Source Zone Delineation Demonstration Report - Triad Resource ...

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Table 5-8. continuedFile Name Extraction Source Source Source LocationSource Source 30-Year PermeabilityWell Distance i-node j-node k-node Size Concentration Diffusionfrom Well (ft) (mg/kg)twolayer_vp1_3h U12-VP1 SA8 15 ft NE 27 21 9 5 x 5 x 5 25,000 Yes Normaltwolayer_vp1_4h U12-VP1 SA8 15 ft NE 27 21 9 5 x 5 x 5 5,000 10 yrs Normaltwolayer_vp1_5h U12-VP1 SA8 15 ft NE 27 21 9 5 x 5 x 5 8,000 10 yrs Normaltwolayer_vp1_6h U12-VP1 SA8 15 ft NE 27 21 9 5 x 5 x 5 10,000 10 yrs Normaltwolayer_vp1_7h U12-VP1 SA8 15 ft NE 27 21 9 5 x 5 x 5 12,000 10 yrs NormalU12-VP1/Source Area #9twolayer_vp1_1i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 25,000 Yes Normaltwolayer_vp1_2i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 25,000 15 yrs Normaltwolayer_vp1_3i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 20,000 15 yrs Normaltwolayer_vp1_4i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 15,000 15 yrs Normaltwolayer_vp1_5i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 10,000 15 yrs Normaltwolayer_vp1_6i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 5,000 15 yrs Normaltwolayer_vp1_7i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 30,000 15 yrs Normaltwolayer_vp1_8i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 40,000 15 yrs Normaltwolayer_vp1_9i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 200 No Normaltwolayer_vp1_10i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 400 No Normaltwolayer_vp1_11i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 1,000 No Normaltwolayer_vp1_12i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 2,000 No Normaltwolayer_vp1_13i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 3,000 No Normaltwolayer_vp1_14i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 5,000 No Normaltwolayer_vp1_15i U12-VP1 SA9 8 ft NE 25 21 9 5 x 5 x 5 10,000 No Normaltwolayer_vp1_16i U12-VP1 SA9 8 ft NE 25 21 8-9 5 x 5 x 10 400 No Normaltwolayer_vp1_17i U12-VP1 SA9 8 ft NE 25 21 8-9 5 x 5 x 10 200 No Normaltwolayer_vp1_18i U12-VP1 SA9 8 ft NE 25 21 8-9 5 x 5 x 10 600 No NormalU12-VP1/Source Area #10twolayer_vp1_1j U12-VP1 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp1_1k U12-VP1 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP2/Source Area #1twolayer_vp2_1 U12-VP2 SA1 13 ft N 23-26 28-29 7-9 20 x 10 x 15 5,000 Yes Normaltwolayer_vp2_2 U12-VP2 SA1 13 ft N 23-26 28-29 7-9 20 x 10 x 15 1,000 Yes Normaltwolayer_vp2_7 U12-VP2 SA1 13 ft N 23-26 28-29 8-9 20 x 10 x 10 5,000 Yes NormalU12-VP2/Source Area #2twolayer_vp2_1b U12-VP2 SA2 15 ft SE 25-26 21-22 7-9 10 x 10 x 15 5,000 Yes Normaltwolayer_vp2_2b U12-VP2 SA2 15 ft SE 25-26 21-22 7-9 10 x 10 x 15 1,000 Yes Normaltwolayer_vp2_3b U12-VP2 SA2 15 ft SE 25-26 21-22 8-9 10 x 10 x 10 200 No NormalU12-VP2/Source Area #3twolayer_vp2_1c U12-VP2 SA3 18 ft SW 19-20 21-22 7-9 10 x 10 x 15 5,000 Yes Normaltwolayer_vp2_2c U12-VP2 SA3 18 ft SW 19-20 21-22 7-9 10 x 10 x 15 1,000 Yes NormalU12-VP2/Source Area #4twolayer_vp2_1d U12-VP2 SA4 33 ft SE 29 20-21 7-9 5 x 10 x 15 5,000 Yes Normaltwolayer_vp2_2d U12-VP2 SA4 33 ft SE 29 20-21 7-9 5 x 10 x 15 1,000 Yes NormalU12-VP2/Source Area #7twolayer_vp2_8g U12-VP2 SA7 28 ft SE 29 22 7-9 5 x 5 x 15 17,500 Yes Normaltwolayer_vp2_9g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 17,500 Yes Normaltwolayer_vp2_10g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 20,000 Yes Normaltwolayer_vp2_11g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 19,000 Yes Normaltwolayer_vp2_12g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 19,000 Yes 0.5 x Permtwolayer_vp2_13g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 19,000 Yes 0.2 x Permtwolayer_vp2_14g U12-VP2 SA7 28 ft SE 29 22 7-9 5 x 5 x 15 25,000 Yes Normaltwolayer_vp2_15g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 25,000 Yes Normaltwolayer_vp2_16g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 22,000 Yes Normaltwolayer_vp2_17g U12-VP2 SA7 28 ft SE 29 22 8-9 5 x 5 x 10 21,000 Yes Normaltwolayer_vp2_18g U12-VP2 SA7 28 ft SE 29 22 7-9 5 x 5 x 15 18,000 Yes Normaltwolayer_vp2_19g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 20,000 Yes Normaltwolayer_vp2_20g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 22,000 Yes Normaltwolayer_vp2_21g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 Yes Normaltwolayer_vp2_22g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 Yes 0.5 x Permtwolayer_vp2_23g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 Yes 2 x Permtwolayer_vp2_24g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 Yes 5 x Permtwolayer_vp2_25g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 Yes 10 x Permtwolayer_vp2_26g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 25,000 20 yrs Normaltwolayer_vp2_27g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 20,000 20 yrs Normaltwolayer_vp2_28g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 15,000 20 yrs Normaltwolayer_vp2_29g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 17,500 20 yrs Normaltwolayer_vp2_30g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 16,000 20 yrs Normaltwolayer_vp2_31g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 16,000 10 yrs NormalMarch 20035-61OU 12 Demonstration ReportFinal
Table 5-8. continuedFile Name Extraction Source Source Source LocationSource Source 30-Year PermeabilityWell Distance i-node j-node k-node Size Concentration Diffusionfrom Well (ft) (mg/kg)twolayer_vp2_32g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 12,000 10 yrs Normaltwolayer_vp2_33g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 10,000 10 yrs Normaltwolayer_vp2_34g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 8,000 10 yrs Normaltwolayer_vp2_35g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 6,000 10 yrs Normaltwolayer_vp2_36g U12-VP2 SA7 28 ft SE 29 22 9 5 x 5 x 5 4,000 10 yrs NormalU12-VP2/Source Area #8twolayer_vp2_1h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 15,000 Yes Normaltwolayer_vp2_2h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 10,000 Yes Normaltwolayer_vp2_3h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 20,000 Yes Normaltwolayer_vp2_4h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 22,000 Yes Normaltwolayer_vp2_5h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 23,000 Yes Normaltwolayer_vp2_6h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 21,000 Yes Normaltwolayer_vp2_7h U12-VP2 SA8 25 ft SE 27 21 8-9 5 x 5 x 10 25,000 Yes Normaltwolayer_vp2_8h U12-VP2 SA8 25 ft SE 27 21 9 5 x 5 x 5 25,000 Yes NormalU12-VP2/Source Area #9twolayer_vp2_1i U12-VP2 SA9 19 ft SE 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP2/Source Area #10twolayer_vp2_1j U12-VP2 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp2_1k U12-VP2 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP3/Source Area #7twolayer_vp3_1g U12-VP3 SA7 77 ft SE 29 22 9 5 x 5 x 5 25,000 Yes Normaltwolayer_vp3_2g U12-VP3 SA7 77 ft SE 29 22 8-9 5 x 5 x 10 20,000 Yes NormalU12-VP3/Source Area #9twolayer_vp3_1i U12-VP3 SA9 75 ft SE 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP3/Source Area #10twolayer_vp3_1j U12-VP3 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp3_1k U12-VP3 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP4/Source Area #7twolayer_vp4_1g U12-VP4 SA7 46 ft NE 29 22 8-9 5 x 5 x 10 20,000 Yes Normaltwolayer_vp4_2g U12-VP4 SA7 46 ft NE 29 22 7-9 5 x 5 x 15 17,500 Yes Normaltwolayer_vp4_3g U12-VP4 SA7 46 ft NE 29 22 7-9 5 x 5 x 15 15,000 Yes Normaltwolayer_vp4_4g U12-VP4 SA7 46 ft NE 29 22 7-9 5 x 5 x 15 12,000 Yes Normaltwolayer_vp4_5g U12-VP4 SA7 46 ft NE 29 22 7-9 5 x 5 x 15 10,000 Yes Normaltwolayer_vp4_6g U12-VP4 SA7 46 ft NE 29 22 9 5 x 5 x 5 25,000 Yes NormalU12-VP4/Source Area #9twolayer_vp4_1i U12-VP4 SA9 38 ft N 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP4/Source Area #10twolayer_vp4_1j U12-VP4 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp4_1k U12-VP4 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP5/Source Area #9twolayer_vp5_1i U12-VP5 SA9 61 ft SE 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP5/Source Area #10twolayer_vp5_1j U12-VP5 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp5_1k U12-VP5 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP6/Source Area #7twolayer_vp6_1g U12-VP6 SA7 22 ft SW 29 22 8-9 5 x 5 x 10 20,000 Yes Normaltwolayer_vp6_2g U12-VP6 SA7 22 ft SW 29 22 7-9 5 x 5 x 15 17,500 Yes Normaltwolayer_vp6_3g U12-VP6 SA7 22 ft SW 29 22 7-9 5 x 5 x 15 12,000 Yes Normaltwolayer_vp6_4g U12-VP6 SA7 22 ft SW 29 22 9 5 x 5 x 5 25,000 Yes NormalU12-VP6/Source Area #8twolayer_vp6_1h U12-VP6 SA8 33 ft SW 27 21 8-9 5 x 5 x 10 20,000 Yes Normaltwolayer_vp6_2h U12-VP6 SA8 33 ft SW 27 21 7-9 5 x 5 x 15 17,500 Yes NormalU12-VP6/Source Area #9twolayer_vp6_1i U12-VP6 SA9 41 ft SW 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP6/Source Area #10twolayer_vp6_1j U12-VP6 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp6_2k U12-VP6 SA10 0 EVS EVS EVS EVS EVS Ave No NormalU12-VP7/Source Area #9twolayer_vp7_1i U12-VP7 SA9 58 ft NE 25 21 8-9 5 x 5 x 10 400 No NormalU12-VP7/Source Area #10twolayer_vp7_1j U12-VP7 SA10 0 EVS EVS EVS EVS EVS Max No Normaltwolayer_vp7_2k U12-VP7 SA10 0 EVS EVS EVS EVS EVS Ave No NormalNotesNormal permeability is 10 Darcy for the bottom 50 feet and 100 Darcy for the upper 20 feet of the modeling domain.March 20035-62OU 12 Demonstration ReportFinal
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FinalSource Zone Delineation Demons
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EXECUTIVE SUMMARYThis report docume
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The SVE demonstration conducted in
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TABLE OF CONTENTSEXECUTIVE SUMMARY
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LIST OF FIGURESFigure ES-1 Iso-Conc
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Figure 5-38 Horizontal slices at fi
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LIST OF ACRONYMS AND ABBREVIATIONSA
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Hill Air Force BaseUtahRIVERDALEWeb
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Co-Team LeaderCo-Team LeaderURS Pro
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1.4 Report OrganizationThe remainin
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Davis-Weber CanalDetail AreaHillAir
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ANorthSouthU5-18864,580CROSS SECTIO
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Approx. LocationOf BarrelsInitial S
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Figure 3-2. Wireline locking and re
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3.3 DSITMS Soil AnalyticsDirect sam
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4.0 SOIL VAPOR EXTRACTION DEMONSTRA
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The equilibrium four-phase distribu
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3520 ft. from well, 3.5 cfmTCE in E
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The SVE system included piping from
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SVE Process System and On-Site DSIT
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Table 4-3. Summary of OU 12 SVE Ste
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3,000U12-VP1 Calibration Curve2,500
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5.0 RESULTS OF SOIL SAMPLING AND SV
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0U12-1802100U12-1803100U12-18051020
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0102030405060700U12-1804U12-1807102
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Figure 5-4. Soil samples collected
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298400298360Northing (ft)2983202982
Page 56 and 57: 298400298360Northing (ft)2983202982
Page 58 and 59: The final TCE soil contamination mo
Page 60 and 61: 298400298360Northing (ft)2983202982
Page 62 and 63: Figure 5-12. Isometric view, lookin
Page 64 and 65: An isometric view of the upscaled a
Page 66 and 67: March 2003 5-21 OU 12 Demonstration
Page 68 and 69: 4620WE460045804560454045204500Verti
Page 70 and 71: 4620WE460045804560Elevation (ft)454
Page 72 and 73: Volumetric calculations yield an es
Page 74 and 75: The position of the water table in
Page 76 and 77: 5.2 OU 12 SVE EvaluationThe OU 12 S
Page 78 and 79: Vapor Probe #1Vapor Probe #2Vapor P
Page 80 and 81: Thus, the in situ air permeability
Page 82 and 83: 0.0000-0.0010U12-VP1 ResponsePressu
Page 84 and 85: 0.000020.00000U12-VP1 ResponsePress
Page 86 and 87: Table 5-5. Estimated In Situ Air Pe
Page 88 and 89: 10.0U12-VP1 Pneumatic Response8.0Ai
Page 90 and 91: 1,400841,20072TCE Concentration (pp
Page 92 and 93: 800.98700.84TCE Concentration (ppmv
Page 94 and 95: 200.018180.016TCE Concentration (pp
Page 96 and 97: 1400.491200.42TCE Concentration (pp
Page 98 and 99: 4600OU12-VP1OU12-VP2 OU12-VP3 OU12-
Page 100 and 101: the screened interval in U12-VP1 an
Page 102 and 103: permeability layer. Final adjustmen
Page 104 and 105: Table 5-7. Comparison of Measured a
Page 108 and 109: U12-1802U12-VP3U12-1812U12-1803U12-
Page 110 and 111: U12-1802U12-VP3U12-1812U12-1803U12-
Page 112 and 113: U12-1802U12-VP3U12-1812U12-1803U12-
Page 114 and 115: Figure 5-42 shows a comparison betw
Page 116 and 117: U12-VP1 50 mg/kg source 10 ft thick
Page 118 and 119: 5 10 15 20 25 30 35 40 455 10 15 20
Page 120 and 121: 25 - 30 feet bgs30 - 35 feet bgs35
Page 122 and 123: U12-VP1 200 mg/kg source 10 ft thic
Page 124 and 125: A comparison between the predicted
Page 126 and 127: 5 10 15 20 25 30 35 40 455 10 15 20
Page 128 and 129: U12-VP1 EVS Maximum Soil Concentrat
Page 130 and 131: 9,200Predicted TCE Concentration (p
Page 132 and 133: 6.1 Conventional Sampling and Analy
Page 134 and 135: Table 6-2. Estimated Cost for OU 12
Page 136 and 137: 6.1.2 Direct Push Technology (DPT)T
Page 138 and 139: Table 6-4. Estimated Cost for OU 12
Page 140 and 141: that the Wireline CPT sampler canno
Page 142 and 143: Table 6-5. Summary of Estimated Cos
Page 144 and 145: The Wireline CPT tool is not effect
Page 146 and 147: Figure 7-1. Iso-concentration surfa
Page 148 and 149: 24U12-VP5 Combined Testing201612846
Page 150 and 151: 8.0 REFERENCESBear, J. 1979. Hydrau
Page 152 and 153: TABLE A-1FIELD ANALYICAL RESULTS FO
Page 154 and 155: TABLE A-1FIELD ANALYICAL RESULTS FO
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TABLE A-1FIELD ANALYICAL RESULTS FO
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APPENDIX BSimulated TCE Vapor-Phase
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TCE Concentration (ppmv2,4702,4602,
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U12-PV1Source Area #2TCE Concentrat
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U12-PV1Source Area #2250VP1 i=24, j
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TCE Concentration (ppmvTCE Concentr
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U12-PV1Source Area #9500450VP1 i=24
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TCE Concentration (ppmTCE Concentra
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700600U12-PV1Source Area #9VP1 i=24
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U12-PV2Source Area #10250VP2 i=23,
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TCE Concentration (ppm1.00.90.80.70
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U12-PV6Source Area #101816VP6 i=33,
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TCE Concentration (ppm6050403020100
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