Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
NC0001422_Well Water Lab Results_20150805 (5)
Environmental Chemists, Inc. envirochem 6602 Windmill Way • Wilmington, NC 28405 (910)392-0223 (Lab) • (910) 392-4424 (Fax) $M 710 Bowsertown Road • Manteo, NC 27954 (252)473-5702 ANALYTICAL & CONSULTING CHEMISTS NCDENR: DWQ CERTIFICATE #94. DLS CERTIFICATE #37729 Duke Energy -Laboratory 1339 Hagers Ferry Road/Bld 7405 MG03A2 Huntersville NC 28078 Attention: Peggy Kendall Date of Report: Apr 20, 2015 Customer PO #: Customer ID: 15030001 Report #: 2015-02733 Project ID: Ash Pond Investigation Lab ID Sample ID: ST Wooten Collect Date/Time Matrix Sampled by 15-06240 Site: Pump House Well 3/5/2015 11:15 AM DW Ray Porter/Cindy McDonald Test Method Results Date Analyzed Bicarbonate as CaCO3 Bicarbonate as CaCO3 4.00 mg/L 03/19/2015 Carbonate as CaCO3 Carbonate as CaCO3 <1 mg/L 03/19/2015 Aluminum EPA 200.7 0.110 mg/L 03/11/2015 Boron EPA 200.7 0.69 mg/L 03/11/2015 Calcium EPA 200.7 19.9 mg/L 03/12/2015 Iron EPA 200.7 0.024 mg/L 03/11/2015 Magnesium EPA 200.7 3.14 mg/L 03/12/2015 Potassium EPA 200.7 3.28 mg/L 03/12/2015 Sodium EPA 200.7 18.3 mg/L 03/12/2015 Strontium EPA 200.7 0.365 mg/L 03/11/2015 Zinc EPA 200.7 0.00914J mg/L 03/11/2015 J: Estimated. Between Method Detection Limit and Reporting Limit. Antimony EPA 200.8 <0.000099 mg/L 03/10/2015 Arsenic EPA 200.8 0.000567J mg/L 03/10/2015 J: Estimated. Between Method Detection Limit and Reporting Limit. Barium EPA 200.8 0.046 mg/L 03/10/2015 Beryllium EPA 2008. <0.000146 mg1L 03/10/2015 Cadmium EPA 200.8 <0.0000827mg/L 03/10/2015 Chromium EPA 200.8 <0.000148mg/L 03/10/2015 Cobalt EPA 200.8 0.002 mg/L 03/11/2015 Copper EPA 200.8 0.003 mg/L 03/10/2015 Lead EPA 200.8 <0.000126mg/L 03/10/2015 Manganese EPA 200.8 0.295 mg/L 03/11/2015 Molybdenum EPA 200.8 0.000641 J mg/L 03/10/2015 J: Estimated. Between Method Detection Limit and Reporting Limit. Nickel EPA 200.8 < 0.100 mg/L 03/1012015 Selenium EPA 200.8 <0.010mg/L 04/01/2015 Report*: 2015-02733 Page 1 of 2 Eenvirochem Environmental Chemists, Inc. 6602 Windm ll Way • Wiln-ngton, NC 28405 (910) 392-0223 (Lab) • (910) 392-4424 (Fax) 710 Bowsertown Road • Manteo, NC 27954 (252)473-5702 ANALYTICAL & CONSULTING CHEMISTS NCDENR: DWQ CERTIFICATE #94. DLS CERTIFICATE #37729 Duke Energy -Laboratory 1339 Hagers Ferry Road/Bid 7405 MG03A2 Huntersville NC 28078 Attention: Peggy Kendall Date of Report: Apr 20, 2015 Customer PO #: Customer ID: 15030001 Report #: 2015-02733 Project ID: Ash Pond Investigation Thallium EPA 200.8 <0.0001 mg/L 03/10/2015 Vanadium EPA 200.8 0.000256 J mg/L 03/11/2015 J: Estimated. Between Method Detection Limit and Reporting Limit. SM 2540 C 159 mg/L Hexavalent Chromium EPA 218.7 <0.02 pg/L 03/09/2015 Mercury EPA 245.1 <0.0004mg/L 03/09/2015 Sulfate EPA 300.0 69mg/L 03/11/2015 Turbidity SM 2130 B 0.5 NTU 03/06/2015 Field Turbidity 0.1 NTU. Dissolved Oxygen SM 4500 o G 5.80 mg/L Alkalinity SM 23208 4 mg/L 03/13/2015 Conductivity SM 2510 B 263 umho/cm 03/12/2015 Total Dissolved Solids (TDS) SM 2540 C 159 mg/L 03/06/2015 Residue Suspended (TSS) SM 2540 D <2.5 mg/L 03/09/2015 Temperature SM 2550 B 21.9 C 03/05/2015 Chloride SM 4500 Cl B 25 mg/L 03/12/2015 pH SM 4500 H B 5.44 units 03/05/2015 Dissolved Oxygen SM 4500 o G 5.80 mg/L 03/05/2015 Comment: Turbidity, temperature, pH and dissolved oxygen measured in field at sample collection. All non - detects for metals reported to MDL. Reviewed by Report #:: 2015-02733 Page 2 of 2 Environmental Chemists, Inc. envirochem 6602 Windmill Way • Wilmington, NC 28405 (910) 392-0223 (Lab) • (910)392-4424 (Fax) SM 710 Bowsertown Road • Manteo, NC 27954 (252) 473-5702 ANALYTICAL & CONSULTING CHEMISTS NCDENR: DWQ CERTIFICATE #94. DLS CERTIFICATE #37729 QC for Duke Energy - 2015-02733 LCS Parameter True Value m 1L Result m % True Value Limits Alkalinity 12.5 13.0 104 90-110 Aluminum 0.05 0.05 100 90-110 Antimony 0.01 0.01 100 90-110 Arsenic 0.01 0.01 100 90-110 Barium 0.01 0.01 100 90-110 Beryllium 0.01 0.01 100 90-110 Boron 0.05 0.05 100 90-110 Cadmium 0.01 0.01 100 90-110 Calcium 0.5 0.5 100 90-110 Chloride 50 48 96 90-110 Chromium 0.01 0.01 100 90-110 Cobalt 0.01 0.01 100 90-110 Conductivity 10000 99900 99.9 90/110 Copper 0.01 0.01 100 90-110 Iron 0.05 0.05 100 90-110 Lead 0.01 0.01 100 90-110 Magnesium 0.5 0.5 100 90-110 Manganese 0.01 0.01 100 90-110 Mercury 0.0040 0.0037 92 90-110 Molybdenum 0.01 0.01 100 90-110 Nickel 0.0050 0.0048 96 90-110 Potassium 0.5 0.5 100 90-110 TSS 248.8 274.4 110 90-110 Selenium 0.01 0.01 100 90-110 Sodium 0.5 0.5 100 90-110 Strontium 0.05 0.05 100 90-110 Sulfate 50 50 100 90-110 Thallium 0.0050 0.0048 96 90-110 TDS 600 601 100 f 10 Turbidity N/A N/A N/A N/A Vanadium 0.01 0.01 100 90-110 Zinc 0.05 0.05 100 90-110 MS/MSD Parameter True Value mg/L Result M91L % Recovery % Difference Limits % Recovery Limits Difference Alkalinity N/A N/A N/A N/A N/A N/A Aluminum 0.100 0.099/0.100 99/100 1 80-120 :5 20 Antimony 0.025 0.028/0.028 112/112 0 80420 <20 Arsenic 0.025 0.030/0.030 120/120 0 80-120 520 Barium 0.025 0.025/0.025 100/100 0 80-120 <20 Beryllium 0.025 0.029/0.029 116/116 0 80-120 5 20 Boron 0.100 0.097/0.095 97/95 2 80-120 <20 Cadmium 0.025 0.028/0.028 112/112 0 80-120 520 Calcium 1.0 0.98/0.99 98/99 1 80-120 <_ 20 Chloride N/A N/A N/A N/A N/A N/A Chromium 0.025 0.024/0.025 96/100 4 80-120 <20 Cobalt 0.025 0.024/0.025 96/100 4 80-120 <20 Conductivity N/A N/A N/A N/A N/A N/A Copper 0.025 0.027/0.028 108/112 4 80-120 <_ 20 Iron 0.100 0.098/100 98/100 2 80-120 <20 Lead 0.025 0.023/0.023 92/92 0 80-120 <_ 20 Magnesium 1.0 0.98/1.0 98/100 2 80-120 <_ 20 Manganese 0.025 0.024/0.025 96/100 4 80-120 :5 20 Mercury 0.0020 0.0022/0.0019 110/95 15 80-120 <_ 20 Molybdenum 0.025 0.028/0.028 112/112 0 80-120 <_ 20 Nickel 0.0100 0.0099/0.0103 99/103 4 80-120 <_ 20 Potassium 1.0 1.0/1.0 100/100 0 80-120 520 TSS N/A N/A N/A N/A N/A N/A Selenium 0.025 0.027/0.028 108/112 4 80-120 <_ 20 Sodium 1.0 1.0/1.0 100/100 0 80-120 520 Strontium 0.100 0.098/0.105 98/105 7 80-120 <20 Sulfate 10.0 10.5/10.6 105/106 1 80-120<_ 20 Thallium 0.0100 0.0102/0.0105 102/105 3 80-120 <_ 20 TDs N/A N/A N/A N/A N/A N/A Turbidity N/A N/A N/A N/A N/A N/A Vanadium 0.025 0.024/0.025 96/100 4 80-120 :520 Zinc 0.100 0.099/0.102 99/102 3 80-120 <20 DUPLICATE SAMPLES Parameter Results mg/L % Difference Limits Alkalinity 4 4 0 <10 Aluminum N/A N/A N/A N/A Antimony N/A N/A N/A N/A Arsenic N/A N/A N/A N/A Barium N/A N/A N/A N/A Beryllium N/A N/A N/A N/A Boron N/A N/A N/A N/A Cadmium N/A N/A N/A N/A Calcium N/A N/A N/A N/A Chloride 467 462 1 < 10 Chromium N/A N/A N/A N/A Cobalt N/A N/A N/A N/A Conductivity 156 156 0 < 10 Copper N/A N/A N/A N/A Iron N/A N/A N/A N/A Lead N/A N/A N/A N/A Magnesium N/A N/A N/A N/A Manganese N/A N/A N/A N/A Mercury N/A N/A N/A N/A Molybdenum N/A N/A N/A N/A Nickel N/A N/A N/A N/A Potassium N/A N/A N/A N/A TSS 313.3 303.3 3 < 10 Selenium N/A N/A N/A N/A Sodium N/A N/A N/A N/A Strontium N/A N/A N/A N/A Sulfate 28 29 4 <10 Thallium N/A N/A N/A N/A TDS 403 404 0 :510 Turbidity 0.37 0.37 0 <10 Vanadium N/A N/A N/A N/A Zinc N/A N/A N/A N/A Parameter Rmg�' Limit, mg/L Alkalinity 2 1 Aluminum <0.005 0.005 Antimony <0.0005 0.0005 Arsenic <0.0005 0.0005 Barium <0.0005 0.0005 Beryllium <0.0005 0.0005 Boron <0.005 0.005 Cadmium <0.0005 0.0005 Calcium <0.5 0.5 Chloride <2.5 2.5 Chromium <0.0005 0.0005 Cobalt <0.0005 0.0005 Conductivity <5 5 Copper <0.0005 0.0005 Iron <0.005 0.005 Lead <0.0005 0.0005 Magnesium <0.5 0.5 Manganese <0.0005 0.0005 Mercury <0.0002 0.0002 Molybdenum <0.0005 0.0005 Nickel <0.00005 0.00005 Potassium <0.5 0.5 TSS <2.5 2.5 Selenium <0.005 0.005 Sodium <0.5 0.5 Strontium <0.005 0.005 Sulfate <2.5 2.5 Thallium <0.00005 0.00005 TDS <2.5 2.5 Turbidity N/A N/A Vanadium <0.0005 0.0005 Zinc <0.005 0.005 A L Q V V V V V V V V V V V V V A to VI m N tD -* n to tO tD O N m r O) m a m N to r O N O N lD M Y O "{ I, m N O N0 o) to m m V tD tD m cn N M 1, mo N tD m Na) m N 0) N n N V M m O 'V' 2 N M D) Cf I, m an O N N tD M M M 1* -,t V V to a) m o) O V N to o D) n 'n M �--� '�t cp t0 O ^ r, N V to N o) O O m o) o 0 0 0 0 0 0 0 0 0 0 0 D) of of O N O O m m ckD N 1, to 10 N ynoovvvvavvvv�vvvvvvvvvvvnvv�-tI"rl � rlLDmP, a m n n n n n i, r, rl r, 11 P, rl � n n n � n � n n n n r, 00 r, ti n i, ti ti n U Ln m O m0 U U n U mm� Y (v f ;;nnnni.nr,r,i.mmmmmmmmmmmmmmmr, ommmuomux0 R o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 o 0 0 o 0 o w m o 0 0 0 0 0 0 Ln000 0 0 0 c000000000000000000000000". omN�va M m O -Q N N N N N N N N N N N N N N N N N N N N N N N N N N M N N N N N N a V QdW QQQdW Q QDW_QQWQ QdW QdW QdW QOW_ QdW QW QW MIMIM0. 2 OU] Ua) to N N N In N M In M M 0 N Mn N6 ~ O m 3 U6 0 E O N C tic eE u °� > a aj X J Y N a1 Y a+ rn i a1 w E J E > E N C E v T>> M Y '6 c-0 Jc E v E J- o 3 m Q El J- m v v c o v v v 0 E v 0 °v c 2 v ° a c x a o c m Q m m o v v m v Y c° E m O 6 0 O O Y C •- a) w a) L O O y @ .0 fa N J J o 0 N al r 2 m V Q m U o_ to VI IV Q Q m m U U U U J Z N F"' i 2 to �— Q U F- K H U CL O N m O M J O ~ O E o� c°i u c N U a O m H v m E u > v x E al J Y N m j C E E j a) E E m T> O M N -p O C J C E •N E O U J J i J O �p N Y Y t6 al c 0 7 CL 'i 3 !� C@ 'O N 'O O. m U C X W !� C Y '� E O .... +�+ `O C 10 O 1a mUQmU 115 ��aLn NQQmroUUUU�2�ZLn 'AHQUFKHU DO m a E Z N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Cto to N h VI h N N N VI N N N h U) N In N VI N H N N N N N N to to N N In N N N N V) N "1 O Y 3 O v a E 3 2 N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N VI VI N N VI N N VI h VI h vl N N N V) N N N N N N N h to N VI N N N N N N N N m Y 7 m w a Y G J J J J J J J J J J J J J J J J J J J J J \\\\\\\\\ J J J J J ,J J J J U J J J VI J \ bD 00 00 00 00 b0 00 b0 00 00 00 00 00 00 H O U E E E E E E E E E E E E E E E E E E E E E E E E E E E E Z E= E E E E Y � 0 CL cem Y E OI a 0 N 0 N 0 N 0 N O N N 0 0 N `~ N N v O (0 C `"� `'"� O O `"� O "i ""� `"i O O 0 0 O 0 0 O 0 0 O 0 0 O 0 O 0 0 O 0 O 0 0 O 0 O 0 0 O 0 O e-I O O O O 0 a N m V1 Q .006 0 N O C 0 C O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 N C Y b0 00 ba b0 bD t10 tl0 tl0 t1O OD b0 UO tl0 qO OO I— OO O UO tl0 U CW �C tl0 N E E E E E E E E E E E E E E E E E E E E E E E E E E E E Z E E E E E 0 c-I O OI cn 00 in Ln V Ol r� l0 O n 00 N m w IA N N N H l0 N V 01 U, ,T m M Ln M Ln d' O O .-i t0 01 N .-i N w N 0) l0 V t} N d' O O N Ol ct O O ul O o w O l0 Vl ,j c4 N V 00 =' `~ O rl M M N M Ol O to O .-� 00 N O o N N lD C5 O N 0 0 N i-1 N bi m 7 O O O O O O O O O O O O O O CCD, O O 00 0 0 d 0 0 0 0 0 0 0 C cc O q O O O O 0 ell 6ementOne Ray Porter Environmental Chemists, Inc. 66002 Windmill Way Wilmington, NC 28405 Element One Inc. 6319-D Carolina Beach Rd. Wilmington, NC 28412 Phone: 910 793-0128 Fax: 910 792-6853 eliab@ellab.com FINAL REPORT OF ANALYSES March 09, 2015 Client Project Name: Client Project Number: E1 Project Number e24189 Sample # Sample ID 15-06240 Sample Matrix DW Sample Type Date Received 03/06/2015 Date Sampled 03/05/2015 Time Sampled 1115 Time Received 0810 Delivered by Client Sampler Received by KMS E1 Sample # 24189-2 Parameter Result Unit Dilution DL Method Date Chromium VI < 0.02 pg/L 1 0.02 EPA 218.7 03/09/2015 Ken Smith, Laboratory Director 24189 Envirochem Cr6+Report Compiled by Lk. i NC Certifications: DW 37788 and DWQ DENR 604 Facility Name: Environmenta: P7.F.ARF. C . -. Clieht ID: ....:fa ed' _ Meter Id: 11277 Meter Id: 11280 Meter Id: 09996 - Meter Id: NY1-11373 -- Analyst: PH Analysis Reference Method: SM 4500 H B SM 2e Cal. /Tii/meeCalib%ra�tio`n,Buffer 4.0 Calibration Buffer 10.0 'Check Buffer 7.0 Comments 9li v`©.%� v Slope: 9 O • / "pH buffer checks are to be within ±0.1 pH units of the standards true value ♦If sample is measured in directly in the stream only time analyzed would be rearmea. I- Indicates a recommended drift cbeck. (Use Buffer 7.0) Should be within'' 0.1 units of the buffer's true value) a Document the temperature of the sample at the time of analysis Note: This temperature is not to be used for reporting on the monthly monitoring report Calibration drift check is recommended when performing analysis at multiple sampling locations, •All pH results in pH units O.e., s.u.). ._.__.. . "Total Residual Chlorine ' Facility/Sample Location Time Sampled Time Analyz;dY- Temp (°C) ■ I pH Result I ►Buffer Check value Comment Facility/Sample location Time Sampled Time Analyzed Ills' i �s z2.1 �Y�f ♦If sample is measured in directly in the stream only time analyzed would be rearmea. I- Indicates a recommended drift cbeck. (Use Buffer 7.0) Should be within'' 0.1 units of the buffer's true value) a Document the temperature of the sample at the time of analysis Note: This temperature is not to be used for reporting on the monthly monitoring report Calibration drift check is recommended when performing analysis at multiple sampling locations, •All pH results in pH units O.e., s.u.). ._.__.. . "Total Residual Chlorine ' Facility/Sample Location Time Sampled Time Analyz;dY- TRCResult ue/L Daily check=dard I Comment obtained value egIL o� v 19 -617) bct5� 45. cd '"5' Ups Z11 snc cueca smnnarn ootuned true value ztu(acceptance range IW_Zzu ugt ,) (snoum recover wrmm=iu - /.w me check standard's obtained true value) Dissolved Oxygen (DO) Reference Method: SM 4500 O G, 20 Edition, —YSI DO 550 A Model—YSI PRO 20 Temperature °C Adjusted Air Calibration (mg/L) Saturation % Calibration Facility/Sample Location DO reading *Time Sample Temperature, Time mg/L Analyzedlfime Sampled o� v 19 -617) bct5� 45. cd '"5' Ups Z11 A.Based on appropriate altitude adjustment -" -- When performing analysis at multiple sampling locations, re-ca0bration(s) should be performed - erformed every four hours:- -Analysis ours:"`Anal sis time and sampling time the same. (Ideally the sample should be analyzed fii:i) .: ":- _..:: __ _. .:- 'Temperature Sensor Annual Check Date (550 A): INPROCESS Temperature Sensor Annual Check Date (PRO 20):IN PROCESS m O U Z ry W WU w O W m C) V) z Z F- L 1 LU w Z a. x Q LL O a w c 0 U U W 2 d C Z U V c O U u CL s a o � U m ui w co w a� Z LLJ Z O F D: o F a Z U 0 �a U I w E � M v) C7 w 2 > W) v E .ca r 9 m ai iL m w C C O1 F- - -o O J LL N r a7 > L d N U in d c LL= = M Z al R C Y 7 r y Y Q z z L = tm a W � O a YU C a ❑ 3 N U U Z U c U u o o � U m O m> co w a� a C3 0 n o mU U.? E w(d v) E w � t- > E w as E .ca ai iL m w C C O1 F- - -o E 7 Or in t o 0 C d� L -0 c 0ED U YU F- ar a rn� o 3.� o m c Q 0 a N _- Q Z m �i U U x w U d v ` o w ) U o m 'O ❑O ~ -O co j C > = m U xL > .-. U Z a Q a 2 a3 U o m nw p c q N 6m O °o. U w _y a3 N ~ U U z a OL Cn V% d Z N v m i HMO w T �m Z ola O d d> F HOVN G � U Q olEONH E W U) VOSZH - s N A IL ,0H a c WON t C o N39wnN fir- A OI evi o y E E V6w n v auuolyO m do A (S JO d) a C7 a CD a C7 a CD a C7 a CD a CD a C7 Jaulnuoo A u v er 9Jo U CD U (D U CD U 0 U C7 U o U CD U CD a aylsodwoo E adRl A aldweS ow c A m E O O t L o. y_ C i CT � T C y WE d 1- C Zo U � c a7 E M n L O 4 N A -i p1 z 0 U 7 Z d S7 C 9 0 c i E S2 a7 U i � fV .. . . . .. . .. { /. .$ . . . . / ? � � U � � � 7 «e7c z \(}\ /� @ ±,� ( ° / � {(/ + s S (w / ? � � U � � �