234133-15.8-18.9-20.11-35.1-28.28-20.2-28.7
log K2 =-6.750.00000017780000000
log K3 =-11.60
Data from Norman (1998), pg. 191
U(VI)
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
0000000
AlAsO4
Ca3(AsO4)2
CrAsO4
Cu3(AsO4)2
Fe3(AsO4)2
FeAsO4
Mn3(AsO4)2
pH
log Concentration
Dependence of As phase on pe, pH, & [HS-]
Rx: As2O3 + 4H+ + 2HS- + 2e- = As2S2 + 3H2O
log K =50.45
logSt4710
014.1210.875.22
-104.120.87-4.78
Sulfide SystemAlpha1Alpha1Alpha1
pK1 =7.10.00079369780.44268836620.9987425577
pK2 =17
000
000
pH = 4
pH = 7
pH = 10
As2O3
As2S2
log [Total S(-II)]
pe
pHH+alpha-olog[H3As]log[H2As-]log[HAs2-]log[As3-]
01.00E+009.90E-01-5.00E+00-7.00E+00-1.40E+01-2.60E+01
11.00E-019.09E-01-5.04E+00-6.04E+00-1.20E+01-2.30E+01
21.00E-025.00E-01-5.30E+00-5.30E+00-1.03E+01-2.03E+01
31.00E-039.09E-02-6.04E+00-5.04E+00-9.04E+00-1.80E+01
41.00E-049.89E-03-7.00E+00-5.00E+00-8.00E+00-1.60E+01
51.00E-059.89E-04-8.00E+00-5.00E+00-7.00E+00-1.40E+01
61.00E-069.09E-05-9.04E+00-5.04E+00-6.04E+00-1.20E+01
71.00E-075.00E-06-1.03E+01-5.30E+00-5.30E+00-1.03E+01
81.00E-089.09E-08-1.20E+01-6.04E+00-5.04E+00-9.04E+00
91.00E-099.89E-10-1.40E+01-7.00E+00-5.00E+00-8.00E+00
101.00E-109.89E-12-1.60E+01-8.00E+00-5.00E+00-7.00E+00
111.00E-119.09E-14-1.80E+01-9.04E+00-5.04E+00-6.04E+00
121.00E-125.00E-16-2.03E+01-1.03E+01-5.30E+00-5.30E+00
131.00E-139.09E-19-2.30E+01-1.20E+01-6.04E+00-5.04E+00
141.00E-149.90E-22-2.60E+01-1.40E+01-7.00E+00-5.00E+00
log Ct =-5
log K1 =-20.01
log K2 =-70.0000001
log K3 =-120
-5.0024353766-7.2524353766-14.0024353766-25.6024353766
-5.0237602389-6.2737602389-12.0237602389-22.6237602389
-5.1937787001-5.4437787001-10.1937787001-19.7937787001
-5.8211474173-5.0711474173-8.8211474173-17.4211474173
-6.7584132459-5.0084132459-7.7584132459-15.3584132459
-7.7584132478-5.0084132478-6.7584132478-13.3584132478
-8.821147582-5.071147582-5.821147582-11.421147582
-10.1937856825-5.4437856825-5.1937856825-9.7937856825
-12.0238635084-6.2738635084-5.0238635084-8.6238635084
-14.0035188222-7.2535188222-5.0035188222-7.6035188222
-16.0110123977-8.2610123977-5.0110123977-6.6110123977
-18.0973423124-9.3473423124-5.0973423124-5.6973423124
-20.5455411585-10.7955411585-5.5455411585-5.1455411585
-23.4169542986-12.6669542986-6.4169542986-5.0169542986
-26.4017255251-14.6517255251-7.4017255251-5.0017255251
H3AsO4
H2AsO4-
HAsO42-
AsO43-
log[H3As]
log[H2As-]
log[HAs2-]
log[As3-]
pH
log Concentration
-
Coagulation-Filtration - Chwirka & Thomson*Solubility of As(V) Species
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Important PointsAs has two oxidation states - As(III) & As(V)As(III)Non-ionic (H3AsO3) at neutral pHHigh solubilityMore toxic to many organismsAs(V)Ionic (H2AsO4-/HAsO42-) at neutral pHSome phases are less solubleMore reactive in solution:MembranesIXAdsorption
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*CoprecipitationCoprecipitation involves removal of two or more constituents by a precipitation reaction. Coprecipitation of As with Fe(OH)3 is an effective treatment process:
FeCl3 + 3H2O = Fe(OH)3(s) + 3H+ + 3Cl-Points:Produces HCl which will lower pHTypical Fe dose ~10-4 M, whereas As conc. ~10-7 M, hence As is minor component within precipitateAs likely removed by adsorption onto Fe(OH)3 surface with subsequent enmeshment as floc particle growsAl(OH)3 also effective
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Solubility of Fe(OH)3
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Effect of pH on Surface Charge of Fe(OH)3
Coagulation-Filtration - Chwirka & Thomson
Chart2
0.00000005130.99999994870
0.00000051290.99999948710
0.00000512860.99999487140
0.00005128350.99994871640.0000000001
0.00051259850.99948739550.000000006
0.00510244230.99489695820.0000005995
0.04878138990.95116129690.0000573131
0.33765605390.65837683330.0039671127
0.76191973010.14856250710.0895177628
0.45570626250.00888556390.5354081736
0.07842568040.00015291790.9214214017
0.00843953430.00000164560.9915588201
0.00085041420.00000001660.9991495692
0.00008510660.00000000020.9999148933
0.000008511300.9999914887
FeOH2+
FeOHo
FeO-
FeOH
FeOH2+
FeO-
pH
Fraction
Sheet1
pH[H+]FeOHFeOH2+FeO-
01.00E+005.13E-081.00E+006.03E-17
11.00E-015.13E-071.00E+006.03E-15
21.00E-025.13E-061.00E+006.03E-13
31.00E-035.13E-051.00E+006.03E-11
41.00E-045.13E-049.99E-016.02E-09
51.00E-055.10E-039.95E-015.99E-07
61.00E-064.88E-029.51E-015.73E-05
71.00E-073.38E-016.58E-013.97E-03
81.00E-087.62E-011.49E-018.95E-02
91.00E-094.56E-018.89E-035.35E-01
101.00E-107.84E-021.53E-049.21E-01
111.00E-118.44E-031.65E-069.92E-01
121.00E-128.50E-041.66E-089.99E-01
131.00E-138.51E-051.66E-101.00E+00
141.00E-148.51E-061.66E-121.00E+00
log K1 =7.291.95E+07
log K2 =-8.931.17E-09
&A
Page &P
Sheet1
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
&A
Page &P
FeOH2+
FeOHo
FeO-
FeOH
FeOH2+
FeO-
pH
Fraction
-
Coagulation-Filtration - Chwirka & Thomson*Covalent Bond Formation(Grossl et al., 1997)
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*pH of Zero Point of ChargeElectrostatic attraction is important first step in adsorptionpHzpc = pH at which net surface charge = 0Surface is positive at pH < pHzpcMost clay minerals have pHzpc < 6Hence poor adsorptionClays dominate surface chemistry of soilsFe(OH)3 and Al2O3 have relatively high pHzpcGood adsorbents of As(V)
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*As Removal by Conventional Treatment (McNeill & Edwards 1997)Survey of conventional coagulation-flocculation water treatment plantsCorrelate As removal to removal of Fe, Mn, & Al
[Fe] = Iron Precip. Formed (mM)
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*As Removal by Conventional Trt. - 2
Coagulation-Filtration - Chwirka & Thomson
Chart1
00
4540
6560
8075
8782
9085
[Fe]
[Fe]+[Al]
Precipitate Formed (mM)
As Removal (%)
Sheet1
Precip. Formed (mM)[Fe][Fe]+[Al]
000
0.014540
0.026560
0.048075
0.068782
0.089085
Sheet1
[Fe]
[Fe]+[Al]
Precipitate Formed (mM)
As Removal (%)
Sheet2
Sheet3
-
Coagulation-Filtration - Chwirka & Thomson*As Removal by Conventional Trt. - 3Strong correlation to removal of Fe & use of FeCl3 as coagulantWeaker correlation to removal of Al & use of AlumPossible sorption onto colloidal Al(OH)3 which passes through granular media filtersImproved As removal achieved by minimizing effluent total Al concentrationNote the importance of particulate As
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Arsenic Removal vs FeCl3 Dose, Albuquerque NM
Coagulation-Filtration - Chwirka & Thomson
Chart4
408.46
19.237.99
3.37.36
1.187.2
1.517.05
1.186.83
0.756.56
&A
Page &P
Residual Arsenic
Filtrate pH
FeCl3 Dose, mg Fe/L
Residual As, ug/L
Filtrate pH
Fe(OH)3 Vs FeCl3
Arsenic Data Transcribed from Ganesh's Graphs
Preformemed Fe(OH)3 Dose as Fe, mg/LResidual Arsenic from Preformed Fe(OH)3 Addition, ug/LFerric Chloride Dose as Fe, mg/LResidual Arsenic from Ferric Addition, ug/L
040040
1.7631.462.519.23
411.425.53.3
6.383.337.31.18
7.572.559.341.51
9.552.13121.18
11.881.0518.10.75
15.480.89
17.290.87
18.80.74
&A
Page &P
Fe(OH)3 Vs FeCl3
00
00
00
00
00
00
00
0
0
0
&A
Page &P
Residual Arsenic from Preformed Fe(OH)3 Addition, ug/L
Residual Arsenic from Ferric Addition, ug/L
Ferric Dose as Fe, mg/L
Residual Arsenic, ug/L
FeCl3
Ferric Chloride Dose as Fe, mg/LResidual Arsenic from Ferric Addition, ug/LFiltate pH
0408.46
2.519.237.99
5.53.37.36
7.31.187.2
9.341.517.05
121.186.83
18.10.756.56
&A
Page &P
FeCl3
00
00
00
00
00
00
00
&A
Page &P
Residual Arsenic
Filtrate pH
FeCl3 Dose, mg Fe/L
Residual As, ug/L
Filtrate pH
As Removal with FeCl3 and Rapid Mixing
Fe(OH)3
Preformemed Fe(OH)3 Dose as Fe, mg/LResidual Arsenic from Preformed Fe(OH)3 Addition, ug/LFiltrate pH
0408.43
1.7631.468.18
411.427.69
6.383.337.11
7.572.557.08
9.552.136.86
11.881.056.72
15.480.896.48
17.290.876.43
18.80.746.33
&A
Page &P
Fe(OH)3
00
00
00
00
00
00
00
00
00
00
&A
Page &P
Residual Arsenic from Preformed Fe(OH)3 Addition, ug/L
Filtrate pH
Fe(OH)3 Dose, mg Fe/L
Residual As, ug/L
Filtrate pH
Phase 1 Fe(OH)3 Addition Pump Mixing
Sheet4
&A
Page &P
Sheet5
&A
Page &P
Sheet6
&A
Page &P
Sheet7
&A
Page &P
Sheet8
&A
Page &P
Sheet9
&A
Page &P
Sheet10
&A
Page &P
Sheet11
&A
Page &P
Sheet12
&A
Page &P
Sheet13
&A
Page &P
Sheet14
&A
Page &P
Sheet15
&A
Page &P
Sheet16
&A
Page &P
-
Coagulation-Filtration - Chwirka & Thomson*Ambient pH: FeCl3 vs As Leakage, NAS Fallon
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*El Paso Jar Testing
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*pH Adjustment with CO2, NAS Fallon, NV
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Silica Impacts Arsenic Removal at pH 7.0 and AbovepH 8.5pH 7.5pH 6.5FeCl3 Dose: 4 mg/LAfter Clifford and Ghurye
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Silica Speciation with pH
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Silica in US Water Supplies (NAOS)After Davis and Edwards
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Polymeric SilicaAfter Davis and Edwards50 mg/L17 mg/L5 mg/L
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Coagulation/ FiltrationUse pressure filtersDirect Filtration frequently used for iron and manganese removal.Limited to low ferric dose applications. High coagulant dose will result in frequent backwash requirementsIncreased residuals production & handling costsIncreased production of wastewater
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Schematic of Coagulation/ FiltrationAerationFeCl3Rapid MixSolids to DewateringTreated WaterPressure FilterSolids to LandfillRaw WaterCO2CO2
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Calculation of Filter Loading LimitationRule of Thumb, no more than 10 mg/L of FeCl3Limit Solids Loading to 0.1 lbs/SFMay need to add sedimentation
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Vertical Pressure Filter
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Direct Filtration Performance(Based on 0.1 lbs Solids/sf)
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Backwash Water as Percent of Production(Based on 250 gal/sf)
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*C/F O&M IssuesLarge backwash volume (20 gpm/sf for 10 minutes) Tanks may need internal painting, 10 yr intervals. Use 316 SST.Standby filters, typically provided, but need to evaluate.Pneumatic or electric valve operators.
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Coagulation/ Pressure FiltrationParticle sizeParticle breakthroughbackwash requirementsfilter ripeningBackup Filters
Coagulation-Filtration - Chwirka & Thomson
-
Coagulation-Filtration - Chwirka & Thomson*Coagulation/ MicrofiltrationPilot tested in Albuquerque, 1998Pilot tested in NAS Fallon, NV, 2001Pilot tested in El Paso, TX, 2001/2002Fallon Paiute Shoshone Tribe: 0.5 mgdCity of Albuquerque: 2.3 mgd
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Microfiltration General ConceptsLow Operating Pressure, 5 - 30 psi0.1 to 0.2 micron pore sizeWater flow from Outside to the InsideAir-Water BackwashBackwash Every 25 to 30 minutes (95% recovery)Flux rate defined as Gallons/SF/Day (GFD)Chemical Cleaning Frequency > 30 days
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*What is C/MF?
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Pressure Driven Membranes
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*MF Process Operates in Direct Filtration Mode
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Solids are Removed from Module by an Air-Water Backwash
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Coagulation/ MicrofiltrationPilot tested in Albuquerque, 1998Pilot tested in NAS Fallon, NV, 2001Pilot tested in El Paso, TX, 2001/2002Fallon Paiute Shoshone Tribe: 0.5 mgdCity of Albuquerque: 2.3 mgd
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Microfiltration General ConceptsLow Operating Pressure, 5 - 30 psi0.1 to 0.2 micron pore sizeWater flow from Outside to the InsideAir-Water BackwashBackwash Every 25 to 30 minutes (95% recovery)Flux rate defined as Gallons/SF/Day (GFD)Chemical Cleaning Frequency > 30 days
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*What is C/MF?
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Pressure Driven Membranes
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*MF Process Operates in Direct Filtration Mode
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Solids are Removed from Module by an Air-Water Backwash
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Pall Microfilter
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Memcor PerformanceNAS Fallon, 15 mg/L FeCl325 GFD (No FeCl3)27 GFD38 GFD(No FeCl3)32 GFD27 GFD
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Memcor Cleaning EfficiencyNAS Fallon, Citric Acid
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Pall PerformanceNAS Fallon, FeCl3 45 mg/L
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*El Paso C/MF Pilot Studies
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*El Paso Pilot StudiesOnly Pall MF testedFerric dose 10 mg/LpH lowered to 6.8 with CO2
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*El Paso Pall Performance
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Fallon Paiute Shoshone Tribe C/MF PFD
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Fallon Paiute Shoshone Tribe C/MF
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Fallon Paiute Shoshone Tribe As Treatment Faciliy
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Fallon Paiute Shoshone Tribe Start-upDecember 2004
Coagulation-Filtration - Chwirka & Thomson
Chart2
202939
4156
3123
311
11
4
pH = 6.8
pH = 7.4
pH = 8.0
Ferric Chloride Dose
Finished Water Arsenic
Sheet1
Fallon Paiute-Shoshone Tribe Arsenic WTP Optimization Testing
Finished Water Arsenic
pH = 6.8pH = 7.4pH = 8.0
fieldlabfieldlabfieldlab
Bottle No.FeCl3 Dosearsenic (ug/L)arsenic (ug/L)Bottle No.FeCl3 Dosearsenic (ug/L)arsenic (ug/L)Bottle No.FeCl3 Dosearsenic (ug/L)arsenic (ug/L)
20453020205102429211157039
21487420615151521235106
20215632072012122134563
2012063208251211
203*10370209301011
* this data point looks to be a sampling error and2104084
has been removed from the
Sheet1
pH = 6.8
pH = 7.4
pH = 8.0
Ferric Chloride Dose
Finished Water Arsenic
Arsenic Removal Using C/MF (Field Arsenic Testing)
Sheet2
pH = 6.8
pH = 7.4
pH = 8.0
Ferric Chloride Dose
Finished Water Arsenic
Sheet3
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Coagulation-Filtration - Chwirka & Thomson*C/MF SummaryEmerging Technology for Arsenic TreatmentCan be designed for high flux rates with Low TOC groundwaterOptimize solids loading by pH pre-treatmentCost competitive with other technologies
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Recent Studies on Particle Size Filtration and Arsenic Removal
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*C/MF O&M IssuesMembrane Replacement: Pall warrantees membranes for 10 years, prorated.Chemical cleaning with citric acid, can not be recycled, must be disposed of.Provide sufficient replacement parts, not system redundancy.
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Comparison of C/MF to Pressure Filters at the Fallon Paiute Shoshone Tribe
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Residuals Characteristics for C/MF and C/FC/MF around 4% to 5 % Backwash.C/F around 5% to 10% Backwash.Recycle the backwash water to minimize wastewater.Ferric residuals will pass TCLP, however, may not pass the Cal WET.
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Residuals HandlingMechanical dewatering will be complicated: Ferric sludge is difficult to dewaterNeed body additives, Diatomaceous EarthFilter Bottom Dumpsters and polymer for small applications.Solids drying ponds:Ponds need to be lined.Anaerobic conditions may release the As.Provide access for sludge removal equipment.
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Concurrent Iron, Manganese, and ArsenicDrinking Water StandardsFe: Secondary Standard of 0.30 mg/LMn: Secondary Standard of 0.05 mg/L
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Iron and Arsenic RemovalOxidize Fe with Cl2 or O3Adsorb As onto Fe(OH)3 precipitatepH needs to be around 7.3
Coagulation-Filtration - Chwirka & Thomson
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Coagulation-Filtration - Chwirka & Thomson*Manganese and Arsenic RemovalAs requires low pH for adsorptionMn requires high pH (>10) for oxidation with Cl2Mn oxidation by ClO2 is rapid & appears to be independent of pHClO2 reported to be ineffective for As(III) oxidation.May need to add Cl2 in addition
Coagulation-Filtration - Chwirka & Thomson
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