Loading (50 kb)...'
(continued)
PCB 1248 c......................................................... 12-34 .......... 294 330 262 ........ ........ ........
PCB 1254 c......................................................... 22-34 36 294 330 362 ........ ........ ........
PCB 1260 c......................................................... 23-32 .......... 330 362 394 ........ ........ ........
--------------------------------------------------------------------------------------------------------------------------------------------------------
a The proper chemical name is 2,2[prime]-bisoxy(1-chloropropane).
b See Section 1.2.
c These compounds are mixtures of various isomers (See Figures 2 through 12). Column conditions: Supelcoport (100/120 mesh) coated with 3% SP-2250
packed in a 1.8 m long x 2 mm ID glass column with helium carrier gas at 30 mL/min. flow rate. Column temperature held isothermal at 50 °C for 4
min., then programmed at 8 °C/min. to 270 °C and held for 30 min.
Table 5_Chromatographic Conditions, Method Detection Limits, and Characteristic Masses for Acid Extractables
--------------------------------------------------------------------------------------------------------------------------------------------------------
Method Characteristic masses
Retention detection -------------------------------------------------------------
Parameter time limit Electron Impact Chemical ionization
(min) (µg/ -------------------------------------------------------------
L) Primary Secondary Secondary Methane Methane Methane
--------------------------------------------------------------------------------------------------------------------------------------------------------
2-Chlorophenol..................................................... 5.9 3.3 128 64 130 129 131 157
2-Nitrophenol...................................................... 6.5 3.6 139 65 109 140 168 122
Phenol............................................................. 8.0 1.5 94 65 66 95 123 135
2,4-Dimethylphenol................................................. 9.4 2.7 122 107 121 123 151 163
2,4-Dichlorophenol................................................. 9.8 2.7 162 164 98 163 165 167
2,4,6-Trichlorophenol.............................................. 11.8 2.7 196 198 200 197 199 201
4-Chloro-3-methylphenol............................................ 13.2 3.0 142 107 144 143 171 183
2,4-Dinitrophenol.................................................. 15.9 42 184 63 154 185 213 225
2-Methyl-4,6-dinitrophenol......................................... 16.2 24 198 182 77 199 227 239
Pentachlorophenol.................................................. 17.5 3.6 266 264 268 267 265 269
4-Nitrophenol...................................................... 20.3 2.4 65 139 109 140 168 122
--------------------------------------------------------------------------------------------------------------------------------------------------------
Column conditions: Supelcoport (100/120 mesh) coated with 1% SP-1240DA packed in a 1.8 m long x 2mm ID glass column with helium carrier gas at 30 mL/
min. flow rate. Column temperature held isothermal at 70 °C for 2 min. then programmed at 8 °C/min. to 200 °C.
Table 6_QC Acceptance Criteria_Method 625
----------------------------------------------------------------------------------------------------------------
Test
conclusion Limits for Range for Range for
Parameter (µg/ s (µg/ X(µg/ P, Ps
L) L) L) (Percent)
----------------------------------------------------------------------------------------------------------------
Acenaphthene................................................ 100 27.6 60.1-132.3 47-145
Acenaphthylene.............................................. 100 40.2 53.5-126.0 33-145
Aldrin...................................................... 100 39.0 7.2-152.2 D-166
Anthracene.................................................. 100 32.0 43.4-118.0 27-133
Benzo(a)anthracene.......................................... 100 27.6 41.8-133.0 33-143
Benzo(b)fluoranthene........................................ 100 38.8 42.0-140.4 24-159
Benzo(k)fluoranthene........................................ 100 32.3 25.2-145.7 11-162
Benzo(a)pyrene.............................................. 100 39.0 31.7-148.0 17-163
Benzo(ghi)perylene.......................................... 100 58.9 D-195.0 D-219
Benzyl butyl phthalate...................................... 100 23.4 D-139.9 D-152
ß-BHC.................................................. 100 31.5 41.5-130.6 24-149
d-BHC................................................. 100 21.6 D-100.0 D-110
Bis(2-chloroethyl) ether.................................... 100 55.0 42.9-126.0 12-158
Bis(2-chloroethoxy)methane.................................. 100 34.5 49.2-164.7 33-184
Bis(2-chloroisopropyl) ether a.............................. 100 46.3 62.8-138.6 36-166
Bis(2-ethylhexyl) phthalate................................. 100 41.1 28.9-136.8 8-158
4-Bromophenyl phenyl ether.................................. 100 23.0 64.9-114.4 53-127
2-Chloronaphthalene......................................... 100 13.0 64.5-113.5 60-118
4-Chlorophenyl phenyl ether................................. 100 33.4 38.4-144.7 25-158
Chrysene.................................................... 100 48.3 44.1-139.9 17-168
4,4[prime]-DDD.............................................. 100 31.0 D-134.5 D-145
4,4[prime]-DDE.............................................. 100 32.0 19.2-119.7 4-136
4,4[prime]-DDT.............................................. 100 61.6 D-170.6 D-203
Dibenzo(a,h)anthracene...................................... 100 70.0 D-199.7 D-227
Di-n-butyl phthalate........................................ 100 16.7 8.4-111.0 1-118
1,2-Dichlorobenzene......................................... 100 30.9 48.6-112.0 32-129
1,3-Dichlorobenzene......................................... 100 41.7 16.7-153.9 D-172
1,4,-Dichlorobenzene........................................ 100 32.1 37.3-105.7 20-124
3,3[prime]-Dhlorobenzidine.................................. 100 71.4 8.2-212.5 D-262
Dieldrin.................................................... 100 30.7 44.3-119.3 29-136
Diethyl phthalate........................................... 100 26.5 D-100.0 D-114
Dimethyl phthalate.......................................... 100 23.2 D-100.0 D-112
2,4-Dinitrotoluene.......................................... 100 21.8 47.5-126.9 39-139
2,6-Dinitrotoluene.......................................... 100 29.6 68.1-136.7 50-158
Di-n-octyl phthalate........................................ 100 31.4 18.6-131.8 4-146
Endosulfan sulfate.......................................... 100 16.7 D-103.5 D-107
Endrin aldehyde............................................. 100 32.5 D-188.8 D-209
Fluoranthene................................................ 100 32.8 42.9-121.3 26-137
Fluorene.................................................... 100 20.7 71.6-108.4 59-121
Heptachlor.................................................. 100 37.2 D-172.2 D-192
Heptachlor epoxide.......................................... 100 54.7 70.9-109.4 26-155
Hexachlorobenzene........................................... 100 24.9 7.8-141.5 D-152
Hexachlorobutadiene......................................... 100 26.3 37.8-102.2 24-116
Hexachloroethane............................................ 100 24.5 55.2-100.0 40-113
Indeno(1,2,3-cd)pyrene...................................... 100 44.6 D-150.9 D-171
Isophorone.................................................. 100 63.3 46.6-180.2 21-196
Naphthalene................................................. 100 30.1 35.6-119.6 21-133
Nitrobenzene................................................ 100 39.3 54.3-157.6 35-180
N-Nitrosodi-n-propylamine................................... 100 55.4 13.6-197.9 D-230
PCB-1260.................................................... 100 54.2 19.3-121.0 D-164
Phenanthrene................................................ 100 20.6 65.2-108.7 54-120
Pyrene...................................................... 100 25.2 69.6-100.0 52-115
1,2,4-Trichlorobenzene...................................... 100 28.1 57.3-129.2 44-142
4-Chloro-3-methylphenol..................................... 100 37.2 40.8-127.9 22-147
2-Chlorophenol.............................................. 100 28.7 36.2-120.4 23-134
2,4-Dichlorophenol.......................................... 100 26.4 52.5-121.7 39-135
2,4-Dimethylphenol.......................................... 100 26.1 41.8-109.0 32-119
2,4-Dinitrophenol........................................... 100 49.8 D-172.9 D-191
2-Methyl-4,6-dinitrophenol.................................. 100 93.2 53.0-100.0 D-181
2-Nitrophenol............................................... 100 35.2 45.0-166.7 29-182
4-Nitrophenol............................................... 100 47.2 13.0-106.5 D-132
Pentachlorophenol........................................... 100 48.9 38.1-151.8 14-176
Phenol...................................................... 100 22.6 16.6-100.0 5-112
2,4,6-Trichlorophenol....................................... 100 31.7 52.4-129.2 37-144
----------------------------------------------------------------------------------------------------------------
s=Standard deviation for four recovery measurements, in µg/L (Section 8.2.4).
X=Average recovery for four recovery measurements, in µg/L (Section 8.2.4).
P, Ps=Percent recovery measured (Section 8.3.2, Section 8.4.2).
D=Detected; result must be greater than zero.
Note: These criteria are based directly upon the method performance data in Table 7. Where necessary, the limits
for recovery have been broadened to assure applicability of the limts to concentrations below those used to
develop Table 7.
a The proper chemical name is 2,2[prime]oxybis(1-chloropropane).
Table 7_Method Accuracy and Precision as Functions of Concentration_Method 625
----------------------------------------------------------------------------------------------------------------
Accuracy, as Overall
recovery, Single analyst precision,
Parameter X[prime] precision, sr' S[prime]
(µg/L) (µg/L) (µg/L)
----------------------------------------------------------------------------------------------------------------
Acenaphthene.................................................... 0.96C=0.19 0.15X-0.12 0.21X-0.67
Acenaphthylene.................................................. 0.89C=0.74 0.24X-1.06 0.26X-0.54
Aldrin.......................................................... 0.78C=1.66 0.27X-1.28 0.43X=1.13
Anthracene...................................................... 0.80C=0.68 0.21X-0.32 0.27X-0.64
Benzo(a)anthracene.............................................. 0.88C-0.60 0.15X=0.93 0.26X-0.28
Benzo(b)fluoranthene............................................ 0.93C-1.80 0.22X=0.43 0.29X=0.96
Benzo(k)fluoranthene............................................ 0.87C-1.56 0.19X=1.03 0.35X=0.40
Benzo(a)pyrene.................................................. 0.90C-0.13 0.22X=0.48 0.32X=1.35
Benzo(ghi)perylene.............................................. 0.98C-0.86 0.29X=2.40 0.51X-0.44
Benzyl butyl phthalate.......................................... 0.66C-1.68 0.18X=0.94 0.53X=0.92
ß-BHC...................................................... 0.87C-0.94 0.20X-0.58 0.30X-1.94
d-BHC..................................................... 0.29C-1.09 0.34X=0.86 0.93X-0.17
Bis(2-chloroethyl) ether........................................ 0.86C-1.54 0.35X-0.99 0.35X=0.10
Bis(2-chloroethoxy)methane...................................... 1.12C-5.04 0.16X=1.34 0.26X=2.01
Bis(2-chloroisopropyl) ether a.................................. 1.03C-2.31 0.24X=0.28 0.25X=1.04
Bis(2-ethylhexyl) phthalate..................................... 0.84C-1.18 0.26X=0.73 0.36X=0.67
4-Bromophenyl phenyl ether...................................... 0.91C-1.34 0.13X=0.66 0.16X=0.66
2-Chloronaphthalene............................................. 0.89C=0.01 0.07X=0.52 0.13X=0.34
4-Chlorophenyl phenyl ether..................................... 0.91C=0.53 0.20X-0.94 0.30X-0.46
Chrysene........................................................ 0.93C-1.00 0.28X=0.13 0.33X-0.09
4,4[prime]-DDD.................................................. 0.56C-0.40 0.29X-0.32 0.66X-0.96
4,4[prime]-DDE.................................................. 0.70C-0.54 0.26X-1.17 0.39X-1.04
4,4[prime]-DDT.................................................. 0.79C-3.28 0.42X=0.19 0.65X-0.58
Dibenzo(a,h)anthracene.......................................... 0.88C=4.72 0.30X=8.51 0.59X=0.25
Di-n-butyl phthalate............................................ 0.59C=0.71 0.13X=1.16 0.39X=0.60
1,2-Dichlorobenzene............................................. 0.80C=0.28 0.20X=0.47 0.24X=0.39
1,3-Dichlorobenzene............................................. 0.86C-0.70 0.25X=0.68 0.41X=0.11
1,4-Dichlorobenzene............................................. 0.73C-1.47 0.24X=0.23 0.29X=0.36
3,3[prime]-Dichlorobenzidine.................................... 1.23C-12.65 0.28X=7.33 0.47X=3.45
Dieldrin........................................................ 0.82C-0.16 0.20X-0.16 0.26X-0.07
Diethyl phthalate............................................... 0.43C=1.00 0.28X=1.44 0.52X=0.22
Dimethyl phthalate.............................................. 0.20C=1.03 0.54X=0.19 1.05X-0.92
2,4-Dinitrotoluene.............................................. 0.92C-4.81 0.12X=1.06 0.21X=1.50
2,6-Dinitrotoluene.............................................. 1.06C-3.60 0.14X=1.26 0.19X=0.35
Di-n-octyl phthalate............................................ 0.76C-0.79 0.21X=1.19 0.37X=1.19
Endosulfan sulfate.............................................. 0.39C=0.41 0.12X=2.47 0.63X-1.03
Endrin aldehyde................................................. 0.76C-3.86 0.18X=3.91 0.73X-0.62
Fluoranthene.................................................... 0.81C=1.10 0.22X-0.73 0.28X-0.60
Fluorene........................................................ 0.90C-0.00 0.12X=0.26 0.13X=0.61
Heptachlor...................................................... 0.87C-2.97 0.24X-0.56 0.50X-0.23
Heptachlor epoxide.............................................. 0.92C-1.87 0.33X-0.46 0.28X=0.64
Hexachlorobenzene............................................... 0.74C=0.66 0.18X-0.10 0.43X-0.52
Hexachlorobutadiene............................................. 0.71C-1.01 0.19X=0.92 0.26X=0.49
Hexachloroethane................................................ 0.73C-0.83 0.17X=0.67 0.17X=0.80
Indeno(1,2,3-cd)pyrene.......................................... 0.78C-3.10 0.29X=1.46 0.50X=0.44
Isophorone...................................................... 1.12C=1.41 0.27X=0.77 0.33X=0.26
Naphthalene..................................................... 0.76C=1.58 0.21X-0.41 0.30X-0.68
Nitrobenzene.................................................... 1.09C-3.05 0.19X=0.92 0.27X=0.21
N-Nitrosodi-n-propylamine....................................... 1.12C-6.22 0.27X=0.68 0.44X=0.47
PCB-1260........................................................ 0.81C-10.86 0.35X=3.61 0.43X=1.82
Phenanthrene.................................................... 0.87C-0.06 0.12X=0.57 0.15X=0.25
Pyrene.......................................................... 0.84C-0.16 0.16X=0.06 0.15X=0.31
1,2,4-Trichlorobenzene.......................................... 0.94C-0.79 0.15X=0.85 0.21X=0.39
4-Chloro-3-methylphenol......................................... 0.84C=0.35 0.23X=0.75 0.29X=1.31
2-Chlorophenol.................................................. 0.78C=0.29 0.18X=1.46 0.28X=0.97
2,4-Dichlorophenol.............................................. 0.87C=0.13 0.15X=1.25 0.21X=1.28
2,4-Dimethylphenol.............................................. 0.71C=4.41 0.16X=1.21 0.22X=1.31
2,4-Dinitrophenol............................................... 0.81C-18.04 0.38X=2.36 0.42X=26.29
2-Methyl-4,6-Dinitrophenol...................................... 1.04C-28.04 0.05X=42.29 0.26X=23.10
2-Nitrophenol................................................... 1.07C-1.15 0.16X=1.94 0.27X=2.60
4-Nitrophenol................................................... 0.61C-1.22 0.38X=2.57 0.44X=3.24
Pentachlorophenol............................................... 0.93C=1.99 0.24X=3.03 0.30X=4.33
Phenol.......................................................... 0.43C=1.26 0.26X=0.73 0.35X=0.58
2,4,6-Trichlorophenol........................................... 0.91C-0.18 0.16X=2.22 0.22X=1.81
----------------------------------------------------------------------------------------------------------------
X[prime]=Expected recovery for one or more measurements of a sample containing a concentration of C, in µg/
L.
sr[prime]=Expected single analyst standard deviation of measurements at an average concentration found of X, in
µg/L.
S[prime]= Expected interlaboratory standard deviation of measurements at an average concentration found of X, in
µg/L.
C= True value for the concentration, in µg/L.
X= Average recovery found for measurements of samples containing a concentration of C, in µg/L.
a The proper chemical name is 2,2[prime]oxybis(1-chloropropane).
Table 8_Suggested Internal and Surrogate Standards
------------------------------------------------------------------------
Base/neutral fraction Acid fraction
------------------------------------------------------------------------
Aniline-d5................................ 2-Fluorophenol.
Anthracene-d10............................ Pentafluorophenol.
Benzo(a)anthracene-d12.................... Phenol-d5
4,4[prime]-Dibromobiphenyl................ 2-Perfluoromethyl phenol.
4,4[prime]-Dibromooctafluorobiphenyl......
Decafluorobiphenyl........................
2,2 \1\-Difluorobiphenyl.................. ............................
4-Fluoroaniline........................... ............................
1-Fluoronaphthalene....................... ............................
2-Fluoronaphthalene....................... ............................
Naphthalene-d8............................ ............................
Nitrobenzene-d5........................... ............................
2,3,4,5,6-Pentafluorobiphenyl............. ............................
Phenanthrene-d10.......................... ............................
Pyridine-d5............................... ............................
------------------------------------------------------------------------
Table 9_DFTPP Key Masses and Abundance Criteria
------------------------------------------------------------------------
Mass m/z Abundance criteria
------------------------------------------------------------------------
51 30-60 percent of mass 198.
68 Less than 2 percent of mass 69.
70 Less than 2 percent of mass 69.
127 40-60 percent of mass 198.
197 Less than 1 percent of mass 198.
198 Base peak, 100 percent relative abundance.
199 5-9 percent of mass 198.
275 10-30 percent of mass 198.
365 Greater than 1 percent of mass 198.
441 Present but less than mass 443.
442 Greater than 40 percent of mass 198.
443 17-23 percent of mass 442.
------------------------------------------------------------------------
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Attachment 1 to Method 625
Introduction
To support measurement of several semivolatile pollutants, EPA has developed this attachment to EPA Method 625. 1 The modifications listed in this attachment are approved only for monitoring wastestreams from the Centralized Waste Treatment Point Source Category (40 CFR Part 437) and the Landfills Point Source Category (40 CFR Part 445). EPA Method 625 (the Method) involves sample extraction with methylene chloride followed by analysis of the extract using either packed or capillary column gas chromatography/mass spectrometry (GC/MS). This attachment addresses the addition of the semivolatile pollutants listed in Tables 1 and 2, to all applicable standard, stock, and spiking solutions utilized for the determination of semivolatile organic compounds by EPA Method 625.
1 EPA Method 625: Base/Neutrals and Acids, 40 CFR Part 136, Appendix A.
1.0 EPA METHOD 625 MODIFICATION SUMMARY
The additional semivolatile organic compounds listed in Tables 1 and 2 are added to all applicable calibration, spiking, and other solutions utilized in the determination of base/neutral and acid compounds by EPA Method 625. The instrument is to be calibrated with these compounds, using a capillary column, and all procedures and quality control tests stated in the Method must be performed.
2.0 SECTION MODIFICATIONS
Note: All section and figure numbers in this Attachment reference section and figure numbers in EPA Method 625 unless noted otherwise. Sections not listed here remain unchanged.
Section 6.7 The stock standard solutions described in this section are modified such that the analytes in Tables 1 and 2 of this attachment are required in addition to those specified in the Method.
Section 7.2 The calibration standards described in this section are modified to include the analytes in Tables 1 and 2 of this attachment.
Section 8.2 The precision and accuracy requirements are modified to include the analytes listed in Tables 1 and 2 of this attachment. Additional performance criteria are supplied in Table 5 of this attachment.
Section 8.3 The matrix spike is modified to include the analytes listed in Tables 1 and 2 of this attachment.
Section 8.4 The QC check standard is modified to include the analytes listed in Tables 1 and 2 of this attachment. Additional performance criteria are supplied in Table 5 of this attachment.
Section 16.0 Additional method performance information is supplied with this attachment.
Table 1_Base/Neutral Extractables
------------------------------------------------------------------------
Parameter CAS No.
------------------------------------------------------------------------
acetophenone 1............................................. 98-86-2
alpha-terpineol 3.......................................... 98-55-5
aniline 2.................................................. 62-53-3
carbazole 1................................................ 86-74-8
o-cresol 1................................................. 95-48-7
n-decane 1................................................. 124-18-5
2,3-dichloroaniline 1...................................... 608-27-5
n-octadecane 1............................................. 593-45-3
pyridine 2................................................. 110-86-1
------------------------------------------------------------------------
CAS = Chemical Abstracts Registry.
1 Analysis of this pollutant is approved only for the Centralized Waste
Treatment industry.
2 Analysis of this pollutant is approved only for the Centralized Waste
Treatment and Landfills industries.
3 Analysis of this pollutant is approved only for the Landfills
industry.
Table 2_Acid Extractables
------------------------------------------------------------------------
Parameter CAS No.
------------------------------------------------------------------------
p-cresol 1................................................. 106-44-5
------------------------------------------------------------------------
CAS = Chemical Abstracts Registry.
1 Analysis of this pollutant is approved only for the Centralized Waste
Treatment and Landfills industries.
Table 3_Chromatographic Conditions, \1\ Method Detection Limits (MDLs), and Characteristic m/z's for Base/
Neutral Extractables
----------------------------------------------------------------------------------------------------------------
Characteristic m/z's
Retention MDL --------------------------------------
Analyte time (min) (µg/ Electron impact
\2\ L) --------------------------------------
Primary Secondary Secondary
----------------------------------------------------------------------------------------------------------------
pyridine \3\................................... 4.93 4.6 79 52 51
N-Nitro sodimethylamine........................ 4.95 ........... 42 74 44
aniline \3\.................................... 10.82 3.3 93 66 65
Bis(2-chloroethyl)ether........................ 10.94 ........... 93 63 95
n-decane \4\................................... 11.11 5.0 57 ........... ...........
1,3-Dichlorobenzene............................ 11.47 ........... 146 148 113
1,4-Dichlorobenzene............................ 11.62 ........... 146 148 113
1,2-Dichlorobenzene............................ 12.17 ........... 146 148 113
o-creso \1\.................................... 12.48 4.7 108 107 79
Bis(2-chloro- isopropyl)ether.................. 12.51 ........... 45 77 79
acetophenone \4\............................... 12.88 3.4 105 77 51
N-Nitrosodi-n-propylamine...................... 12.97 ........... 130 42 101
Hexachloroethane............................... 13.08 ........... 117 201 199
Nitrobenzene................................... 13.40 ........... 77 123 65
Isophorone..................................... 14.11 ........... 82 95 138
Bis (2-chloro ethoxy)methane................... 14.82 ........... 93 95 123
1,2,4-Trichlorobenzene......................... 15.37 ........... 180 182 145
alpha-terpineol................................ 15.55 5.0 59 ........... ...........
Naphthalene.................................... 15.56 ........... 128 129 127
Hexachlorobutadiene............................ 16.12 ........... 225 223 227
Hexachlorocyclopentadiene...................... 18.47 ........... 237 235 272
2,3-dichloroaniline \4\........................ 18.82 2.5 161 163 90
2-Chloronaphthalene............................ 19.35 ........... 162 164 127
Dimethyl phthalate............................. 20.48 ........... 163 194 164
Acenaphthylene................................. 20.69 ........... 152 151 153
2,6-Dinitrotoluene............................. 20.73 ........... 165 89 121
Acenaphthene................................... 21.30 ........... 154 153 152
2,4-Dinitrotoluene............................. 22.00 ........... 165 63 182
Diethylphthalate............................... 22.74 ........... 149 177 150
4-Chlorophenyl phenyl ether.................... 22.90 ........... 204 206 141
Fluorene....................................... 22.92 ........... 166 165 167
N-Nitro sodiphenylamine........................ 23.35 ........... 169 168 167
4-Bromophenyl phenyl ether..................... 24.44 ........... 248 250 141
Hexachlorobenzene.............................. 24.93 ........... 284 142 249
n-octadecane \4\............................... 25.39 2.0 57 ........... ...........
Phenanthrene................................... 25.98 ........... 178 179 176
Anthracene..................................... 26.12 ........... 178 179 176
Carbazole \4\.................................. 26.66 4.0 167 ........... ...........
Dibutyl phthalate.............................. 27.84 ........... 149 150 104
Fluoranthene................................... 29.82 ........... 202 101 100
Benzidine...................................... 30.26 ........... 184 92 185
Pyrene......................................... 30.56 ........... 202 101 100
Butyl benzyl phthalate......................... 32.63 ........... 149 91 206
3,3[prime]-Dichlorobenzidine................... 34.28 ........... 252 254 126
Benzo(a)anthracene............................. 34.33 ........... 228 229 226
Bis(2-ethyl hexyl)phthalate.................... 34.36 ........... 149 167 279
Chrysene....................................... 34.44 ........... 228 226 229
Di-n-octyl-phthalate........................... 36.17 ........... 149 ........... ...........
Benzo(b)fluoranthene........................... 37.90 ........... 252 253 125
Benzo(k)fluoranthene........................... 37.97 ........... 252 253 125
Benzo(a)pyrene................................. 39.17 ........... 252 253 125
Dibenzo(a,h) anthracene........................ 44.91 ........... 278 139 279
Indeno(1,2,3-c,d)pyrene........................ 45.01 ........... 276 138 277
Benzo(ghi)perylene............................. 46.56 ........... 276 138 277
----------------------------------------------------------------------------------------------------------------
\1\ The data presented in this table were obtained under the following conditions:
Column_30 ±5 meters x 0.25 ±.02 mm i.d., 94% methyl, 5% phenyl, 1% vinyl, bonded phase fused
silica capillary column (DB-5).
Temperature program_Five minutes at 30 °C; 30-280 °C at 8 °C per minute; isothermal at 280 °C
until benzo(ghi)perylene elutes.
Gas velocity_30 ±5 cm/sec at 30 °C.
\2\ Retention times are from Method 1625, Revision C, using a capillary column, and are intended to be
consistent for all analytes in Tables 4 and 5 of this attachment.
\3\ Analysis of this pollutant is approved only for the Centralized Waste Treatment and Landfills industries.
\4\ Analysis of this pollutant is approved only for the Centralized Waste Treatment industry.
Table 4_Chromatographic Conditions, \1\ Method Detection Limits (MDLs), and Characteristic m/z's for Acid
Extractables
----------------------------------------------------------------------------------------------------------------
Characteristic m/z's
Retention MDL --------------------------------------
Analyte time \2\ (µg/ Electron impact
(min) L) --------------------------------------
Primary Secondary Secondary
----------------------------------------------------------------------------------------------------------------
Phenol......................................... 10.76 ........... 94 65 66
2-Chlorophenol................................. 11.08 ........... 128 64 130
p-cresol \3\................................... 12.92 7.8 108 107 77
2-Nitrophenol.................................. 14.38 ........... 139 65 109
2,4-Dimethylphenol............................. 14.54 ........... 122 107 121
2,4-Dichlorophenol............................. 15.12 ........... 162 164 98
4-Chloro-3-methylphenol........................ 16.83 ........... 142 107 144
2,4,6-Trichlorophenol.......................... 18.80 ........... 196 198 200
2,4-Dinitrophenol.............................. 21.51 ........... 184 63 154
4-Nitrophenol.................................. 21.77 ........... 65 139 109
2-Methyl-4,6-dinitrophenol..................... 22.83 ........... 198 182 77
Pentachlorophenol.............................. 25.52 ........... 266 264 268
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\1\ The data presented in this table were obtained under the following conditions:
Column_30 ±5 meters x 0.25 ±.02 mm i.d., 94% methyl, 5% phenyl, 1% vinyl silicone bonded phase
fused silica capillary column (DB-5).
Temperature program_Five minutes at 30 °C; 30-280 °C at 8 °C per minute; isothermal at 280 °C
until benzo(ghi)perylene elutes.
Gas velocity_30 ±5 cm/sec at 30 °C
\2\ Retention times are from EPA Method 1625, Revision C, using a capillary column, and are intended to be
consistent for all analytes in Tables 3 and 4 of this attachment.
\3\ Analysis of this pollutant is approved only for the Centralized Waste Treatment and Landfills industries.
Table 5_QC Acceptance Criteria
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Test Limits for
conclusion s Range for X Range for
Analyte (µg/ (µg/ (µg/ P, Ps(%)
L) L) L)
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acetophenone \1\.......................................... 100 51 23-254 61-144
alpha-terpineol........................................... 100 47 46-163 58-156
aniline \2\............................................... 100 71 15-278 46-134
carbazole \1\............................................. 100 17 79-111 73-131
o-cresol \1\.............................................. 100 23 30-146 55-126
p-cresol \2\.............................................. 100 22 11-617 76-107
n-decane \1\.............................................. 100 70 D-651 D-ns
2,3-dichloroaniline \1\................................... 100 13 40-160 68-134
n-octadecane \1\.......................................... 100 10 52-147 65-123
pyridine \2\.............................................. 100 ns 7-392 33-158
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s = Standard deviation for four recovery measurements, in µg/L (Section 8.2)
X = Average recovery for four recovery measurements in µg/L (Section 8.2)
P,Ps = Percent recovery measured (Section 8.3, Section 8.4)
D = Detected; result must be greater than zero.
ns = no specification; limit is outside the range that can be measured reliably.
\1\ Analysis of this pollutant is approved only for the Centralized Waste Treatment industry.
\2\ Analysis of this pollutant is approved only for the Centralized Waste Treatment and Landfills industries.
Method 1613, Revision B
Tetra- Through Octa-Chlorinated Dioxins and Furans by Isotope Dilution HRGC/HRMS
1.0 Scope and Application
1.1 This method is for determination of tetra- through octa-chlorinated dibenzo-p-dioxins (CDDs) and dibenzofurans (CDFs) in water, soil, sediment, sludge, tissue, and other sample matrices by high resolution gas chromatography/high resolution mass spectrometry (HRGC/HRMS). The method is for use in EPA's data gathering and monitoring programs associated with the Clean Water Act, the Resource Conservation and Recovery Act, the Comprehensive Environmental Response, Compensation and Liability Act, and the Safe Drinking Water Act. The method is based on a compilation of EPA, industry, commercial laboratory, and academic methods (References 1–6).
1.2 The seventeen 2,3,7,8-substituted CDDs/CDFs listed in Table 1 may be determined by this method. Specifications are also provided for separate determination of 2,3,7,8-tetrachloro-dibenzo-p-dioxin (2,3,7,8-TCDD) and 2,3,7,8-tetrachloro-dibenzofuran (2,3,7,8-TCDF).
1.3 The detection limits and quantitation levels in this method are usually dependent on the level of interferences rather than instrumental limitations. The minimum levels (MLs) in Table 2 are the levels at which the CDDs/CDFs can be determined with no interferences present. The Method Detection Limit (MDL) for 2,3,7,8-TCDD has been determined as 4.4 pg/L (parts-per-quadrillion) using this method.
1.4 The GC/MS portions of this method are for use only by analysts experienced with HRGC/HRMS or under the close supervision of such qualified persons. Each laboratory that uses this method must demonstrate the ability to generate acceptable results using the procedure in Section 9.2.
1.5 This method is “performance-based”. The analyst is permitted to modify the method to overcome interferences or lower the cost of measurements, provided that all performance criteria in this method are met. The requirements for establishing method equivalency are given in Section 9.1.2.
1.6 Any modification of this method, beyond those expressly permitted, shall be considered a major modification subject to application and approval of alternate test procedures under 40 CFR 136.4 and 136.5.
2.0 Summary of Method
Flow charts that summarize procedures for sample preparation, extraction, and analysis are given in Figure 1 for aqueous and solid samples, Figure 2 for multi-phase samples, and Figure 3 for tissue samples.
2.1 Extraction.
2.1.1 Aqueous samples (samples containing less than 1% solids)—Stable isotopically labeled analogs of 15 of the 2,3,7,8-substituted CDDs/CDFs are spiked into a 1 L sample, and the sample is extracted by one of three procedures:
2.1.1.1 Samples containing no visible particles are extracted with methylene chloride in a separatory funnel or by the solid-phase extraction technique summarized in Section 2.1.1.3. The extract is concentrated for cleanup.
2.1.1.2 Samples containing visible particles are vacuum filtered through a glass-fiber filter. The filter is extracted in a Soxhlet/Dean-Stark (SDS) extractor (Reference 7), and the filtrate is extracted with methylene chloride in a separatory funnel. The methylene chloride extract is concentrated and combined with the SDS extract prior to cleanup.
2.1.1.3 The sample is vacuum filtered through a glass-fiber filter on top of a solid-phase extraction (SPE) disk. The filter and disk are extracted in an SDS extractor, and the extract is concentrated for cleanup.
2.1.2 Solid, semi-solid, and multi-phase samples (but not tissue)—The labeled compounds are spiked into a sample containing 10 g (dry weight) of solids. Samples containing multiple phases are pressure filtered and any aqueous liquid is discarded. Coarse solids are ground or homogenized. Any non-aqueous liquid from multi-phase samples is combined with the solids and extracted in an SDS extractor. The extract is concentrated for cleanup.
2.1.3 Fish and other tissue—The sample is extracted by one of two procedures:
2.1.3.1 Soxhlet or SDS extraction—A 20 g aliquot of sample is homogenized, and a 10 g aliquot is spiked with the labeled compounds. The sample is mixed with sodium sulfate, allowed to dry for 12–24 hours, and extracted for 18–24 hours using methylene chloride:hexane (1:1) in a Soxhlet extractor. The extract is evaporated to dryness, and the lipid content is determined.
2.1.3.2 HCl digestion—A 20 g aliquot is homogenized, and a 10 g aliquot is placed in a bottle and spiked with the labeled compounds. After equilibration, 200 mL of hydrochloric acid and 200 mL of methylene chloride:hexane (1:1) are added, and the bottle is agitated for 12–24 hours. The extract is evaporated to dryness, and the lipid content is determined.
2.2 After extraction, 37Cl4-labeled 2,3,7,8-TCDD is added to each extract to measure the efficiency of the cleanup process. Sample cleanups may include back-extraction with acid and/or base, and gel permeation, alumina, silica gel, Florisil and activated carbon chromatography. High-performance liquid chromatography (HPLC) can be used for further isolation of the 2,3,7,8-isomers or other specific isomers or congeners. Prior to the cleanup procedures cited above, tissue extracts are cleaned up using an anthropogenic isolation column, a batch silica gel adsorption, or sulfuric acid and base back-extraction, depending on the tissue extraction procedure used.
2.3 After cleanup, the extract is concentrated to near dryness. Immediately prior to injection, internal standards are added to each extract, and an aliquot of the extract is injected into the gas chromatograph. The analytes are separated by the GC and detected by a high-resolution (=10,000) mass spectrometer. Two exact m/z's are monitored for each analyte.
2.4 An individual CDD/CDF is identified by comparing the GC retention time and ion-abundance ratio of two exact m/z's with the corresponding retention time of an authentic standard and the theoretical or acquired ion-abundance ratio of the two exact m/z's. The non-2,3,7,8 substituted isomers and congeners are identified when retention times and ion-abundance ratios agree within predefined limits. Isomer specificity for 2,3,7,8-TCDD and 2,3,7,8-TCDF is achieved using GC columns that resolve these isomers from the other tetra-isomers.
2.5 Quantitative analysis is performed using selected ion current profile (SICP) areas, in one of three ways:
2.5.1 For the 15 2,3,7,8-substituted CDDs/CDFs with labeled analogs (see Table 1), the GC/MS system is calibrated, and the concentration of each compound is determined using the isotope dilution technique.
2.5.2 For 1,2,3,7,8,9-HxCDD, OCDF, and the labeled compounds, the GC/MS system is calibrated and the concentration of each compound is determined using the internal standard technique.
2.5.3 For non-2,3,7,8-substituted isomers and for all isomers at a given level of chlorination (i.e., total TCDD), concentrations are determined using response factors from calibration of the CDDs/CDFs at the same level of chlorination.
2.6 The quality of the analysis is assured through reproducible calibration and testing of the extraction, cleanup, and GC/MS systems.
3.0 Definitions
Definitions are given in the glossary at the end of this method.
4.0 Contamination and Interferences
4.1 Solvents, reagents, glassware, and other sample processing hardware may yield artifacts and/or elevated baselines causing misinterpretation of chromatograms (References 8–9). Specific selection of reagents and purification of solvents by distillation in all-glass systems may be required. Where possible, reagents are cleaned by extraction or solvent rinse.
4.2 Proper cleaning of glassware is extremely important, because glassware may not only contaminate the samples but may also remove the analytes of interest by adsorption on the glass surface.
4.2.1 Glassware should be rinsed with solvent and washedwith a detergent solution as soon after use as is practical. Sonication of glassware containing a detergent solution for approximately 30 seconds may aid in cleaning. Glassware with removable parts, particularly separatory funnels with fluoropolymer stopcocks, must be disassembled prior to detergent washing. (continued)