5*0 4t/ £3 y^ 9? -f? · 90-404 207-5-336 14,3 13.9 0.009 13.9 90-405 203-100-336 0.041 0.043
TRANSCRIPT
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NOUTllLAST TLUiNlCAL SLRV1CES, INC.
iLy I'mxlrQl Uucuiiiuntation
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Northeast Technical———————Services, Inc. N_>
P.O. BOX 1142 • VIRGINIA. MINNESOTA 55792 • 218/741-4290
WATER ANALYSIS REPORT
TO: Mr. Adolfo Zambrano MN Lab Certification #46997Biotrol11 Peavey Road Date Sampled: 5-09-90Chaska, MN 55318
Report Date: 6-04-90___
Laboratory # 2106-2113
Analysis were performed by methods approved by the U.S.Environmental Protection Agency. All values are expressed inmilligrams per liter, unless otherwise indicated.
Total (1) Total (2)Total Inorganic Inorganic
ab ID Description As As As As +3 As +5
0-2106 C-24 liquid 46.7 37.2 38.3 0.09 37.1 mg/L0-2107 C-14 liquid 27.9 27.9 37.6 5.0 22.9 mg/L0-2108 W-14 liquid 91.2 98.4 124 21.3 77.1 mg/L0-2109 W-24 liquid 124 115 130 0.97 114 mg/L0-2110 W-14 soil 1687 mg/kg0-2111 C-14 soil 517 mg/kg0-2112 C-24 soil 531 mg/kg0-2113 W-24 soil 1749 mg/kg
1) Samples diluted and analyzed by graphite furnace
2) Samples not diluted and analyzed by flame A.A.
Northeast Technical Services, Inc.
Renee M. StoneChief Chemist
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Northeast Technical———————Services, Inc.
P.O. BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290
WATER ANALYSIS REPORT
TO: Adolfo Zambrano MN Lab Certification #46997Biotrol, Inc.11 Peavey Road Date Sampled: 5-11-90Chaska, MN 55318
Report Date: 5-23-90____
Laboratory # 396-426
Analysis were performed by methods approved by the D.S.Environmental Protection Agency. All values are expressed inmilligrams per liter, unless otherwise indicated.
TotalTotal Inorganic
Lab ID Sample Description Arsenic Arsenic As+3 As+5
90-396 205-50-336 0,012 0.015 0.003 0.01290-397 201-50-336
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T TkX'llNlCAL SERVICES, INC.
lju.il ity t.'oui rol Documentation
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Northeast Technical——K..————Services, Inc.
P.O. BOX 1142 * VIRGINIA, MINNESOTA 55792 • 218/741-4290
WATER ANALYSIS REPORT
TO: Adolfo Zambrano MN Lab Certification #46997Biotrol, Inc. :11 Peavey Road ' Date Sampled; 5-11-90Chaska, MN 55318 '
Report Date: 5*23-90
Laboratory * 2205-2220
Analysis were performed by methods approved by the U.S.Environmental Protection Agency. All values are expressed inmilligrams per liter, unless otherwise indicated.
Lab ID Sample Description Total Arsenic
90-2205 Case K: ASTM 0.5690-2206 Case J: ASTM 0.05990-2207 Case G: ASTM 1.2490-2208 Case E: ASTM 3.1790-2209 Case E: ASTM Mod 2.5490-2210 Case J: ASTM Mod 0,2590-2211 Case G: ASTM Mod 0.4990-2212 Case K: ASTM Mod 1.0590-2213 Case M: ASTM 3.6690-2214 Case 0: ASTM 2.6190-2215 Case N: ASTM 4.3090-2216 Case P: ASTM 7.8190-2217 Case M: ASTM Mod 1.2590-2218 Case N: ASTM Mod 2.1890-2219 Case 0: ASTM Mod 1.2890-2220 Case P; ASTM Mod 2.19
Northeast Technical Services, Inc.
rTx 9 »Renee M. StoneChief Chemist
AB300I.53
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UtiUTIILAST TLCUNICAL SERVICES, INC.
ity i.'uiU rul Documentation
Ml.rUoli £f$ £faj "3at£> DATE RECEIVED ^ n/̂ h_ * \«>DATE ANALYZED
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Northeast Technical————— Services, Inc.
P.O. BOX 1142 • VIRGINIA. MINNESOTA 55792 • 218/741-4290WATER ANALYSIS REPORT
101 Biotrol, Inc. HN Lab Certification I 46997
iJ P£aVeLB°S£*ift Date Reclevedt 2-U-90- 3-2-90' Chaska, MN 55318Attn: Adolfo Zambrano Report Datet &-?n-90
Laboratory I
Analysis were preformed by methods approved by the U.S. EnvironmentalProtection Agency. All values are expressed in milligrams per liter*unless otherwise indicated.
Lab * Sample Description , Arsenic (Total)
90-594 ASTM, 89-34A 1.4090-595 TCLP, 89-34A 0.5490-596 ASTM, 89-28G • 5.4590-597 . TCLP, 89-28G 6.9890-834 HC1-1.0-34A-F 0.4490-835 H2S04-1.0-34A-F 17.990-836 WL-TS-208-99-AS3 3.6690-837 WL-TS-208-99-ASO 12590-838 WL-TS-208-99-R 38.490-839 WL-TS-208-99-ASI 3.57
Northeast Technical Services
Renee M. StoneChief Chemist
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Northeast Technical———————Services, Inc.
P.O. BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290WATER ANALYSIS REPORT
TO: Biotrol MN Lab Certification I 46997Attn: Adolfo Zambrano Data Recievedt 4-5-90_____11 Feavay RoadChaska, MN 55318 Report Dates 4-20-90
Laboratory i ______
Analysis were preformed by methods approved by the-U.S. EnvironmentalProtection Agency. All values are expressed In milligrams per liter,unless otherwise indicated.
Lab ID Sample Description Total Arsenic
90-1322 Case N compo leachate 53690-1323 Case M compo leachate 65690-1324 Case 0 compo leachate 56890-1325 Case P compo leachate 48990-1330 89-34 AS-3 4.2190-1331 89-28C AS I
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NUKlllLAST TLCUNLCAL SERVICES, INC.
(.Hi a I i ty Control Documentation
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Northeast Technical
P.O. BOX 1142 • VIRGINIA. MINNESOTA 55792 • 218/741-4290ANALYSIS REPORT
TOi fliotrol «N Leb Certification i 46997Attn: Adolfo Zambrano „ ^ .. , . •» i* /. *11 Peavey Road Data *«
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P.O. BOX 1142 * VIRGINIA, MINNESOTA 55792 • 218/741-4290WATER ANALYSIS REPORT
T01 Biotrol, Inc. MN I*b Certification I 4699711 Peavey Road Oate Recievedi 3-20-90Chaska, MN 55318 —————Attni Adolfo Zarobrano Report Datt| 4-2Q-90
Laboratory I .___
Analysis were preformed by methods approved by the U.S. EnvironmentalProtection Agency. All values sre expressed in milligrams per liter,unless otherwise indicated.
Lab t Sample Description Arsenic (ToCal)
90-1020 Case F HCl+Na2S03-l-34A-F 2.2490-1021 Case G Na2S2P3-l-34A-F 31.690-1022 Case J NaOH+Eth-ll-34A-F 14690-1023 Case D NaOH-ll-34A-F 26.090-1024 Case C HNO3-1-34A-F 0.4590-1025 Case L HCl+Flt-l-34A-F 1.1290-1026 Case K Na2C03+DP6-ll-34A-F 12490-1027 Case H HC1+DP3-1-34A-F 2.0290-1028 Case I EDTA-5-34A-F 4.1090-1029 Case E Na2CO3-ll-34A-F 69.290-1030 Case L Fit Filtrate-5-34A-F - 0.12
Northeast Technical Services, Inc.
Renee M. StoneChief Chemist
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UTIlLAST TIX'IINICAL SERVICES, INC.
Uiu 1 it y i.'ontrul Documentation
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P.O. 80X1142 • VIRGINIA. MINNESOTA 55792 • 218/741-4290WATER ANALYSIS REPORT
TO: Biotrol MN Lab Certification I 46997Attn: Adolfo Zambrano „ _, , . , ..11 Peavey Road Datc Rccicved! 4"6'90—————Chaska, MN 55318 Report Date: 4-20-90
Laboratory I _______
Analysis were preformed by methods approved by the U.S. EnvironmentalProtection Agency. All values are expressed in milligrams per liter,unless otherwise indicated.
Lab ID Sample Description Total Arsenic
90-1386 89-28G AST 0.019 mg/L90-1387 89-28G ASO-1 0.008 mg/L90-1388 89-28G ASO-2 0.005 mg/L90-1389 89-34 ASO-1 ' 0.003 mg/L90-1390 89-34 ASO-2 0.010 mg/L90-1391 89-34 ASI 0.013 mg/L90-1392 89-28E ASI 0.001 mg/L90-1393 89-28E ASO-2
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—— SAfvirftc InrtJv?l YlVivrOr 1 1 IV««, BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290
WATER ANALYSIS REPORT
ambrano MN Lab Certification 146997Inc.
y Road Date Sampled: 4-06-90MN 55318
Report Date: 5-23-90
Laboratory #
performed by methods approved by the U.S.Protection Agency. All values are expressed inr liter, unless otherwise indicated.
TotalSample Description Arsenic
89-28E Residue 46 mg/kg89-34 Residue 702 mg/kg89-28A Residue 14 mg/kg89-28C Residue 31 mg/kg89-28G Residue 1601 mg/kgCase M Solid 5656 mg/kgCase N Solid 1190 mg/kgCase O Solid 1549 mg/kgCase P Solid 673 mg/kg
Northeast Technical Services, Inc.
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WATER ANALYSIS REPORT *10/'*M*w
T0! Biotrol, Inc. MN Lab Certification i 4699711 Peavey Road ..... . l o i i c i i tChaska, MN 55318 Dat« Recl.v.di 1-9. 1-15. 1-17Attn: Adolfo Zarabrano Report D-U| 4-20-90
Laboratory I ._________
Analysis were preformed by methods approved by the U.S. EnvironmentalProtection Agency. All values are expressed In milligrams per liter.unless otherwise Indicated.
Lab I Sample Description TOC • Aa
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90-246 P-201-100-144 1,90 0.01090-247 P-203-100-144 2*82 0.01490-248 P-208-5-144 6.73 1.2390-249 P-203-50-144 0.42 0.02790-250 P-205-100-144 2.49 0.009
Northeast Technical Services, Inc.
X§1fr++——Renee M. StoneChief Chemist
AR300i»72
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Quality Control Documentation
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P.O. BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290WATER ANALYSIS REPORT
TO! fiiotrol. Inc. MH Lab Certification I 4699711 Peavey Road Oate Recieved; 1-30-90Chaska, MN 55318 —————————Attn; Adolfo Zambrano Report Date! A-20-90____
Laboratory I
Analysis were preformed by methods approved by the U.S. EnvironmentalProtection Agency. All values are expressed in milligrams per liter»unless otherwise Indicated.
Lab # Sample Description TOG Arsenic (Total)
90-365 P-201-20-72 4.32 0.00790-366 P-201-50-0 3.45 0.01490-367 P-201-50-72 2.54 0.00790-368 P-201-100-0 2.92 0.00490-369 P-201-100-72 2.59 0.01190-370 P-203-20-72 4.14 0.03490-371 P-203-50-0 3.52 0.01990-372 P-203-50-72 3.20 0.03390-37.3 P-203-100-0 19.6 0.01190-374 P-203-100-72 5.87 0.02490-375 P-205-20-72 4.86- 0.01290-376 P-205-50-0 4,16- 0.00590-377 P-205-50-72 3.25
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P.O. BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290
Mr. Adolfo ZambranoBiotrol, Ino.11 ?eavey RoadChaska, MN 55318
Dear Adolfo:
Please find enclosed a preliminary report of analysis for the 9samples received on 10/26/89. A final report will be issued uponcompletion of the TOC analysis.
The total arsenic was analyzed by Methods SW 3050 and SW 7060(attached). Upon receipt of your procedure, two samples werereanalyzed using the sulfuric-nitric-persulfate digestion. Theresults are as follows:
Sample Run #1 Run $289-23D 960 945 mg/kg As89-28E 113 105 mg/kg As
The results were in close agreement (7 and 2"s), therefore theother samples were not reanalyzed. The sulfuric-nitric-persulfate digestion will be used on all future samples. Pisasaverify whether or net Method SW 7060 is acceptable. Also, is theenclosed analytical and quality control date adequate?
Sample 89-29, unpreserved, was analyzed "as-is". The differencein TOC results for sample 89-29 (unpreserved 65 mg/L andpreserved 1.1 mg/L) represents the inorganic carbonates in thesample. Samples that are to be analyzed for TOC should bepreserved with H2SO4 to pH -'2. All metals should be preservedwith HN03 to pH
-
Northeast Technical———————Services, Inc.
P.O. BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290
TVATER ANALYSIS RETORT
TO: Biotrol, Inc. MN Lab Certification £4699711 Peavey RoadChaska, MN 55318 Date Received: 10/26/89
Report Date: 11/13/89
Laboratory # 89-5001 - 5009
Analysis were performed by methods approved by the U.S.Environmental Protection Agency. All values are expressed innilli-rjrams per 1 iter, unless otherwise indicated.
Lab ID S amp1a Arsenic TOC
39-3301 39-23A 43 mg/kg09-5002 39-23B 6239-5003 39-2SC 15339-5004 89-2SD- 96039-5003 39-23E 11339-5006 39-28F 142509--007 39-28G 4000 mg/kg
39-29 89-29Parameter A3-i a Preserved
-^u - 7 1 5 - n •» n— i. /...j _ • t> i>Chloride 7.5 6.0 ny/LTot.nl Dissolved Solids 430' 596Sulfate ' 27' 39Calcium 99 99Magnesium 32 . 31Sodium 3.1 2.9Iron 2.95 3.24TOC 65 - I.I mg/LArsenic 3 / 13 ug/L
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I i ty Cunt rol Documentation
Al'JALVTL Arspn-tr LAB ID # 5001-SOOQ,Tllu|> SW 7060_____ DATE RECEIVED 10-26-89
DATE ANALYZED 10-27-89
UI.ANUS
INITIALBLANK VALUE
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SAMPLE ID SAMPLE RESULT
5003 158 mg/kg
5009 12 ug/L
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7.2%
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-
Northeast Technical———————Services, Inc.
P.O.BOX 1142 • VIRGINIA, MINNESOTA 55792 • 218/741-4290
December 13, 19f:9
Biotrol, Inc.11 Peavey RoadChaska, MX 55318
ATTENTION': Mr. Adolfc Zanbrano
•or a.Total Organic Total
Sanple ID Arsenic Carbon Carbon Hydrogen Nitrogen
89-23A 45 ng/kg i.02?; 1.39:; 0.87's 0.26:;
39-23B 62 rag/kg 1.73s 3.02» 0.66"r 0.34";
89-23C • 153 ng/kg 0.55-:; 1.0Er; 0.48'; 0.35";
89-2SD 960 ng/kg 1.35-:; 5.76?-: 0.33:̂ 0.20-x
89-23E 113 ng/kg n.32?; 0.97:; 0.88?i 0.35-:;
39-23F 1425 ng kg 0.29:: 6.48'; 0.991--: 0.33',
89-28G 4000 ng. kg 0.62:z 1.37:: 0.43": 0.33-::'
ftR300U87
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Repcri of analytical Results
... . ._._uaie 3ubniited...•J/24/S3 uaie neporieci. . .. . i/_;£/SwProject No........ 525 Method............NuIR
Teat No........... Repori To.........AZ
......................................................................Lab no Description TGC\ppn)
88-5S5S S3-2Sn 13063/+ n r~ i* r f * nn_-*r+ « Q^«t'»oo-aoaa n oa-con a_;ww^f^ ^^^— • ^^ ^«— * « pif*^^%i00-303 f O3-*;OD 1 3owa|8S-5S57 n 33-288 23333 '83-5358 83-28C 58 3/338-5853 33~28D 13433
/^f^^^^^« rtQ^rt^oo-aoo i S3-_;or88-5852 83-286 7233
n
-
Date Submitted.,,.1/23/93 Date Reported.....2/16/90
Project No........ 526 Method............NDIR
Test No........... Report To.........AZ
Mmmmmmmmmmmmmm»»tammmmmmmm»mwmmmmmmmmmmmmmmmmmmmm»mmmmmmmm»mmmmmmmmmmmmmt
Lab no Description TOC(ppm)
88-5907 WHIT 89-2SG LEACHATE 1388-5907A WHIT 39-_]6G LEACHATE 1283-5908 WHIT 89-34A LEACHATE 9
flR300U89
-
n^.uufl. u nftai v . icd
Dot e Subnii ted. ... i /23>'3v» Dote Reported
Fr-oject No. ....... 528 rlethod, .......... .NO I R
Tes$ Nc>. ..... * > ' > ' Reppri To, ,.,,,.,, A7
Loo no Description TOCi
S6-5337 83-23G 843038-5338 83-3*n 553333-5338 A 83-34n 8333
BR300U90
-
Date Submitted....1/29/90 Date Reported.....2/06/90
Project No........ 526 Method............NDIR
Test No........... Report To.........AZ
Lab no Description TOC(ppn)
83-5902 WHIT P-208-20-72 AQ IT/88-5903 WHIT P-207-50-0 AQ J3 /88-5904 WHIT P-203-50-0 AQ 9288-S904A WHIT P-203-50-0-AQ 6-88-5305 WHIT P-205-50-0 AQ 3 /88-5908 WHIT P-20I-50-0 AQ 7'88-530SA WHIT P-210-50-0 AQ 888-5944 WHIT P-203-20-0 AQ UV88-5944A WHIT P-203-20-0 AQ 12'88-5945 WHIT P-201-20-0 AQ 1088-5946 WHIT P-208-100-0 AQ 7J/88-534SA WHIT P-208-100-0 AQ 8-88-5947 WHIT P-205-20-0 AQ 1 W88-5948 WHIT P-207-20-0 AQ 13 i/88-5954 WHIT P-208-50-0 AQ 2 S88-5955 WHIT P-208-20-0 AQ 10}88-5955A WHIT P-208-20-0 AQ 9j^83-5960 WHIT P-201-S-0 AQ 1388-5951 WHIT P-203-5-0 AQ 12 ̂88-5362 WHIT P-205-5-0 AQ 12 /88-5353 WHIT p-207-5-0 AQ 12 I88-5963A WHIT P-207-5-0 AQ 12 *
SR3001t9l
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Date Submitted.... 1/30/90 Date Reported.....2/13/90
Project No........ 526 Method............NDIR
Te.st No........... Report To.........AZ
Lab no Description TOC(ppn)
88-5392 WHIT P-207-50-33B AQ 23 \/88-5993 WHIT P-205-50-336 AQ 988-5996 WHIT P-208-50-33B AQ 188-599BA WHIT P-208-53-336 AQ
J
HR300U9
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Date Submitted....1/30/90 Date Reported.....2/13/90
Project No........ 526 Method............NDIR
Test No........... Report To.........AZ
Lab no Description TOC(ppn)
83-5969 WHIT P-205-100-336 AQ ij88-5377 WHIT P-205-5-336 AQ gv88-5978 WHIT P-203-5-336 AQ 9./88-5978a WHIT P-203-S-336 AQ . 10*.88-5985 WHIT P-205-20-336 AQ 7 ̂88-5986 WHIT P-201-50-336 AQ 9'88-5987 WHIT P-208-20-336 AQ 983-5988 WHIT P-201-100-336 AQ 1 1 - -88-5989 WHIT P-207-5-336 AQ 13i/88-5389A WHIT P-207-5-336 AQ 14i88-5390 WHIT P-203-50-336 AQ 8 X88-5931 WHIT P-207-20-336 AQ 9 .X
ief«R30QI|93
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Date Submitted. . ..1/30/90 Date Reported. ... .2/07/90
Project No. ....... 52S Method. .......... .NDIR
Test No. .......... Report To. ....... .AZ
Lab no Description TOC(ppm)
88-5964 WHIT P-208-5-0 AQ M88-5965 WHIT P-208-5-336 AQ 1388-5968 WHIT P-203-1 00-336 AQ 7 y38-5967 WHIT P-201-S-336 AQ 9'38-5368 WHIT P-201 -20-336 AQ 7 ̂88-5963A WHIT P-201 -20-336 AQ 6"88-5370 WHIT P-203-20-336 AQ 7X88-5975 UHIT P-207-1 00-336 AQ 888-5976 WHIT P-208-100-336 AQ 6
/
AR30Q14914
-
ILI
Date Submitted....S'14/50 Date Reported.....S/14/30
Project No........ £26 Metnod............NDIR
Tast No. .......... Report To.........AZ
Lab no Description TC(ppm) ICfppn > TCC\ppm)
3S-6929 *STM MOD TS2t S0.4 71.3 3.6
, • "3JkOAR300l»95
-
Date Submitted. .. .6/1 1/90 Date Reported. ... .6/U/33
Project No........ 526 Method............NOIR
Tsst No........... Report To. ........AZ
*»*»•» 1»̂ *»!•**•»**«• »•*»»• *t»l»» ••»»»• »*f »-•**•* »«•* **»«»**W»I *»*•• M« It*• • »•=•-•• W-• I
Lab no Description TC(ppm) 1C 7CC
-
Date Submitted. .. .5/8/90 Date Reported. ... .5/ 15/90
Project No.. ...... 526 Method. .......... .NEJIR
Test No. .......... Report To ........ .AZ
Lab no Description TC(ppm) IC'ippm) TQC'ppn)
88-6834 WHIT. W11 LEACHATE 202.5 52 150.5 /,88-6835 WHIT. Cll LEACHATE 2BB.5 E5.5 201 /33-SS36 WHIT. C21 LEACHATE 291 74 217 *83-6337 WHIT. W22 LEACHATE 350 183 I77*/
1 8 9 - 6 8 3 3 WHIT. U2 1 LEACHATE 408 205 233 •88-S839 WHIT. Ci2 LEACHATE--. 1 44 58 7588-6840 WIT. C22 LEACHATE \ 256 73.5 175.533-6S4CA WHIT. C22 LEACHATE ' 260 71.5 18S.589-6341 UHITviV12 LEACHATE-" 194 97 97 /88-S342 WHIT. C13 LEACHATE 191. E 139 82.5«/S3-S343 WHIT. UI3 LEACHATE 167.5 133.5 64t/88-SS44 WHIT. C23 LEACHATE 233 109.5 123. 5 y3S-B345 WHIT. W23 LEACHATE 22? 112.5 1 1 4 . 5 i
y
flR3001*97
-
Oats Submitted. .. .5/1 1/90 £
-
Date Submitted.. . .5/16/93 Data Reported. ... .5/J7/.90
Projsct No........ 526 Method............NDIR
Test No........... Report To .........AZ
Lab no Description TC(ppm) 1C (ppm > TOCippm }9aBJBMK*»WKttnaBVVBWJBWttttMBWB9VBMflBXHSVfllttS>CWBVaVttWVWWWHV&-BWKMMBVQ
*89-S336 UHIf. C14 ASTM 31.2 19.2 12 /88-5888 WHIT. UM ASTM 31.7 13.4 12. 3/33-6391 WHIT. C24 ASTM 41 30.3 t0-7it/36-633trt WHIT. C24 ASTH 45 32.6 t2.il38-6893 . WHIT. LJ24 ftSTM 25. 6 IS. 5 10.1 \/
-
Date Submitted. .. .3/1/90 Date Reported. ... .3/7/30
Project No........ 52S Method. ........... 1 80 C
Test No. .......... Report To. ....... .ARZ
«M»»are»»»»aae«»™»«ae=a»j»»»»Ktta== = «»MttaEa»sa™»a»= = = aa==»«*c==««»«*aata* = »
Lab no Description TOC(ppn)
88-6279 WHIT H2S04-1 -34A-F y Z33.788-6281 WHIT HCL-1-34A-F /, 198. 3SS-6279A WHIT H2S04-1 -34A-F ^233.4
J
IIIII
-iAR300500 I
-
Date Submitted....3/5/90 Date Reported....,3/7/90
Project No........ 525 Method............ 130 C
Test No........... Report To.........ARZ
Lab no Description TOC(ppm)
83-6285 WHIT HN03-1-34A-F 12.2 /
/SR30050I
-
Oa^* Sub"!* :ŝ . .3':3/90 Dat * rr-aoor red. . . . . i-'Z
Pr-n i»c + NO. ... . , . 525 Method. ........... NO I
T« t M ......... Resort To ..... .... A?
r. :NAn.H-t l-^iA-P ... , _,- - - - - . . . _ - . _ _ - . . - . - . . ,fl3-p-*E;-s _IHTT TA=;F P:MA?rr.3-i I-TJ-A-P ^s /
.2 7E.//33-5353 ^HIT CASE 5:HCL+iMAZ303-' -34A-P
33-3389 WHIT ! :EQTA-=.-3iA-F . 3MSB-535! wHIT K.:WA_;CQ34-DP5-M-3
-
Case Subnittad....5/11/90 Date Reported.....5/16/90
Project No........ 52S Method............NDIR
Test Wo........... Report To.........AZ
Lab no Description TC(ppm) IC(ppn) TOC(ppm)SVBnABMVKBVWttVKKSHMAMBHS-WBnnVWA^WVWW3fcVBMWKBW9tW*WfiCttBmBKSXH
83-5375 CASE fl: ASTM MOO 61.2 2S.6 34,5 /88-6373 CASE N: ASTM MOO 43.8 27.4 13.J/S3-S383 CASE 0:ASTM MOD 44.1 2S 18.1 y83-6360A CASE 0: ASTM MOD 44.5 27.1 17.4 .S9-B3-32 CASE R: ASTM MOD 71.5 IS.2 . £5.3 /
AR300503
-
Date Submitted....4/20/90 Oate Reported..... 4/20/90
Project No........ 526 Method............NDIR
Test No. .......'... Report To ........ .AZ
MKttAMSMMSMMlB_feBABttMWW9VMHKWWB _• • • MM1gTtgKe-fc3***»MM»gaMMM^MMgMMM^MfT^^l^a****
Lab no Description TC(ppn) IC(ppn) TQC(ppn)3«K««aMB*aK3CK»SK = = K=SSK««««»XM = 3:»SlC«BKKK3_*:B««ai«B«MI*B«B*SW»3ZX*«KB«*BS*
33-5303 CASE E:ASTM MOD EXTRACT 145.3 46.4 99.4 /88-5804 CASE J:ASTM MOD EXTRACT 39.2 . 45 43.2 i/33-6S0S CASE G:ASTM MOD EXTRACT 35.1 6.3 29.8'̂33-5806 GrtSE K:ASTM hOD EXTRACT 79.4 34.3 45.1 y
J
-
Date Submitted.... 4/18/90 Date Reported. ... .4/20/90
Project No. ....... 526 Method. ......... . .NDIR
Test No. .....'..... Report To. ....... .AZ
Lab no Description TC(ppn > 1C (ppm) TOC
-
Data Submitted..,.4/06/90 Dats Reported.....4/11/99
Project No........ 525 Method............NDIR
Test No. .......... Report To.........AZ
Lab no Description TCCppm) ICtppn) TOC(ppn)
88-6699 WHIT CASE JiASTM EXTRACT U0.7 21.9 113.9 „83-SS90 WHIT CASE G:A5TM EXTRACT 39.5 BDL 38.5X33-SS91 WHIT CASE E:ASTM EXTRACT 876 16.2 859.3 /38-S692 WHIT CASE K:ASTM EXTRACT 843 13.1 324.939-6S92A WHIT CASE K:ASTM EXTRACT 340 19 321
-
Data Submitted....3/23/93 Oats Reported.....4/1/30
Project No........ 523 Method............NDIS
Test No ........... Report To ........,AZ
Lab no Description TC(ppm) 1C(ppm > TOC
-
Date Submitted....3/12/50 Date Reported.....5/08/30
Project Mo........ 52E Method............NDIR
r«st No........... Report To .........AZ
Lab no Description TC(ppm) 1C(ppm ? TOCCopm)
33-6365 J:NAOH + ETHANOL-11-34A-F 5500 44 /
1III
16 ̂ \SR300508
-
Recort Q? Analytical
-
Report of nnal/ticai Results< Total Solids - T3)
Data Submitted....06-11-90 Date Reported.....0G-12-90
Project No........ 52S Method............209A
Test No,.......... Report To .........ARZ
Lab no Description TS (ppn)»»*»**»» »* «»«m»»««M«»»»««»««t«»«»*« :aa**at*a«iesK* w •• ••*«»*«gB*«aoi*««««e*B«mB
S8-6323 ASTM MOD TSH 132Q /
35-5319 ASTM MOD TS!2 730 ; - - JDuplicate 860 - "*
S3-SS2! ASTM MOD T522 620 ^
flR300510
-
D,.\ i:o 21 'ijnu v1.;-. :,:tj ,,,.:.:". o/ 90 -J:*>:\* ;"\:ji.,uj!-"i:.«d . . !j/ i !,.' 9O
Tast: Wci. ........... Ha port. Vu, , . . . . i^t-r^
Lab no Doscr i p t i on l O TVUSOLIDStppm*
S3-6*33'-l 1J OUF L 1 C-') Til38-6835 WHIT CL 1-LEACHATE 6:1750R8-6833D V)l i!-1!.. ICA TE 617OO88-68330 DUPLI GATE . 593UO
SS-6S3-3 WH1 !' C.21-LEACHATE 'I75OO1
~ CJ C? ^ r ••.'• f M "I I. I ^*4 j, -j!1 "*" V,- ll̂ L I"̂ *.*_• il ̂ n ! i£». .**_••*»-»«» 1-1 | 11— i *• |-\ f. 'n- L—
y
/7f
AR3005I I
-
;-::op;.;r T; •:;)-•" An ?t.i yv.i ':::-' :'•.?. i'
'.It.lT f i"1 •" -":-,_: -r ^i1"'!-!'-, l :_• —. "f ,1 ,•'s ,••fl I ' . '— J. .w !__»i"-'.'l T'l ' •« •..-•_• l '•..-•
i'-j'-i L'i" '!"' i. •">•-:. .ii-ACHf'j'i'E i-v.f>70^
«R3005I2
-
Saport of flnaiyticai Seaulia
Data Submitted....5/9/30 Oate Reoorted. ,5/'17/93
Project No........ SZS Method.........193-10SC
Test No........... Report To......ARZ
Lafa no Description TOTALSOLIDS'
WHIT 0:4
3S-5353 - WHIT C!4 3
63-555^ WHIT yja 'S493S»/
* 33-535= '̂ H:T WC4 5=733 /S9-53S50 OUPLIGftTE S5"2-3 -
Si 439'
flR3005!3
-
Pr*p-?rT, or rtn^lyticai Result,;Qisaoived SoUfls - "05)
Gdta suanUtsd. .. .'35-17-92 Sata Reported. . . . . -3S-C 1-90
Projact No........ , S:5 Method. .......... .233A
Tast Me........... RsDort Tc. ....... .ARZ
Lac no Osscription T5
3S-S392 WHIT, UiU - ASTM 235.0
*
38-5393 WHIT. CU - ASTf! 455.2Oupiicata 45S.3
llill
in ~1HR3005|li i
-
Report of Analytical Reaulta(Total Solids - TS)
Date Submitted. .. .33-05-93 Date Reported. ... .03-07-50
Project No. ....... 52B Method. .......... .209AA
Test No. .......... Report To. ....... .ARZ
Lab no Description TS (ppm)
88-S280 WHIT H2S04-!-34A-r 1 727083-S280d Duplicate 17340
S8-6232 WHIT HC1-1-34A-F 12570 ^
88-628S WHIT HN03-1-34A-F (TS) 11060 *
I? t
AR3005I5
-
R_.n._ir>* of ^nsiyt icai R^suii !: 3vTc-tsi Solids - TS ) '
Date Submitted. .. .03-37-99 Dats R*pc-riad. ... .33-22-30
rt N .... 525 fist hod. .......... .
Tesi No. .......... Report To. ....... .AR2
Lib no Descri"t ion TS (22m ̂,ma*mmmmmmmm*m*mmmm*m»mmmmmmyimmvi*mm*mmmm***mm*im*m*mmmmm»m*mm*aa*mmmm.*=m
/S3-5323 WHIT CASE D- NsOH -M-34A-r 550
I
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Heport of Analytical Results•:Total Solids - TS)
Date Submitted.,..33-38-30 Cate Reported.....C3-2Z-90
Project No........ 52S Method............2B3A
Test No........... Report To.........ARZ
Lab no Description TS
-
R*nort of *pal^"ticai P.esuiis
Date Sub*; t tad... . 03-'3S-35 Date Reported.... .03-22-90
Project No........ 52S Method............239A
No ... ....... Report To.........ARZ
Lib no Description T3 (po!*!!1mmmmm»at»mm»Mttmm»s^Mtf»ammm»m ••»«•••»•*•*«••••«•« ••••••••m»«9««B««w«*3
'.'.'HIT C^ F= HC + Ms2SC3 -l-34A-ff(TS> ! 9500 •
flR3005l6
-
Renort of An4i"tic_il Results( T.H+* t Snl i rU - T-' )
Date Submitted....03-99-50 £ats Reported.....03-22-90
Project Mo........ 52S Method............ 209A
Test Mo........... Report To.........ARZ
Lab no Descript ion TS ippm)
53-6364 WHIT CASE S: HG1 + N-2S203 -I-34A-F 3035? ,Duplicate " 30457 ^
AR3005I7
-
Recort or Analytical Results(Tctai Sclias - TS)
Date Submttes, .. .33-'3-30 Date Reported.... .33-22-90
Project No........ 525 Method............233A
Test Nc........... Report To.........ARZ
Lab no Description 73 \'pprc>
33-5350 UHIT K: Na2CG3 + DPS -H-34A-F 5=330 v/
38-5352 WHIT L: HC1 + rLT. -1-34A-F 347831^Duplicate 35I20.J
SS-5335 WHIT H: HC1 + OP3 -1-34A-F 27QS0 /
^3005/8
-
Reoort of Analytical R*s_tits
Date S-ibmitteo.... 3/13/9? Date Resorted. . .3/22/5S1
Project No........ 52S Method..........1Q3
Test No........... Resort To.......ARZ
TOTAQescrintion SO
S2-533S WHIT I :EDTA-5.-3«iA.-F 15.533) /SS-538SD Duniicate 1543352-5335 WHIT L:PLT_F!LTF.ATE-5-3A*.-F 3340')-^O - '
AR3005I9
-
Report of Analytical Reaulta(Total Solids - TS)
Date Submitted....03-28-90 Date Reported.....30-30-90
Project No........ 526 Method............209A
Teat No........... Report To.........ARZ
Lab no Description TS (ppn)
38-6632 WHIT CASE 0: COMPOSITE LEACHATE 69800Duplicate B71S7
AR300520
-
Report of Analytical Results(Total Solids - TS)
Date Submitted....03-23-90 Date Reported.....03-30-90
Project No........ 526 Method............209A
Test No........... Report To.........ARZ
Lab no Description TS
88-6608 WHIT CASE M: COMPOSITE LEACHATE 64300
88-6610 WHIT CASE N: COMPOSITE LEACHATE 55600~v
83-66!2 WHIT CASE P: COMPOSITE LEACHATE 52900Duplicate 53167
flR30052l
-
Report of Analytical Raauita-.Total Solids - TS>
Data Submitted. . ,.03-'2-50 Qdt« Reported. ... .0S-0B-SQ
Project Nc. ....... 526 Method. ......... . .209A
Teat No. .......... Report To, ....... .ARZ
Lab no Description TS (pptnJ
33-5355 WHIT CASE J: NaOH f Ethane 1 -1I-34A-F ( TS ) 59553Duplicate 73353
o
,1IIIIIII
SR300522
-
Report af Analytical ResultsTotal Dissolved Solids
Date Submittsd....4/5/90 Date Reported.....4/10/90
Project No........ 5ZB Method............ 180 C
Test No........... fi-port To.........ARZ
Lab na - Description TDSNQ/1
88-3595 WHIT.CASE E:ASTM EXTRACT 454S8-669S WHIT. CASE K:ASTM EXTRACT 1022C83-SSSSD DUPLICATE 1 1148088-65960 DUPLICATE 2 10780
198
/1R300523
-
Ranort of Analytical Result?Total Dissolved Solids
Date Submitted....i/S/30 Data Reported. ...,4/10/32
Project No........ 52S Method............ 180 C
Test No........... Report To.........ARZ
.̂ -•••̂-•̂ •̂ ••••̂•••••••••••WKVHVWM •MBM W WMV1V1VB VH BI^»^W^i^W-
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SETTIINS QATATHICKENtHG DATA SHEET TTHT; ————— UTEAFAC£
HtlGHT*
OATC:UST KO.t .TSU -DESCRIPTION!
SAMPLE «T.(9): '-tS* « ?jy»7 • .30JSUIRRT S SOLIOSl >5_______Solids Pirtlelt Silt OUtHbutloni
+ioo tusht•100 + 200 Ktihi•200 t 325•325 t 0 Ktsh: tffr
Flocculint!Brand Nan«: . Tfcnrol El
Conctntratlon:Addition («1):
i( O o u f l e (Ib/ST):
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i Stirrtr RPH:Undtrflow Chiricttrlntlon;II. Undfcinttd Votun*, Bit .«. Slurry I Cyllndtr »t,t 9113. Cylinder wt., gi ^ 1-3-3*4. Slurry wt.( 9* liM'. QIS. Dry Solid! »t.t 91f6. Sup«rn*t«nt Sp. ftr.i17. S«11df Sp. ir.j
IS X 16II A 10 - t_>4 • IS/
18. Thlcktntr Capacity (OSTPO)
. . • i ~n*»~. *»~»n »"• «»nr>. *v.i
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HR300569
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SETTUNfi DATATHICKENtNfl OATA SHEET TIME,
MIN
OATEs 4 '/7/9O_______________________ ftTEST NO.l *T5l2.-g,Tl-.DESCRIPTION:.
SAMPLE «T.(9)l ____JSLURRY 1 SOLlOSt _Solids Partlclt Sltt QHtrlbutlon] 3O+100 Mashi•100 + 200 Mostu•200 + 32S Moth!•325 + 0 Mtsh: MA
Floeeulant!Brand NamtiTyptsConeantratloniAddition («1)t
Stlrrtr RPMj
Undtrflow CTurtettrltatlontII. Undtcanttd Voluw, «1t12. Slurry » Cyllndar wt., 91 22*U13. Cylinder »t., 9: \ \^14. Slurry wt., 9: t i\-7IS. Dry Solids wt., 9: 13,7IS. Supernatant Sp. ftr.i l"Q17. Solids Sp. 8r.t _-___.-
IS t !«
18. Thtekantr Capacity (OSTPO)
'NL-TO-CX CALIBRATION FACTOR:
r̂ r̂—HR300570
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SETTLING DATATHIdCENTNfi DATA SHEET .
SAMPLE KT.(9)iSLURRT S SOLIDS:Solid* Pirtlelt Stit Distribution*+100 Kasht•100 + 200 Mash:•200 + 325 Mosht025 + 0 M«sh: MA
FToccuUnt; , .Brand Naaa: ' Vtr
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SETTLING QATATHKKEIUHS OATA SHEET TTHH
DATE:TEST NO.JDESCRIPTION:
HIN
SAMPLE HT,(9): J
SLURRY S SOLIDS: t5______________ 2OSolids Partlclt Ittt Distribution: 3S+100 Mash: EfA • 3n-100 + 200 Math! OA_________ 3£-200 + 325 Mtsh: MA________ HO•325 + 0 Mtsh: AjA_______ V5* ^9 I
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APPENDIX F
Trade Name Chemicals
flR300578
-
ALLIED CCLLOIDS INC. - MATSSIAL SAFETY DATA SHEET
Page i of 3ALLIED COLLOIDS INC.Post Office Box 820Suffolk, VA 23434
Telephone No. (304) 934-3700
MSDS No.: OO04Date Revised: 09-21-85
I. PRODUCT IDENTIFICATION
Product Name: PERCOL El0 r .Product Type: Copolymer of sodium acrylate and acrylamideProduct Description: White free flowing powder
II. HEALTH HAZARDS
1. HAZARD and FIRST AID STATEMENTS
Nature of Hazard; ;This product has been determined to be non-hazardous in accordancewith 29CFR 1910.I200j however, as with any chemical, this productshould be handled with good industrial hygiene and safetypractices as set forth in this material safety data sheet.
Primary routes of entrv:Ingestion, inhalation .
Effects of OvergMDOsurei (Sighs and symptoms of exposure)not applicable (na) . 1 - .
Emergency and First Aid Procedures:
EYE CONTACT ' \ J . '•If splashed into the eyes, flush with clear water, to removeproduct. . • ' : ' •
INGESTION' 5 ! :If ingested, give emetic and seek medical advice.
2. HAZARDOUS INSREDIENTS (concentrations of 1% or greater)
CAS NUMBER*none i i na
gxoosure Limit: ; - i » I ; rnone ' • • ; •"'.'' ; >
ACSIH: none OSHA PEL: none MFRS Recommended: none> : ' * ." '
Carcinofl*nicitv Determination bv NTP. IARC. OSHAi None
-*>*•
flR300579
-
SUGGESTED APPLICATIONS FOR PERCOL MINING GRADE FLOCCULANTS
351 Non Powder. Ionic
E10 Low PowderAnionic
E24 Low MicroAnionic Bead
155 Medium MicroAnionic Bead
1011 Medium PowderAnionic
156 High MicroAnionic Bead
511 Very High MicroAnionic Bead
455 Low PowderCationic
352 Low PowderCationic
292 Medium MicroCationic Bead
513 High LiquidCationic
401 High LiquidCationic
402 High LiquidCationic
403 High LiquidCationic
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
SEPARATE PERCOL DATA SHEETS AVAILABLE ON REQUEST
iiiii
flR300580
-
Several alkaline phosphates, particularly tetrasodium pyrophos-phate and trisodium phosphate, are used as dispersants in theflotation of slimy ores, especially for those ores containing iron oxide
, slimes.
Because of the sequestering properties of these compounds they areuseful in reducing the harmful effect of heavy metal ions in solution.
CYQUEST 3223 Antiprecipitant =CYQUEST 3223 is an acrylic polymer. It is not a sequestering orchelatinpaftentin the true chemical sense as its action in suppressingnucleation is more physical than chemical. Because of this action, itreduces the harmful effect of soluble salts in flotation.
CYQUEST 3223 also has applications in fields other than mining.These are described in a separate publication.*
CYQUEST 3223 Antiprecipitant is readily soluble in water at roomtemperature. It can be prepared in solution form at concentrationsup to 25% by weight, and can be diluted from this strength asnecessary for accurate feeding.
Typical Physical PropertiesTexture: Free flowing powderSolubility: 25% solubility in waterAlkalinity, 1% solution: pH 10.8Viscosity, 1% solution: 1.5 cps.
CYQUEST 3223 is somewhat hygroscopic and will absorb moistureon exposure to a humid atmosphere. It should be stored in tightlyclosed containers.
____________34-0_________•A bulletin entitled "CYQUEST 3223 Antiprecipitant" is availablewhich discusses the many uses of this .product.
ftR30058i
-
YQUESTbp-3 & DP-emineral processing aids
CYQUEST* DP 3 and DP 6 mineral processing aids selection of productsI are synthetic dispersants designed for use as CYQUEST DP 3 and DP 6 were formulated to
grinding aids, slurry viscosity reducers and in complement each other. Their molecular geometryscrubbing to remove sl.mes. They are also effective nas ̂ en designed to satisfy most operatingas dispersants for conditioning phosphonc acid conditions. Both should be evaluated to define
, sludge, and preventing consol.dat.on of slurry wnjch better meets pressing requirements.1 during shipping.
field performance case histories treatment leveli -. .„ _, ... Recommended use - .01 to 1 Ib/ton (5 to 500
Classification Aid g/metric ton) solids.Precious Metal Operation - In a semiautogeneous
j grinding mill, addition of 0.03 Ib/ton of a CYQUEST typical propertiesi mineral processing aid increased overall plant CYQUEST DP 3 CYQUEST DP 6
production by 10% -15%. Mineral Minerali Precious Metal Operation • To eliminate tramp Processing Aid Processing AidI oversize in the cyclones, use of 0.1 Ib/ton of a . "rr~——f~ 7_"——TT
CYQUEST mineral processing aid resulted in a Appearance Straŵ olored Straŵ oloredi 5% • 10% increase in production. . .. . ''SJil? Sh_~Solids 50% 50%I Desliming Aid Specific gravity 134 135
Heavy Sands Operation * In a washing circuit. ' pH, as is 65 to 75 12 to 13• addition of 0.2 Ib/ton of a. CYQUEST mineral Viscosity, as is 150 to 200 cps 5000 to 6000 cpsH j processing aid improved product recovery by 15%. Freezing point -58F(-21°Q Forms a glass^̂ BODs,g02/kg 10 10
Fluidizing Aid COD, g Oa/kg 400 900J Pumping operation - 02 Ib/ton CYQUEST mineral
processing aid added to a 57% slurry produced a handling and storagefluidity equal to a 35% slurry, resulting in decreased CYQUEST DP 3 and DP 6 mineral processing aids
I pumping costs and increased plant throughput. can be stored at temperature ranges of 40° - 90*F< See Figure-1 below showing fluidity test results. (5.. 30«C)> Because of the viscosity of CYQUEST
DP 6 mineral processing aid, we recommend that it' Figure 1 be used at 60°F or higher to facilitate pouring.; Fluidity rest, with CYQUEST Mineral Proc.»ing Aid Freezing these products or heating them to a
1.0 -R temperature of 200°F (95'C), while not recommended,will not harm their performance. After thawing, mix
: thoroughly before use.R«i«tiv. n s. N^ Store CYQUEST DP 3 in plastic-lined or fiber glass
tanks. Feed equipment should be resistant tocorrosion by neutral aqueous solution, e.g., PVC,fiber glass. ;CYQUEST DP 6 can be stored in and fed with castiron equipment.
0 02 0.4 0.6 0.8 1.0CYQUEST mineral proctssing aid. Ib/ton
34-1 •TrademarkAmerican Cyanamid Company MCT-509Industrial Products DivisionMining ChemicalsWayne. New Jersey 07470 flft3005ft_>
-
toxicity IBased on animal toxicity testing, CYQUEST DP 3and DP 6 mineral processing aids are essentially .nontoxic by ingestion, may be slightly irritating to Ithe* skin and moderately irritating to the eye. Theyare not considered corrosive materials.
shipping ICYQUEST DP 3 and DP 6 mineral processing aidsare available in 55 gallon (209 liter) nonretumable 1lined steel drums. . I
technical service iEffective mill management depends on using the Ibest products with the tatest technology in atotally balanced format Cyanamid offers a completesystem of products: collectors, frothers.flocculants,dispersants, depressants and filtering aids. YourCyanamid Sales Representative is prepared with .information and backed with technical service to Iaid you in applying our products. . '
important noticeThe information and statements herein are believed Ito be reliable, but are not to be construed as a *warranty or representation for which we assumelegal responsibility. Users should undertake Isufficient verification and testing to determine the Isuitability for their own particular purpose of anyinformation or products referred to herein. NO •WARRANTY OF FITNESS FOR A PARTICULAR IPURPOSE IS MADE. Nothing herein is to be takenas permission, inducement or recommendation topractice any patented invention without a license.
.________? ___?>^J>yL_3J%f_/___? American Cyanamid Company -̂̂ 1V y +*+*-K-—-r-r-f-r.___r industrial Products Division J\̂ Jr • Mining Chemicals
Wayne. New Jersey 07470
••"**••" AR300583 1
-
APPENDIX C
Approved Work Plans
AR300581*
-
BIOTRQI:
WORK PLAN FOR
ARSENIC AQUEOUS PARTITIONOF SOIL SAMPLES FROK
WHITMOYER LABORATORIES SITE
Prepared For:
EBASCO SERVICES INCORPORATEDARLINGTON, VIRGINIA 22201
Prepared by:
BIOTROL, INC.CHASKA, UN 55318
Prepared b;____ _______folfo ILL v&ambrano, TUT
_ _-. Prgroct ManagerBioTroi; inc.
Approved by:ibn J. Trcpandviki
Site ManagerNUS Corporation
December 12, 1989
BioTrol, Inc. • 11 Peavey Road - Chaska. Minnesota 55318 • 612/448-2515 • FAX 612/448-6050
/IR300585
-
iTABLE 07 CONTENTS I
Page:
List of Tables ............................................. iii
List of Attachments ........................................ iii I
1.0 ARSENIC PARTITION STUDY ............................... 1
1.1 Pretreatment ..................................... 1 |1.1.1 Soil Samples .............................. l1.1.2 Background Groundwater .................... 1 .
1.2 Experimental Design .............................. 1 '1.2.1 Procedure ................................. l1.2.2 Soil Samples .............................. 2 I1.2.3 Sampling .................................. 31.2.4 Analytical Procedures ..................... 3
1.3 Schedule
ii
i
AR300586
-
LIST OF TABLES
Table 1 . Experimental Design ......................... 5
Table 2 . Arsenic Partition Schedule .................. 6
LIST OF ATTACHMENTS
Attachment 1. Method for Determining Total Arsenic in aSolid Phase .............................
Attachment 2. Method for Determining Arsenic (III) in aLiquid Phase ................................ 12
Attachment 3 . Method for Determining Arsenic V in aLiquid Phase ... ............................. 16
Attachment 4. Method for Determining Total Arsenic in aLiquid Phase ................................ 21
Attachment 5. Determination of Arsenate, Arsenite,Monomethylarsonate, and Dimethylarsinatein Soil Polluted with Arsenic ............... 26
AR300587
-
1.0 ARSENIC PARTITION STUDY I
This phasa of the study on contaminated soil samples from the iWhitmoyer Laboratories Site will attempt to establish the degree -̂"|of solubility of arsenic species in background groundwater from the |site at room temperature (25 ± 1'C) .
1.1 Pretreatment I
The materials received from the Whitmoyer Laboratories Siteare the soil samples and the background groundwater sample. The Idifferent soil samples came with varied degrees of moisture, Iranging from 12 to 27%. In order to allow for meaningfulcomparisons, the following normalization will be carried out: i
1.1.1 Soil Samples
a) Each sample will be air dried at room temperature Ito constant weight. I
b) The dried agglomerated soil will be gently brokenup using mortar and pestle and rocks and extraneous ldebris will be removed and discarded. |
c) No additional size reduction is recommended in orderto preserve the natural size distribution of the *soil as intact as possible. I
1.1.2 Background Groundwater
The entire 25 gallons of groundwater will be filtered ^J\using Whatman No. 5 paper filter to remove soil particlesgreater than 3 microns. i
1.2 Experimental Design
There will be five different soil samples to be evaluated for Iarsenic partitioning. Each soil sample will be evaluated according *to the experimental design given in Table 1, which will evaluatethe effects of four (4) water/soil weight ratios and six (6) water Ilixiviation times. 1
1.2.1 Experimental Procedure •The experiments will be conducted using two Lab-Line I
mechanical mixing tables capable of holding 24 erlenmeyerseach. The tables will be operated to impart a rotationalspeed of 180 RPM to each individual 1000-ml flask. 1
A sample of 500 ml background groundwater will betransferred to each 1000-ml erlenmeyer flask. A weight of Isoil corresponding to the desired water/soil ratio will be |weighed to the nearest 0.1 gram, as shown in Table 1, andadded to the flask. The flask will then be sealed with a Ineoprene rubber stopper. Each flask will be identified with Ian unique test number as follows:
50,5- l 1̂
fiR300588
-
Section /Revision /Date /«•-/&--Page ( *o of i
j Ebasco Services, inc.; Whitmoyer Laboratories Site
i j Project Plan
f •
P-WSN-r-t,
where, < . - • ' .P: Defines a partition test.WSN: Whitmoyer site number such as 201, 203, etc.
I r: Defines the water/soil weight ratio.| t: Time in hours.
In addition, each flask will be identified with thej sample number of the soil being tested and the date and time' of start and stop.
I At the end of the allocated partition time the entire! slurry will be filtered using Whatman No. 44 paper. For all
partition tests the following parameters will be measured:
\ Initial pH, final pH, total As, and TOC.
In addition, the test for time « p hour and time - 3361 hours will be analyzed for As+ and As+ .
The measurements for time - 0 hour will be taken afterI a mixing time of 10 minutes in an effort to allow for
breakdown of agglomerates formed during drying.
. 1.2.2 Soil Samples
1 The characteristics of each of the samples to be used inthe arsenic partition study are as follows:
t BioTrol Whitmoyer : . Parameters, ppmSample No. Site No. V AS . TOC Comment
89-28A WL-TS201-66 45 Discrete
89-28C WL-TS203-05r: 158 . Discrete
89-28E WL-TS-205-04 113 Discrete
89-28G WL-TS-207-Q6 4,000 . Discrete89-34A WL-TS-208-99 .'-850 Composite
89-29 < WL-MW105A 3 ppb SiteBackgroundGroundwater
AR300589
-
Ebasco Services, Inc.Whitmoyer Laboratories SiteProject Plan
Section _Revision _Date ifr*nPaoe f -M of
slurry will be filtered through a Whatman number 44 paper andthe filtrate transferred to bottles provided by NortheastTechnical Services, Inc. (NTSI) and identified with the samplelabel as the one appearing on the partition flask, that is:
Sample No.:
Test No.: P-WSN-r-t
Date and Time
In: mm-dd-yr; hh:min.
Out: mm-dd-yr; hh:min.
1.2.3 Sampling I
The only sample to be collected will be at the end of thepartition period, and will consist of the entire slurry. The Islurrv will be filtered throuah a Whatman number 44 naner and I
iiiiI
The bottles containing the filtrates will be shipped to ^/'NTSI accompanied by a chain-of-custody and analytical requestforms. |
1.2.4 Analytical Procedures
The analyses to be conducted for the partition filtrates Iwill be: f
a) pH (initial and final) for all filtrates. Ib) Total arsenic for all filtrates. Ic) TOC for all filtrates.d) Neutralizing titration curve for the initial slurry 1
at water/soil ratio -5. |e) As*3 and As*5 for 336-hour filtrates.f) Total As for duplicate heads of the different soil .
samples. Also, As, As and organic As, if Ipossible.
pH Measurements: Will be done after pH-meter calibra- Ition with buffers of pH 7 and 10. I
Total Arsenic: The oxidation procedure will follow i, - Attachment No. 4 procedure and the I
SR300590
-
Ebasco Services, Inc.Whitmoyer Laboratories SiteProject Plan
Section _Revision _Date ji^iJPage (a) of
'• arsenic determination will be by! GFAA. For solids, digestion will bedone according to procedure inAttachment 1.
As*3 ~ The determination will follow the\ procedure described in Attachment No.2.
As+5 ; The determination will follow the< procedure described in Attachment No.
: 3.
TOC: i This measurement will be according' \ to procedure E 415.1.
AS*3, AS*5 & ' J iOrganic As By method of Attachment 5 for soil
: samples.
Northeast Technical Services, Inc. has been provided withcopies of all the required procedures and a Quality AssuranceSpecification Table. :
1.3 Schedule : >
The time required to perform the experimental designassociated with the arsenic partition study and complete theanalytical determination of pertinent parameters is shown in Table2. ' -- '-•- - •-• •--.--
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... for environmental solutions, naturally!
Work Plan I
TorARSENIC REMOVAL 7ROMTWO SOIL SAMPLES
TROH WHITMBYER LABORATORY SITS
Prepared By:
BioTrol, Inc.chaska, MN
Prepared By:_zanbrano, PH.D., .
/ SflUibr Project Manager\jl BioTrol, Inc
February X4, 1990 ^5
BioTrol Inc. • II Peavey Road • Chaska. Minnesota 55318 • 612/448-2515 • FAX 612/448-6050AR3QQ591*
ij
Approved Byi 'A
-
j TABLE OP CONTENTSi
TABLE OF CONTENTS ..................................... ii
1.0 ARSENIC REMOVAL ....................................... 1
S 1.1 Materials ........................................ 11 1.2 Arsenic Extractants .............................. 1
' 2.0 EXPERIMENTAL DESIGN ................................... 1
2.1 Experimental Procedures .......................... 12.1.1 Case A .... r............................... 12.1.2 Case B .................................... 22.1.3 Case C ........*........................... 22.1.4 Case D .................................... 22.1.5 Case E .................................... 22.1.6 Case F .................................... 22.1.7 Case 6 .................................... 22.1.8 Case H .................................... 22.1.9 Case I .................................... 32.1.10 Case J .................................... 32.1.11 Case K .................................... 32.1.12 Case L .................................... 3
2.2 Sample Identification ............................ 42.3 Leaching Procedures Selection .................... 4
3.0 CHEMICAL ANALYSES AND PROCEDURES ...................... 4
4.0 SCHEDULE .............................................. 5
APPENDIX A ............................................ 6
flR300595
-
WORK PLAN INTJS CORPORATION
WHITMBYER LABORATORY SITB
1.0 ARSENIC REMOVAL
2.0 EXPERIMENTAL DESIGN
I
IThis Phase-I effort will be concentrated on the utilization of
physico-chemical means to remove the leachable fraction of the Iarsenic present in the soil at the Whitmoyer Laboratory site. I
1.1 Materials I
Two different soil samples will be tested in this phase of theoverall study. Sample No. WL-TS-207-06 containing 4,000 mg/Kg .arsenic represents the worst case, while sample No. WL-TS-208-99 Icontaining 850 mg/Kg arsenic represents a composite average of the *site.
All arsenic-removal tests will be conducted using the Ibackground groundwater sample No. WL-MW-105-A, which analyses 3 ppbarsenic, as the suspending medium. I
1.2 Arsenic Extractanta
The reagents to be used for the extraction of arsenic will be IHC1, HNO,, H2SO4, Na2SO,, NajS-O,, NaOH, Na2CO,, Xanthate Z-5, cyquest \̂ SDP-3 & DP-6, NaHS, sodium EtfTA, Ethanol ana other minor additives.The experiments to be conducted will consider single and combined Ireagents for the arsenic removal approaches implemented in this Iscreening phase.
\
The scheme for arsenic removal will consist of twelve >4T-hour .single stage leaching tests performed using the composite soil >j _> Isample. All tests will be conducted at room temperature using J5&~ 'grams of air-dried soil slurried to a 35% pulp density. Anydeparture from the 24-hour testing will be detailed in the 1experimental procedure section. J
2 . 1 Experimental Procedures •
2.1.1 CASE A: HC1 Leach.
This extraction approach will consist of leaching in a I35% slurry maintained at pH-1.0 with HC1. A leaching time of I24 hours under constant agitation by a magnetic stirrer willdefine the treatment. 1
SR300596
-
After filtration, solid and liquid.phases will besubmitted for determination of pertinent parameters.2.1.2 CASE B: H-S04 Leach.
A slurry at 35% solid will be leached for 24 hoursmaintaining pH - 1.0 throughout the test. Both solids andsolution will be analyzed for pertinent parameters.
2.1.3 CASE C: HN03 Leach.
This leaching approach will evaluate the performance ofHN03 under the same conditions as Case A. Because of theoxidizing nature of nitric acid, arsenic fixation may takeplace depending upon the available level of ferric iron in thesystem.
2.1.4 CASE D: NaOH Leach.This leaching approach will investigate the lixiviating
power of NaOH at pH - 11. This lixiviant is more selectivethan the acids but may require a temperature optimizationscheme if it shows promise at room temperature.
2.1.5 CASE E: Na2C03 Leach.
This approach is a comparison with Case D for the removalof trivalent arsenic. Leaching conditions will be identical atpH - 11, pulp density at 35% solids and 24 hours leachingtime.
2.1.6 CASE F: KC1 + Na2S03 Leach.
The attempt with this approach is to promote thesolubilization of trivalent arsenic by reducing with thesulfite ions at pH » 1 and at a level of 20#/ston of solids.
2.1.7 CASE G: HC1 + Na2S2O3 Leach.
This is a comparison with Case F for the reducing powerof two different sulfur compounds under identical acidicconditions. A critical difference however is the complexingeffect of the thiosulfate which has the tendency to promotehigher solubilizations. A level of 20f/ston of solids will betested.
2.1.8 CASE H: HC1 + Cyquest DP-3 Leach.
Case K is a comparison to Case A for acid leaching at pHequal 1 but trying to prevent any arsenic fixation by theaddition of DP-3 at ll/ston of solids.
AR300597
-
NUS Corporation Work Plan Iwhitmeyer Laboratory Site
2.1.9 CASE I: Sodium EDTA Leach. "'• 7 ' " ""^ ''* ̂ - / .* |(,'
This approach will attempt to establish the chelating ipower of sodium EDTA for arsenic compounds at pH » 5. A level Iof 200 |/ston of this chelating agent will ba investigated.
wM J "'/v72.1.10 CASE J: NaOH + Ethanol Leach. -! V x*-*>lv c" |l
The purpose of this leaching approach is to attempt to.dissolve trivalent inorganic arsenic as wall as carbon and Ihydrogen rich organic compounds containing arsenic in their |molecular structure. This test will be conducted at pH - 11to compare it to Case D. The level of Ethanol will be 200 .|/ston. I
J 2.1.11 CASE K: Na2C03 + Cyquest DP-6 leach.
This is a comparison with Case E for carbonate leaching Iat pH • 11, but trying to prevent arsenic fixation by theaddition of DP-6 at l#/ston of solids. i
2.1.12 CASE L: HC1 Leach + Flotation.
This is a combination approach attempting to maximize Iarsenic removal. The leaching part of this test will be \*-̂ 'conducted at pH - 1 for 3 hours only. After filtration, thefilter cake will be re-slurried to 35% solids with a HC1 Isolution of pH - 6 and conditioned for 5 minutes with the |following levels of reagents per ton of solids:
. - ; ?% Ia) NaHS at 0,5 #, • • -_ .-., -, ; c., Ib) CuS04 at 0.5 f, "••'- - - > ic) Pine oil at o.l I, and . -T _____ . :.,_d) Xanthate Z-5 at 0.2 f. " ' ' ' - ' , ' I
The slurry will be agitated at 1800 RPM and floated for10 minutes under an air flow of 6 1pm, or less if excessive 1entrainment is observed. The filtrates from the cell froth and |cell underflow will be combined as flotation filtrate.
AR300598
-
NUS Corporation . Work Plan IWhitmeyer Laboratory Site .
2.2 Sample Identification ;
Each test will generate two samples: the leach filtrateand the leached solids. The leached solids are obtained afterthree washing stages at pH - 5 or pH » 7 for acid and basicleaching tests respectively. These test products will beidentified by a general test number of the form:
R-pH-St-State,
whereR - Reagent(s) namepH - pK value at which the test was controlledS# - Sample number of soil sample from Whitmoyer siteState - A letter for Leachate(L), Solid(S), or Filtrate(F).
The only test generating three samples will be Case L, whichcombines two processing steps: leaching and flotation.
The final Leachates or Filtrates submitted for analysiswill be the composites of original aqueous products plus washwater.
2.3 Leaching Procedures Selection
From the results of the twelve screening test, the best fourleaching approaches will be chosen to conduct four leaching testsusing the Whitmoyer soil sample No. WL-TS-207-06 which representsthe worst case. After completion of these four leaching tests, thetwo best approaches will be implemented in the Phase II of thisstudy.
3.0 CHEMICAL ANALYSES AND PROCEDURES
The filtrates from the twelve leaching tests performed oncomposite sample No. WL-TS-208-99 as well as the four filtratesfrom the worst soil sample No. WL-TS-207-06 will be analyzed fortotal arsenic, TOC, and TS.
The leached solids obtained according to the best fourleaching approaches applied to these two soil samples will beanalyzed for the following parameters:
- Total arsenic level,- TCLP Leachate Procedure: Total arsenic,- ASTM Leachate Procedure: Total arsenic, TOC, TDS, and pK*These same parameters will also be determined by themodified ASTM procedure using upgradient groundwater as thelixiviant.
RR300599
-
NUS corporation. Work Plan IWhitmeyer Laboratory Site
The analysis of total arsenic in solid and liquid sampleswill be done by AA after oxidative digestion of the sample by themethods of Attachments 1*4.
4*0 SCHEDULB
This Phase- 1 effort will be completed and reported infour weeks from the date of WP-I approval.
iiiiJi
iiii
AR300600
-
! BlOTROC"
Prepared By:
Approved By:
Work Plan II
ForARSENIC REMOVAL FROMTWO SOIL SAMPLES
FROM WHITMOYER LABORATORY 6ITE
Prepared BysBIOTROL, INC.Chasfca, KN
Adolfo R. Zambrano, Ph.D.Senior Project Manager
BioTrol, Inc.
John J. TrepanovskiSite Manager
NUS Corporation
April 1990
• BioTrol, inc. • II Peavey Road • Chaska, Minnesota 55318 • 612/448-2515 • FAX 612/448-6050AR30060I
-
WORK PLAN IIARSENIC REMOVAL FROMTWO SOIL SAMPLES
WHITMOYER LABORATORY SITB
1.0 ARSENIC REMOVAL OPTIMIZATION I
Based on the sixteen leaching cases completed in Phase I ofthis study, the best two approaches will ba implemented to simulate Ia four-stage leaching extraction train for arsenic removal from the |two soil samples tested during the exploratory Phase I.
1.1 Materials I
The two different soils to be tested during this Phase-IIeffort will be the average composite and the worst case samples. 1The worst case sample is identified as Sample No. WL-TS-207-06 iwhich has an average arsenic content of 4,000 ppm, while theaverage composite corresponds to Sample No. WL-TS-208-99 having an iarsenic content of 850 ppm. j
The implementation of the arsenic removal schemes will be .carried out using the background groundwater sample identified as Isample No. WL-MW-105-A which analyses 3 ppb arsenic. ~^S '
1.2 Arsenic Extractanta I
The best two leaching schemes in Phase I were Case M and Case0 , which correspond to the following approaches: i
Case M: Na2CO3 + Na_S203Three hundred grams of soil are leached with sodium .
carbonate at pH - 11 for 4 hours in the presence of sodium Ithiosulfate at a level of 20 Ib/ston of solids. The leaching 'is performed at room temperature while necessary pHadjustments are made with a NaOH solution of known strength. 1
Case 0: Na,CO3 + DP-6.This test is conducted like Case M, except that DP-6 is .
used instead of the thiosulfate at a level of 1 Ib/ston of solids. I
At the end of the leaching period, the slurry is filtered andthe filter cake is washed three times with groundwater adjusted to IpH - 7.5 with NaOH. J
1 X
flR30Q602
-
KUS corporation Work Plan IIWhitmoyer Laboratory Site
>̂2.0 EXPERIMENTAL DESIGN
Because the lixiviants in these two leaching approaches aremore than 50 times the amount of contained arsenic in the leachfeed, the concentration of the reagents is in excess of thestoichiometric requirements. Therefore, reaction time is one ofthe pertinent operating parameters that can be investigated tooptimize arsenic removal. v
A four-stage simulation could provide .pertinent kinetics forproper sizing of the site remediation plant. This simulation canbe implemented through crosscurrent leaching of coil samples for aholding time of four hours per stage. The required four tests willbe conducted according to the leaching scheme shown in Figure 1.
Each test will be conducted at room temperature using 300grams of dried" soil slurried to 35% solids with backgroundgroundwater, except for test No. 4 which will be conducted usingeither 1,200 grams of soil, or 600 grams in triplicate tests inorder to prepare the samples for Ebasco. Mechanical stirrers willbe used at the necessary speed to maintain the solids insuspension. ,:; • < •
i ; 2.1 Experimental Procedures
The leaching approaches will be as described in section 1.2and according to the crosscurrent scheme of Figure 1.
The slurries from every leaching stage will be flocculatedusing Allied Colloids' Percol E10 at a dosage of 0.5 Ib/ston ofsolids prior to filtration. This dosage will vary depending onslurry's degree of dispersion.
2.2 Sample Identification
Each test will generate the leached solids residue and theleach filtrate composite. The leach composite will be the combinedvolume of the slurry filtrate plus the washwater volume to wash thefilter cake three times by displacement. This volume will be equalto the original volume required to make the original slurry. ThepH of the washwater will be 5 for an acid leach and 7 for a basicleach. The identification of the test products will be accordingto a test number of the form:
AR300603
-
NUS corporation Work Plan IXWhitmoyar Laboratory Site
SN-R-pH-W#-PS-SS,
whereSNRpHW|PSss
Simulation numberReagent(s) nameControlled pH valueWhitmoyer sample numberPhysical state: (L) or (S)Simulation stage: 1, 2, 3 or 4.
3.0 CHEMICAL ANALYSES AND PROCEDURES
The sixteen̂ composite filtrates from the sixteen tests will be Ianalyzed for: [As, As*5, As*3, TOC, and TS. '
The washed solids from the 16-hour leaching test will be Ianalyzed for: J
> Asf As*5, A3*5. i> TCLP: As. I> ASTM Leachate Procedure: As, TOC, TDS and pH.> Modified ASTM Leachate Procedure: Same as ASTM L.P.
The slurries from the four 16-hour leaching tests will be ^J*tested, after dilution to about 15% solids, for:
> Settleabla solids at 30 minutes. |> Buchner funnel test.
The analytical procedures for the different arsenic species Iwill be as described in the Work Plan for the Phase I of thisstudy.
4.0 SCHEDULE J
The experimental effort for the Phase II portion of this study lwill follow the revised schedule of 3/9/90 and confirmed in our |letter of 4/5/90.
AR30060I4
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\ JFigure 1 - Crosscurrent Evaluation Scheme for Multi-stage Leaching
fiR3Q0605
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IIIIIILlllilllHi AR300606
-
APPENDIX D
COST ESTIMATES
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I ^ -t Remedial MonitoringI Mil)
i ̂ ^| Annual Costs
ITEM
1* Site Review
TOTAL ANNUAL
ITEM $COST FOR5 YEARS
20000.00
COST * 20000.00
NOTES
Site Review performed foryears 5,10,15,20,25,30
Site Review performed foryears 5,10,15,20,25,30
) ****************************************
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