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FIELD SAMPLING PLANfor
Valmont TCE SiteHazle Twp. and West Hazleton, Luzerne County, Pennsylvania
Prepared for:
U.S. Environmental Protection Agency, Region 3Hazardous Site Cleanup Division
1650 Arch StreetPhiladelphia, Pennsylvania 19103
Prepared by:
Tetra Tech EM Inc.107 Chelsea Parkway
Boothwyn, Pennsylvania 19061
EPA Contract No. 68-S3-00-02
Technical Directive Document No. 03-0011-005
November 30, 2000
Prepared by:
Anthony VandevenSite Lead
Approved by:
Donna DaviesHRS/Site Assessment Manager
Table of Contents
Section Page
1.0 BACKGROUND ........................................................................................................................... 11.1 INTRODUCTION ............................................................................................................ 11.2 LOCATION ..................................................................................................................... 11.3 SITE DESCRIPTION ....................................................................................................... 11.4 BACKGROUND.............................................................................................................. 1
2.0 PROJECT DESCRIPTION ............................................................................................................ 32.1 OBJECTIVE AND DATA USE ....................................................................................... 32.2 SCOPE OF WORK .......................................................................................................... 5
3.0 SAMPLING PROCEDURE .......................................................................................................... 53.1 RESIDENTIAL WELLS .................................................................................................. 53.2 MONITORING WELLS .................................................................................................. 53.3 SOIL SAMPLING ............................................................................................................ 63.4 SAMPLE AND EQUIPMENT DECONTAMINATION ................................................... 6
4.0 ANALYTICAL PARAMETERS ................................................................................................... 6
5.0 QUALITY ASSURANCE AND QUALITY CONTROL ............................................................... 65.1 RESPONSIBILITY .......................................................................................................... 65.2 FIELD QC ....................................................................................................................... 75.3 LABORATORY QC ........................................................................................................ 75.4 DATA VALIDATION ...................................................................................................... 7
6.0 DELIVERABLES ......................................................................................................................... 7
7.0 REFERENCES...............................................................................................^ 7
FIGURESFigure Pgge
1 SITE LOCATION MAP ................................................................................................................ 2
2 SAMPLING LOCATION MAP .................................................................................................... 5
1.0 BACKGROUND
1.1 INTRODUCTION
The U.S. Environmental Protection Agency (EPA) Region 3 tasked Tetra Tech EM Inc. (Tetra Tech),under the Eastern Area Superfund Technical Assessment and Response Team (START) contract No. 68-S3-00-02, to conduct residential well, monitoring well, and soil sampling under Technical DirectiveDocument (TDD) No. 03-0011-005 at the Valmont Trichloroethylene (TCE) Site in Hazle Twp. and WestHazleton, Pennsylvania. This Field Sampling Plan discusses the objectives for groundwater and soilsampling to be completed at this site.
1.2 LOCATION
The Valmont TCE site in Hazle Township and West Hazleton, Luzerne County, Pennsylvania, consists ofChromatex Plant #2, an upholstery manufacturing plant at 423 Jaycee Drive, and known contaminatedgroundwater in the nearby residential neighborhood on Deer Run, Bent Pine, and Twin Oaks Roads (SeeFigure 1).
1.3 SITE DESCRIPTION
Chromatex Plant #2 (Chromatex) is located at the edge of a large industrial park, and the residentialneighborhood is located about 100 feet northeast of its property boundary. The Valmont Shopping Centeris about 200 feet east of its property boundary. The Chromatex building has paved areas along thenortheast and southwest sides of the building. A wooded area is located along the southeast side of theproperty. The Allsteel, Inc. building is located about 100 feet south of the property boundary. TheContinental White Cap Inc. building is located directly west and across the street from the property.
1.4 BACKGROUND
While investigating a September 1987 xylene spill at its facility, Continental White Cap reported to thePennsylvania Department of Environmental Resources (PADER) that 48 parts per billion (ppb) of TCEhad been detected in a water sample collected from the housing development along Deer Run Road.PADER subsequently sampled four residential wells on October 19 and 20, 1987. Elevatedconcentrations of TCE, l,l,l-trichloroethane(l,l,l-TCA), 1,1-dichloroethylene (1,1-DCE), andcis-1,2-DCE were detected in these samples. At PADER's request, EPA Region 3 initiated an investigation onOctober 22, 1987 and activated funding to provide bottled water and carbon filters to residences affectedby the TCE contamination. Further sampling by PADER indicated the presence of TCE in 23 residentialwells on Deer Run, Bent Pine, and Twin Oaks Roads, at concentrations ranging from 1 ppb to 1,400 ppb,and in the Chromatex facility well at a concentration of 2,200 ppb (Tetra Tech, 2000).
;, TDD No. 03-0041-0005j,
Contract No. 68-S3-00-02
Sources:PA DER, December 1987INTEX, November 1988 and January 1989Versar, June 1988HNUS, January 1995____________
Figure 2Site MapValmont TCE SiteHazle Township and West Hazieton,Luzeme County, PA
Wooded Area
Soil Samples 0220227through 0220238(DER, 1987)
ValmontShoppingCenter
CQ470(EPA,1988)
0JCQ472(EPA.19681
S-7(EPA. 1993) BACKGROUND
Wooded Area
Underground Emergency Overflow TankUnderground Fuel TanksFacUityWeUMonitoring WellsStorm DrainsSoil Samples
__ Wooded Areas[~~] Parking Lots
ResidencesResidential Wells
|_ I Buildings
During the initial investigation to determine the source of the contamination, EPA learned thatChromatex used TCE in its fabric processing. Chromatex used TCE at Plant #2 as the carrier in itsmanufacturing processes from 1978 until 1988. An investigation by PADER revealed that Chromatexhad purchased 267,437 pounds of TCE from November 1986 until December 1987 and thatapproximately 54 tons were unaccounted for after accounting for reclaimed TCE, discharge to sewer,fabric retention, emission control equipment, and steam regeneration process (Tetra Tech, 2000).
EPA collected soil gas samples from depths of 3 to 5 feet around the Chromatex plant in October 1987.TCE was detected at concentrations ranging from 0.1 to 12.5 parts per million (ppm), with the highestconcentrations along the rear of the plant. In March 1988, EPA issued Chromatex an AdministrativeConsent Order to perform an extent of groundwater contamination study at Chromatex Plant #2. Thecontractor for Chromatex installed and sampled monitoring wells at the site in April 1988. TCE wasdetected in several monitoring wells, with the maximum concentration of 17, 000 ppb detected inmonitoring well MW-11, located at the rear of the Chromatex plant. Monitoring well MW-11 was pavedover in approximately 1994 and therefore is no longer accessible to sample (Tetra Tech, 2000).
EPA completed an Expanded Site Inspection (ESI) of the Valmont site in January 1995. Surface soilsamples collected onsite as part of the ESI revealed concentrations of TCE, 1,1,1-trichloroethane, 1,1-DCA, and cis-l,2-DCE above background (Terra Tech, 2000).
The site and surrounding area are underlain by the Pottsville Formation, a Pennsylvanian-ageconglomerate and sandstone with thin beds of slate, shale, and coal. The Pottsville Formation directlyoverlies the Mauch Chunk Formation shale, which also crops out within the site's 4-mile radius. Mostwells within 4 miles of the site tap either the Pottsville or Mauch Chunk Formation. There is transitionalcharacter in most places of the Mauch Chunk shale into the overlying conglomerate. In the Hazletonregion, many wells penetrate the Pottsville and extend down into the underlying Mauch Chunk shale.Based on these considerations, the two aquifers are considered hydraulically interconnected. Thepopulation served by groundwater wells tapping these aquifers within 4 miles of the site is 26,328 (TetraTech, 2000).
2.0 PROJECT DESCRIPTION
2.1 OBJECTIVE AND DATA USE
The objective of the groundwater sampling is to obtain updated information of the concentrations ofcontaminants in groundwater surrounding the site.
The objective of the soil sampling is to determine if hazardous substances remain in soils in two areas:around the former location of MW-11 at the rear of the plant, and around the former locaton of theunderground emergency overflow tank at the front of the plant..
2.2 SCOPE OF WORK
A maximum of 20 groundwater samples may be collected during this sampling event. Residents in theneghborhood to the north and northeast of the site currently receive public water for their potable supply.Previously, some of these homes had residential wells for their potable supply, and some of these wellsare still maintained for non-potable use. Prior to initiating field activities, Tetra Tech will contact nearbyresidents to determine if access to any residential wells is currently available. If any residentialgroundwater samples can be collected, Tetra Tech will contact the residents to arrange a sampling time.The remainder of the groundwater samples will be collected from the existing 9 monitoring wells. Theintegrity of the monitoring wells is not known; therefore, it may not be possible to collect groundwatersamples from all existing monitoring wells. The 20 samples will include at least one duplicate and onefield blank for field QA/QC purposes. One trip blank per cooler of volatile organic analysis (VOA)samples will also be collected for field QA/QC purposes.
Up to 10 soil samples may be collected during this sampling event. The soil samples will be collectedaround the unpaved areas near MW-11 and the location of the former emergency overflow tank (Refer toFigure 2). Sample depth will be determined in the field. One duplicate sample will be required and onefield blank will be collected if non-dedicated equipment such as stainless steel equipment is used. Onebackground sample will be collected outside the area of influence of the site.
3.0 SAMPLING PROCEDURE
3.1 RESIDENTIAL WELLS
Terra Tech will purge residential wells for 15 minutes prior to sample collection. Three 40-ml VOA vialswill be collected with no head space or air bubbles in any container. All vials will be preserved withhydrochloric acid (HC1) and placed on ice to a temperature of 4° Celsius (°C). Terra Tech and EPAstandard operating procedures (SOPs) will be followed. Samples will be collected from unfiltered,untreated water. To protect the privacy of the residents, sample designations will refer to the residentialwell numbers noted in Figure 2. Only one sample per home will be collected. For example, residentnumber no. 5 sample will be called R5 (Refer to Figure 2 for residential locations).
3.2 MONITORING WELLS
Tetra Tech will purge selected monitoring wells according to Tetra Tech SOP No. 015 GroundwaterSample Collection Using Micropurge Technology. Three 40-ml VOA vials will be collected with noheadspace or air bubbles in any container. AH vials will be preserved with HC1 and placed on ice to atemperature of 4°C. Samples will be identified by the well name. For example, a sample from MW-IOBwill be called MW-IOB (Refer to Figure 2 for monitoring well locations).
3.3 SOIL SAMPLING
Tetra Tech will collect up to 10 soil samples from two locations around the Chromatex building. The firstlocation will be near the former location of MW-11 at the rear of the building. The second location is infront of the building where the former underground emergency overflow tank was located (See Site MapFigure 2).
Source: Modified from USGS 7.5-Minute Topographic Quadrangle 0 5Conyngham, PA, 1955, photorevised 1989 ••
0.5 Miles
Site Location =
VALMONT INDUSTRIAL PARK SITEWEST HAZLETOR LUZERNE COUNTY. PA
Contract No. 68-S3-00-02 TDD No 03-00-07-0026 Tetra Tech EM Inc.
Sample depth will be determined in the field. Soil will be analyzed for Target Compound List (TCL)VOA analysis only. One background sample will be collected from the area outside the influence of thesite. Samples will be identified as subsurface soil samples. Sample depth will be identified in 6 inchincrements. For example, the first soil boring location with a sample from 6 to 12 inches will be calledSB-1(6-12) (Refer to Figure 2 for the location of MW-11 and the surrounding area).
3.4 SAMPLE AND EQUIPMENT DECONTAMINATION
Personal protective equipment (PPE) and sampling equipment scheduled to be used at this site will bedisposable, and will be double-bagged and disposed of as dry industrial waste. Any non-disposablesampling equipment used, such as water quality meter or sampling pumps, will be decontaminatedbetween sampling locations using a solution of non-phosphate detergent and water. All decontaminationactivities will be conducted in accordance with Tetra Tech SOP No. 020, General EquipmentDecontamination. Tetra Tech will consult with the EPA work assignment manager (WAM) and the statesite manager to determine the proper disposal method for the purge water and decontamination fluids.
4.0 ANALYTICAL PARAMETERS
All water and soil samples collected will be analyzed for VOC by the EPA Contract Laboratory ProgramStatement of Work (CLP SOW OLM04.2). Monitoring wells and residential wells will not use theOrganic Low Concentration Method (OLC03.1), because none of the wells that will be sampled aredrinking water wells.
5.0 QUALITY ASSURANCE AND QUALITY CONTROL
5.1 RESPONSIBILITY
The Tetra Tech Site Lead, Anthony Vandeven, will be responsible for ensuring that sample quality andintegrity are maintained in accordance with the Quality Assurance and Quality Control Guidance forRemoval Activities (EPA/540/G-90/004), April 1990, and that the sample labeling and documentation areperformed in accordance with approved SOPs. Regulations for packaging, marking, labeling, andshipping of hazardous materials and wastes are promulgated by the U.S. Department of Transportation(DOT). Air carriers that transport hazardous materials, in particular, Federal Express, require compliancewith the current International Air Transport Association (IATA) Regulations, which apply to theshipment and transport of hazardous materials by air carrier. Tetra Tech will follow IATA regulations toensure compliance.
5.2 FIELD QC
Field QC will consist of collecting and analyzing one field blank per 20 samples per matrics, one tripblank per VOA shipment, and one duplicate per 20 samples, as well as completing chain-of-custodydocumentation and sample documentation in accordance with Tetra Tech SOP 018, Sample Custody, andTetra Tech SOP 024, Recording Notes in Field Log Books. Field blanks will be collected to test forcontamination that could possibly be introduced by sample containers and preservatives. Trip blanks willbe collected to test for contaminants that could possibly be introduced by sample transport. Fieldduplicates sample will test the reproducibility of sampling procedures and results.
5.3 LABORATORY QC
Laboratory QC will comply with all EPA requirements for laboratory QC. CLP analysis will consist ofall QC stated in the CLP SOW and includes all forms and deliverables required in the SOW
5.4 DATA VALIDATION
Data validation will be performed by EPA Region III Central Regional Laboratory's Quality AssuranceStaff in accordance with EPA Region III Modifications to the EPA CLP National Functional Guidelinesfor Data Review for all samples (EPA 1993).
6.0 DELIVERABLES
Information gathered from this sampling event will be compiled into a sampling trip report, which willinclude field notes, sampling information and analytical results. A full Expanded Site Inspection (ESI) isnot requested under this TDD.
7.0 REFERENCES
Tetra Tech EM Inc. (Terra Tech). Draft Final HRS Documentation Record, Valmont TCE. November2000.
Tetra Tech Field Standard Operating Procedures. November 1999.
U.S. EPA Region III Central Regional Laboratories. Modifications to the Contract Laboratory ProgramNational Functional Guidelines for Organic and Inorganic Data Review. November 1993.
Appendix £
Laboratory Analytical Results
UNITED STATES ENVIRONMENTAL PROTECTION AGENCYENVIRONMENTAL SCIENCE CENTER
701 MAPES ROADFORT MEADE, MD 20755-5350
DATE;
SUBJECT:
FROM :
TO:
January 30, 2001
Region III Data Q A Review/' ':
Fredrick Foren/an ^\ /Region III ESATWO (3ES20)
Kevin WoodRegional Program Manager (3HS34)
Attached is the organic data validation report for the Valmont Industrial Park/PCE Site Case#:28846, SDG#:C VOO1, CV007) completed by the Region III Environmental Services Assistance Team(ESAT) contractor under the direction of Region III ESD.
The format of this validation report has changed. It will no longer include copies of the CLP forms.This change was driven in part by a need to reduce the amount of paper utilized. I will continue toretain copies of the CLP forms and they will be available upon request.
If you have any questions regarding this review, please call me at(410)305-2629.
Attachment
cc: Marian Murphy (TETRA TECH EMI)
WA File: 0300402 TDF# 0134
OFFICE OF ANALYTICAL SERVICES AND QUALITY ASSURANCE
Internet Address (URL) • http://www.epa.govRecycled/Recyclable • Printed with Vegetable Oil Based Inks on Recycled Paper (Minimum 30% Postconsumer)
Lockheed Martin Environmental ServicesUS ERA Environmental Science Center701 Mapes Road Fi.Meade.MD 20755-5350Telephone 410-305-3037 Facsimile 410-305-3597
LOCKHgg D MARTIN
DATE: January 25, 2001
SUBJECT; Level M2 Organic Data Validation for Case 28846SDGs:CV001andCV007Site: Valmont Industrial Park/PCE
FROM:
TO:
OVERVIEW
Michael RoxburySenior Data Reviewer
Fredrick ForemanESAT Regional Project Officer
Mahboobeh Mecanic Senior Oversight Chemist
Case 28846, Sample Delivery Groups (SDGs) CV001 and CV007, consisted of eight (8) aqueous andthree (3) soil samples submitted to Liberty Analytical (LffiRTY) for volatile analyses. Sample setincluded one (1) trip blank, two (2) rinsate blanks and two (2) field duplicate pan's. Samples wereanalyzed according to Contract Laboratory Program (CLP) Statement of Work (SOW) OLM04.2through Routine Analysis Services (RAS) program.
SUMMARY
Data were validated according to Innovative Approaches for Validation of Organic Data, Level M2.This level of review includes assessment of all Quality Assurance/Quality Control (QA/QC) data andreview of chromatograms, but excludes review of raw data and sample spectra. All samples weresuccessfully analyzed for all target compounds.
MINOR PROBLEMS
• Several volatile target compounds failed precision criteria [Percent Relative Standard Deviation(%RSD) and/or Percent Difference (%D)] in initial or continuing calibrations. Positive resultsassociated with these compounds were qualified "J" unless superseded by "B". Quantitationlimits for dichlorofluoromethane which had a continuing calibration percent difference greaterthan fifty percent (% D>50%) were qualified "UJ" in affected samples.
Six aqueous samples, CV001, CV002, CV003, CV004, CV005 and CV006, arrived atlaboratory in a cooler having an internal temperature of 8.0°C which exceeded the SOWcriteria of 4°C ± 2°C. Positive results in these samples were qualified "L" (to reflect apossible low bias) unless superseded by either "J" or "B71. Quantitation limits were qualified"UL" unless superseded by "UJ".
Page 2 of 3
NOTES
• The maximum concentrations of all target compounds found in the analyses of trip, field,storage and method blanks are listed below. Samples with concentrations of commonlaboratory contaminants less than ten times (< 10X) highest blank concentration or withconcentrations of other contaminants less than five times (< 5X) blank concentration have beenqualified "B".
Compound Concentrationchloromethane 3 J ug/Lacetone* 23 J ug/Lmethyl tert-butyl ether 1 J ug/L2-butanone* 5 J ug/Kgchloroform 1 J ug/Lbenzene 1 J ug/L4-methyl-2-pentanone 1 J ug/Ltoluene 2 J ug/L2-hexanone 3 J ug/L1,2-dibromo-3-chloropropane 1 J ug/L1,2,4-trichlorobenzene 2 J ug/L
* common laboratory contaminant
• An instrument blank was analyzed following sample CV001 due to the high concentration oftrichloroethene reported. 4-Methyl-2-pentanone was reported in this instrument blank but thiscompound was not detected in sample CV001. 4-Methyl-2-pentanone was also reported in oneof the method blanks associated with this Case and was considered a blank contaminant duringdata review.
• Samples CV001 and CV005 were reanalyzed at four fold (4X) dilutions to quantitate targetcompound trichloroethene.
• Non-spiked compounds, other than blank contaminants, were detected hi sample, matrix spike(MS), and matrix spike duplicate (MSD) analyses of sample CV001. No positive results otherthan spike compounds or blank contaminants were reported for sample, MS and MSD analysesof sample CV007. Results and precision estimates are tabled below. Units are ug/L.
CVQ01 CV001MS CV001MSDcis-l,2-dichloroethene 5 J 5 J 5 J1,1,1-trichloroethane 14 L 10 J 10 J
%RSD = Percent Relative Standard Deviation
• Tentatively Identified Compounds (TICs) Form Is in Appendix C were reviewed during datavalidation. No TICs were identified in any sample associated with this Case.
Appendix A
Glossary of Data Qualifiers
Page 3 of 3
• Compounds detected below Contract Required Quantitation Limits (CRQLs) were qualified "J"unless superseded by "B" on DSFs.
• MS and MSD analyses of sample CVOOI were performed at four fold dilutions rather thanundiluted. Laboratory identified the error after holding time had expired. Results from dilutedanalyses were reported. No data were qualified based on this deviation from the SOW.
All data for Case 28846, SDGs CVOOI and CV007, were reviewed in accordance with InnovativeApproaches for Validation of Organic Data, Region III, June 1995.
ATTACHMENTS
1)2)3)4)5)
Appendix AAppendix BAppendix CAppendix DAppendix E
Glossary of Data Qualifier TermsData Summary FormsTentatively Identified CompoundsChain of Custody RecordsLaboratory Case Narrative
DCN: 28846rpt
GLOSSARY OF DATA QUALIFIER CODES (ORGANIC)
CODES RELATED TO IDENTIFICATION(confidence concerning presence or absence of compounds)
U = Not detected. The associated number indicates approximate sampleconcentration necessary to be detected.
NO CODE = Confirmed identification.
B = Not detected substantially above the level reported in laboratory or fieldblanks.
R = Unusable result. Analyte may or may not be present in the sample.Supporting data necessary to confirm result.
N = Tentative identification. Consider present. Special methods may beneeded to confirm its presence or absence in future sampling efforts.
CODES RELATED TO OUANTITATION(can be used for both positive results and samplequantitation limits):
J = Analyte present. Reported value may not be accurate or precise.
K = Analyte present. Reported value may be biased high. Actual value isexpected to be lower.
L = Analyte present. Reported value may be biased low. Actual value isexpected to be higher.
UJ = Not detected, quantitation limit may be inaccurate or imprecise.
UL = Not detected, quantitation l imit is probably higher.
OTHER CODES
NJ = Qualitative identification questionable due to poor resolution.Presumptively present at approximate quant i ty .
Q = No analytical result.
Appendix B
Data Summary Forms
DATA SUMMARY FORM: VOLATILES Page_l_of _6_
Case #: 28846Site:Lab.:
SDG: CV001VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 0Number of Water Samples : 8
Sample Number :Sampling Location :FieW QC:Matrix :Units :Date Sampled :Time Sampled :%Moisture :PH:Dilution Factor :Volatile CompoundDichlorodifluoromethaneChloromethane
•Vinyl ChtorideBromomethaneChloroethaneTrichlorofluoromethane
*1,1-Dlchloroethene1 , 1 ,2-Trichlon>1 ,2,2-trifluoroethaneAcetoneCarbon DisulfkteMethyl Acetate
•Methylene Chloridetrans-1 ,2-D)chlOfoetheneMethyl tert-Buty) Ether1,1-Dichloroethaneds-1 ,2-Dichtoroethene
*2-8utanoneChloroform
'1,1,1-TrichloroethaneCyclohexane
'Carbon Tetrachtoridebenzenei ,2-DichloroethaneTrichloroetheneMethylcyclohexane
*1 ,2-DichloropropaneBromodichlorornetrianecis-1 ,3-Dichloropropene4-Methyl-2-pentanone
'Toluenetrans-1,3-Dichtoropropene1 , 1 ,2-Trichloroethane
'Tetrachloroethene
CRQL10101010101010101010101010101010101010
1010101010
101010101010101010
CV001R5
Waterug/L12/19/0011:00
N/A<21.0/4.0
Result
2 -
5
14
1
200 +
FiaflUJULULULULULULULBULULULULULULJULULLULULBULLULULULULULULULULUL
CV002R6Dupt. (CV003)Waterug/L12/19/0015:25
N/A<21.0
Result
2
13
1
100
FlaflUJULULULULULULULULULULULULULULJULULLULULBULL
ULULULULULULULULUL
CV003R99Dupl. (CV002)Waterug/L12/19/0016:00
N/A<21,0
Result
5
2
13
1
100
FlagUJULULULULULULULULJULULULULULJULULLULULBULLULULULULULULULULUL
CVQ04
R15
Waterug/L12/19/0016:30
N/A<21.0
Result
4
2
13 '
1
140
FlagUJULULULULULULULBULULULULULULJULULLULULBULLULULULULULULULULUL
CV005R14
Waterug/L12/19/0017:00
N/A<2
1.0/4.0Result
10,
123
1
227
26
1
370 +
FlagUJULLULULULJJBULULJULULJLULULLULULBULLULULULULULULULULUL
CRQL = Contract Required Quantitation Limit 'Action Level ExistsTo calculate sample quantitation limits multiply the CRQL by the Dilution Factor
+ results reported from 4X dilution
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
DATA SUMMARY FORM: VOLATILES Page _2__ of J
Case #: 28846Site:Lab.:
SOG: CV001VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 0Number of Water Samples: 8
Sample Number :Sampling Location :Field QC:Matrix :Units :Date Sampled :Time Sampled :%Moisture :pH:Dilution Factor :Volatile Compound2-HexanoneDibromochtoromethane1,2-Dibromoethane
*Chlorobenzene'EthytbenzeneXylenes (total)
'StyreneBromoformIsopropytoenzene1 , 1 .2,2-Tetractik>roethane
*1 ,3-Dfchtarobenzene* 1 ,4-Dichkxobenzene1 ,2-Dfchkxobenzene1 ,2-Dibronx>3-chloropfDpane1 ,2.4-Trichtorobenzene
CRQL101010101010to1010101010101010
CV001R5
WaterUQ/L
12/19/0011:00
N/A<21.0/4.0
Result Flap,ULULULULULULULULULULULULULULUL
CV002R6Dupl. (CV003)Waterug/L12/19/0015:25
N/A<21.0
Result Flap,ULULULULULULULULULULULULULULUL
CV003R99Dupl. (CV002)Waterug/L12/19/0016:00
N/A<21.0
Result Flap,ULULULULULUL
ULULULULULULULULUL
CV004R15
Waterug/L12/19/0016:30
N/A<21.0
Result FlaflULULULULULULULULULULULULULULUL
CV005R14
Waterug/L12/19/0017:00
N/A<21.0/4.0
Result FlapULULULULULULULULULULULULULULUL
CRQL = Contract Required Quantitation Limit 'Action Level ExistsTo calculate sample quantttation limits multiply the CRQL by the Dilution Factor
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
DATA SUMMARY FORM; VOLATILES Page _3__ of _6_
Case ft 28846Site:Lab.:
SDG: CV001VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 0Number of Water Samples : 8
Sample Number :Sampling Location :Field QC:Matrix :Units :Date Sampled :Time Sampled :%Moisture :pH:Dilution Factor :Volatile CompoundDlchlorodtfluoromethaneChloromethane
•Vinyl ChlorideBromomethaneChtoroethaneTrichtorofluoromethane
'1.1-Dtchloroethene1 , 1 ,2-Trichloro-1 ,2,2-trifluoroethaneAcetoneCarbon DisulfideMethyl Acetate
'Methylene Chloridetrans-1 ,2-OchkxoetheneMethyl tert-Butyt Ether1,1-Dichloroethanecis-1 ,2-Dichloroethene
'2-ButanoneChloroform
* 1 , 1 , 1 -TrichloroethaneCydohexane
'Carbon Tetrachloridelenzene, ,2-Dfchk>it)ethaneTrichloroetheneMethykydohexane
'1 ,2-DichloropropaneBromodichloromettianecis-1 ,3-Dichloropropene4-Methyt-2-pentanone
"Toluenetrans-1 ,3-Dtahtoropropene1 . 1 ,2-Trichloroethane
'Tetrachioroethene
CRQL1010101010101010101010101010101010101010101010101010
10101010101010
CV006TB-01
Trip BlankWaterug/L12/19/0010:00
N/A<2
1.0Result
23
2
1
2
Flag.UJULULULULULULULJULULULULULULULBULULULULJULULULULULULULJULULUL
CV037RIN-WATERRinsate BlankWaterug/L12/27/0014:30
N/A<21.0
Result
3
1
1
1
FlaflUJ
J
J
J
J
CV038RIN-SOILRinsate BlankWaterug/L12/27/0014:00
N/A<21.0
Result .
2
1
1
FlaflUJ
J
J
J
Result Flafl Result Flafl
CRQL = Contract Required Quantitation Limit 'Action Level ExistsTo calculate sample quantitation limits multiply the CRQL by the Dilution Factor
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
DATA SUMMARY FORM: VOLAT1LES Page _4__ of _6__
Case #' 28846Site:Lab.:
SDG : CV001VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 0Number of Water Samples: 8
Sample Number :Sampling Location :Field QC:Matrix :Units :Date Sampled :Time Sampled :%Moisture :pH:Dilution Factor :Volatile Compound2-HexanoneDibromochloromethane1,2-Dibromoethane
*Chlorobenzene'ElhylbenzeneXylenes (total)
*StyreneBromoformIsopfopytoenzene1,1,2,2-Tetrachloroethane
* 1 ,3-Dtehtorobenzene'1,4-Oichlorobenzene
1 ,2-Dichlorobenzene1 ,2-Dibromc-3-chloropropane1 ,2,4-Trichtorobenzene
CRQL101010101010to1010101010101010
CV006TB-01Trip BlankWaterug/L12/19/0010:00
N/A<21.0
Result Flap,ULULULULULULULULULULULULULULUL
CV037RIN-WATERRinsate BlankWaterug/L12/27/0014:30
N/A<21.0
Result Flafl
CV038RIN-SOILRinsate BlankWaterug/L12/27/0014:00
N/A<21.0
Result Flafl Result Flafj Result Flafl
CRQL = Contract Required Quantitation Limit 'Action Level ExistsTo calculate sample quantitatlon limits multiply the CRQL by the Dilution Factor
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
DATA SUMMARY FORM: VOLATILES Page _5__ of _6__
Case * 28846Site:Lab.:
SDG : CV007VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 3Number of Water Samples: 0
Sample Number :Sampling Location :Field QC:Matrix :Units :Date Sampled :Time Sampled :%Moisture ;
P •Dilution Factor :Volatile CompoundDichlorodifluoromethaneChloromethaneVinyl ChlorideBromomethaneChtoroe thaneTrichlorofluoromethane1,1-Dfchloroethene1 . 1 ,2-Trichlon>1 ,2,2-trifluoroethaneAcetoneCarbon DisulfideMethyl AcetateMethylene Chloridetrans-1 ,2-DtehtoroetheneMethyl tert-Butyl Ether1,1-DfcnlOfoethanecls-1 ,2-Dichloroethene2-ButanoneChloroform1,1,1 -TrichtoroethaneCyclohexaneCarbon Tetrachtoride3enzene1 .2-DichtoroethaneTrichloroetheneMethylcydohexane1 ,2-DichloropropaneBromodichloromethanecis-1 , 3-Dichkxopropene4-Methyl-2-pentanoneToluenetrans-1 ,3-Dlchloropropena1 , 1 ,2-TrichloroethaneTetrachloroethene
CRQL101010101010101010101010101010101010101010101010101010101010101010
CV007SB1(0-6)Dupl. (CV008)Soilug/Kg12/21/0008:4514
1.0Result
6
3
1
Flap,UJ
B
B
B
CV008SB2(0-6)
Dupl. (CV007)Soilug/Kg12/21/0009:0018
1.0Result
6
4
1
1
Flap.UJ
B
B
B
J
CV009SB3(0-6)
Soilug/Kg12/21/0009:1518
1.0Result
13
7
1
Flag.UJ
B
B
B
Result Flag. Result Flag
CRQL = Contract Required Quantitatkxi LimitTo calculate sample quantitation limits: (CRQL * Dilution Factor) / (100 - %Moisture) /100
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
DATA SUMMARY FORM: VOLATILES Page _6__ of _6__
Case* 28846Site:Lab.:
SDG: CV007VALMONT INDUSTRIAL PARK/PCELIBRTY
Number of Soil Samples : 3Number of Water Samples : 0
Sample Number :Sampling Location :Field QC:Matrix:Units :Date Sampled :Time Sampled :%Moisture :pH:Dilution Factor :Volatile Compound2-HexanoneDibromochloromethane1 ,2-DibromoethaneChtorobenzeneEthytbenzeneXylenes (total)StyreneBromoformIsopropytoenzene1 , 1 ,2,2-Tetrachkxoethane1,3-Oichk)robenzene1 ,4-Dichlorobenzene1,2-DJchtorobenzane1 ,2-Dibromo-3-chtoropropane1 ,2,4-Trichkxobenzene
CRQL101010101010101010101010101010
CV007SB1(0-6)Dupl. (CV008)Soilug/Kg12/21/0008:4514
1.0Result Flafl
CV008SB2(0-6)Dupl. (CV007)Soil
ug/Kfl12/21/0009:0016
1.0Result Flafl
CV009SB3(0-6)
Soilug/Kg12/21/0009:1518
1.0Result Flafj Result Flafl Result Flag
CRQL = Contract Required Quantitation LimitTo calculate sample quantitation limits: {CRQL * Dilution Factor) / (100 - %Moisture) /100
SEE NARRATIVE FOR CODE DEFINITIONSRevised 09/99
Appendix C
Tentatively Identified Compounds
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. ______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV001
SDG No.: CV001
Lab Sample ID: CV001-1
Lab File ID: CV001-1B55
Date Received: 12/21/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2 .3.4 .5.6.7.8.9.
10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
FORM I VOA-TIC OLM04.2
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% "foisture: not dec. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume :_______ (uL)
dumber TICs found: 0
Contract: 68W99071
SAS No.:
CV001DL
SDG No.: CV001
Lab Sample ID: CV001-1
Lab File ID: CV001-1DB55
Date Received: 12/21/00
Date Analyzed: 12/29/00
Dilution Factor: 4.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2.3.4.5.6.7.8.9.
10.11.12.13.4 .o .
~16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST . CONC . Q
FORM I VOA-TIC OLM04.2
52
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV002
SDG No.: CV001
Lab Sample ID: CV001-2
Lab File ID: CV001-2B55
Date Received: 12/21/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2.3 .4.5.6.7.8.9.10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
~~"
FORM I VOA-TIC OLM04.2
64
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not d :. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV003
SDG No.: CV001
Lab Sample ID: CV001-3
Lab File ID: CV001-3B55
Date Received: 12/21/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2 .3 .4.5.6.7.8.9.
10.11.12.13.4..5.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST . CONC . Q
FORM I VOA-TIC OLM04.2
76
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: .101 dec. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV004
SDG No.: CV001
Lab Sample ID: CV001-4
Lab File ID: CV001-4B55
Date Received: 12/21/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2 .3.4 .5.6.7.8.9.10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST . CONC .
————— i __ .
Q
FORM I VOA-TIC OLM04.2
89
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE Nb.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
lumber TICs found: 0
Contract: 68W99071
SAS No.:
CV005
SDG No. : CVO 01
Lab Sample ID: CV001-5
Lab File ID: CV001-5B55
Date Received: 12/21/00
Date Analyzed: 12/30/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2.3 .4.5.6.7.8.9.
10.11.12.1.3.4..5.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
FORM I VOA-TIC OLM04.2
102
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. ______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV005DL
SDG No.: CV001
Lab Sample ID: CV001-5
Lab File ID: CV001-5DA55
Date Received: 12/21/00
Date Analyzed: 12/30/00
Dilution Factor: 4.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2.3.4.5.6.7.8.9.
10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
^ .
FORM I VOA-TIC OLM04.2
121
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Leve1: (1ow/med) LOW
% Moisture: not dec. ______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
lumber TICs found: 0
Contract: 68W99071
SAS No.:
CV006
SDG No.: CV001
Lab Sample ID: CV001-6
Lab File ID: CV001-6B55
Date Received: 12/21/00
Date, Analyzed: 12/30/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:{ug/L or ug/Kg) UG/L
CAS NUMBER
1.2 .3.4 .5.6.7.8.9.
10.11.12.^3.4.
_j.5.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
FORM I VOA-TIC OLM04.2
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: {soil/water} WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. _______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV037
SDG No.: CV001
Lab Sample ID: CV001-7
Lab File ID: CV001-7B55
Date Received: 12/28/00
Date Analyzed: 12/30/00
Dilution Factor: 1.0
Soil-Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2.3.4.5.6.7.8.9.10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
., _ ,-
FORM I VOA-TIC OLM04.2
146
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) WATER
Sample wt/vol: 5 (g/mL) ML
Level: (low/med) LOW
% Moisture: not dec. ______
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(uL)
lumber TICs found: 0
Contract: 68W99071
SAS No.:
CV038
SDG No.: CV001
Lab Sample ID: CV001-8
Lab File ID: CV001-8B55
Date Received: 12/28/00
Date Analyzed: 12/30/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/L
CAS NUMBER
1.2 .3 .4.5.6.7.8.9.
10.11.12.•"3.4.
_ x5.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
FORM I VOA-TIC OLM04.2
158
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) SOIL
Sample wt/vol: 5.1 (g/tnL) G
Level: (low/med) LOW
% Moisture: not dec. 14
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(ul)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV007
SDG No.: CV007
Lab Sample ID: CV007-1
Lab File ID: CV007-1A55
Date Received: 12/22/00
Date Analyzed. 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/KG
CAS NUMBER
1.2.3.4.5.6.7.8.9.
10.11.12.13.14.15.16.17.18.19.20.21.22.25.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
- — -
FORM I VOA-TIC OLM04.2
31
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) SOIL
Sample wt/vol: 5.0 (g/mL) G
Level: (low/med) LOW
% Moisture: not dec. 16
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(ul)
lumber TICs found: 0
Contract: 68W99071
SAS No.:
CV008
SDG No.: CV007
Lab Sample ID: CV007-2
Lab File ID: CV007-2A55
Date Received: 12/22/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/KG
CAS NUMBER
1.2.3.4.5.6.7.8.9.
10.11.12.3.1.
--L5.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
FORM I VOA-TIC OLM04.2
43
IFVOLATILE ORGANICS ANALYSIS DATA SHEET
TENTATIVELY IDENTIFIED COMPOUNDS
EPA SAMPLE NO.
Lab Name: COMPUCHEM
Lab Code: LIBRTY Case No.: 28846
Matrix: (soil/water) SOIL
Sample wt/vol: 5.0 (g/mL) G
Level: (low/med) LOW
% Moisture: not dec. 18
GC Column: EQUITY624 ID: 0.53 (mm)
Soil Extract Volume:_______(ul)
Number TICs found: 0
Contract: 68W99071
SAS No.:
CV009
SDG No.: CV007
Lab Sample ID: CV007-3
Lab File ID: CV007-3A55
Date Received: 12/22/00
Date Analyzed: 12/29/00
Dilution Factor: 1.0
Soil Aliquot Volume: ____(uL)
CONCENTRATION UNITS:(ug/L or ug/Kg) UG/KG
CAS NUMBER
1.2.3.4.5.6.7.8.9.10.11.12.13.14.15.16.17.18.19.20.21.22.23.24.25.26.27.28.29.30.
COMPOUND NAME RT EST. CONC. Q
_^
FORM I VOA-TIC OLM04.2
55
Appendix D
Chain of Custody Records
*PR. provides 7-day data turnaround in addition to preliminary results. Requests forpreliminary results ml increase analytical costs. Chain of Custody RecordRelin/|uished by: (Signature)
Ttr^: Relinquished by: (Signature)
Date / Time
£?£?* />0Date /Time
iDate / Time
1
Received by: (Signature)
Received by: (Signature)
Received for Laboratory by:(Signature)
Relinquished by: (Signature)
Relinquished by: (Signature)
Date / Time1
Date /Time
IDate /Time
i
Received by: (Signature)
Received by: (Signature)
Remarks: Is custody seal intact? Y/N/none
Distribution: Slue • Region Copy Pink -SMO CopyWhite • Lab Copy for Return to SMO Yellow • Lab Copy for Return to Region
ERA Form 9110-2 (2/99)
See Reverse for Additional Standard Instructions"See Reverse for Purpose Code Definitions
CLASS-9W01
398402
fiL^^BjI V United States Environmental Protection Agencymjf l P^ Contract Laboratory Program
1. Project Code
Account Code*)06 s
•P£Site Name
V^lwi^Tr IO&
City, State Site Spil
to, H^ef-ftf* **1 fi2MCLP
SampleNumbers
(from labels)
(1V&3 Vrvd^f*
AMatrix(fromBox 6)
Other:
VV
BCone.:
LowMed
hi?k&
2. Region No,XE-
Organic Traffic Report& Chain of Custody Record
(For Organic CLP Analysis)Sampling Co.'T'Ct'h. Tec W,
Sampler (Name)
Sampler Signature
ID
kic
SampleType:
Comp./Grab
4i&nqfi'
k
Shipment forCase PageComplete? (fa) J Of J
3.
Op Unit
DPreser-vative(fromBox 7)
Olher:
/
/
Pur.eaj
Dose**SFPRPSTFEDBZ
E fy
I
ActionIA Lonfl-Term>A Acta.4EM riRIFSRl L_ JRDSI, LJRAKl LJOSM
ERAS Analysis
TA(Ordeone)
PR* 7/T4>21
VOA
-Y--4^
TA(ctrdeone)
PR* 7 14 21
BNA
'/ -Ik>:
VGA MS/MSD Required? Y|J>BNA MS/MSD Required? Y£Pest/PCB MS/MSD Required? Ytf
>
TA
PR* 7 14 21Past/PCB
Vl/
4. Date Shipped Carrier
ATi o 8iei375'<U5. Ship To:
L l A i iib-eva-V^ AfNfllytic^l
Crttf^ W,C, 2.-75"»3
ATTN: AllC€ £"1* 3.F
Regional SpecificTracking Numberor Tag Numbers
^r&^&Vdboffe^
?dB05fctf:4i*>^rV>C \Jooi
Sampled:Samptetf:
5 Sample #:
GStation
LocationIdentifier
>?/? -uxtfcrArt -<&*•/
HMo/Day/
Year/TimeSample
Collection
#-?foo J</&tf'S7*> MM
Additional Sampler Signatures
<l^,-f^A^JjL
uase NO.
2 (C R *-/ f6. Matrix 7. Preservative
(Enter in (Enter inColumn A) Column D)
1. Surface Water 1. HCI2. Ground Water 2 HN033. Leachate 3. NaHS044. Field QC 4. H2S045. Soil/Sediment 5. Ice only6. PE-water 6. CH30H7, PE-soil 7 Other (specify8. Other (specify in in Column D)
Column A) N . Not Preserved
iCorrespondingCLP InorganicSample No.
- —— --~
JSamplerInitials
y/vA///
KField QCQualifier
0'FieMDupfcaU
PE i Perform Evjl
&
&
Chain of Custody Seal Number(s)
*PR provides 7-day data turnaround in addition to preliminary results. Requests forpreliminary results will increase analytical costs Chain of Custody RecoReUfiquished by: (Signature)
Keliod sh'ed b/ (SigfJ&fure)
Relinquished by: (Signature)
Date / Time
#$0/^0Da
Da
e / Time
e/Time
Received by: (Signature)
Received by: (Signature)
Received for Laboratory by:(Signature)
Relinquished by: ffSignature)
Relinquished by: (Signature)
Date / Time
i
Date / Time
iDate /Time
i
Received by: (Signature)
Received by: (Signature)
Remarks: Is custody seal intact? Y/N/none
Distribution: Blue - Region Copy Pink - SMO CopyWhite - Lab Copy lor Return to SMO Yellow - Lab Copy for Return to Region
EPA Form 9110-2(2/99'
See Reverse for Additional Standard Instructions*See Reverse for Purpose Code Definitions
CUSS-9M01
398404
*% vvv^jft ,, ..o.,. c .',n ._ . • * . Organic Traffic ReportC>EPA Un'WStc^Tbom^Pp "A9enc »& Chain of Custody Rword^^^1 -» ^ {For Organic CLP Analysis)1. ProjectCode
Account Code
>/<?,Site Name ,
City, State
tOfrtiZtlfefl WCLP
SampleNumbers
(from labels)
WooldtfoofrMooy
AMatrix(from60x6)Other
^/r*
Shipment for CaseComplete? (Y<gJ5
2£>0r 2 fa ,^H
Site Spill ID031$
BCone.:
LowMed
k>U)fa)lov
cSampleType:
Comp./Grab
9rffh
fafyftb7
Page_Lof_L
Op Unit
DPreser-vative(fromBox 7}
Ofter
fil
f/
Al
2. ion No.rffi
Sampling Co. _ , 4. Date Shipped"Mr^-^h JJ-lloo
Sampler (Name) Airbill Number
Sar
^3.1
^pler SJgna^2WPU£*2
-jfV**
SFPRPSTFEDBZ
ure . -^ ' 5, Ship To:
"T~IA ^ Lo~>A *<_ ^EM C
" tjt- EE
RAS Analysis
(drdBOMj=R* 7/« 21
VOA//
/
/
L .
TA(oretiOf»)
PR* 7 14 21
BNA
• I f / - ,
VOA MS/MSD Required? Y/NBNA MS/MSD Required? Y/NPest/PCB MS/MSD Required? Y/N
TA(cMtont)
PR* 7 14 21PesVPCB
,•] f
CJK^yf
/£-r *&&^7 AM// free 1
tg-Tonn *^ / r / *^ ^^
IRIFS C^K Mr ^*£^
IO*M ATTN: A-ltff tzftf<M'5F
Regional SpecificTracking Numberor Tag Numbers
3 ~'J&/7w-fC0
4 - TO / » vO o3-j5/5/^;ry
f \!061J/'
Sample #:Sample #:Sample #:
GStation
LocationIdentifier
3$J/a-4?)sak/o-6)
^ A 3 //I V IIfll 1^ f *^ /
HMo/Day/
Year/TimeSample
Collection
tf£JOO CfrJS12 -3l*Q 0?OQL3'tPi'6G &*/&
Additional Sampler Signatures
Case No
6. Matrix(Enter mColumn A)
1 Surface Water2. Ground Water3. Leachate4. Field QC5. Soil/Sediment6. PE-water7. PE-soil8. Other (specify in
Column A)
\CorrespondingCLP InorganicSample No.
* _
. —
——
7. Preservative(&ttfjnColumn D)
1. HO2. HN033. NaHS044. H2S045. Ice only6. CH30H7 Other (specify
in Column D)N. Not Preserved
JSamplerInitials
ft**A/ftA/n
KField QCQualifier
PE • Perform Ev*
b CJ/OQ&j& f^^OO /
Chain of Custody Seal Numberfs)
*PR provides 7-day data turnaround in addition to preliminary results. Requests for — . . . M . . n .preliminary results WifMncrease anafyttcaf costs. Chain Of Custody RecordRelAquisned by: (Signature)
<wt^.^$2fl/^Retinqtf Ked by: (Si^natui^
\s
Relinquished by: (Signature)
Date / Time
/;fc#4/r%>Date / Time
iDate / Time
1
Received by: (Signature)
Received by: (Signature)
Received for Laboratory by:(Signature)
Relinquished by: (Signature)
Relinquished by: (Signature)
Date /Time1
Date /Time
iDate /Time
i
Received by: (Signature)
Received by: (Signature)
Remarks: Is custody seal intact? Y/N/none
Distribution: Blue - Region Copy Pink - SMO CopyWhite - Lab Copy fof Return to SMO Yellow - Lab Copy for Return to Region
EPA Form 9110-2 (2/99)
See Reverse for Additional Standard Instructions'See Reverse for Purpose Code Definitions
CLASS-9WW1
398403
U.S. EPA Region HI Sample Scheduling Request Form
RAS CASE No: CT731 /e? fjVW(p DAS No:
Date: November 29, Data Validation Level: M22000
Site Name: Valmont Industrial Park/PCE (Valmont TCE)
Address:
Latitude:
Program: Superfund
Longitude:
NSF No:
EPA Lab Reply:
Cost:
City: Hazle Township and West State: PAHazelton
CERCLIS No: PAD982363970
Account No: 01T03N50102D031MQBOO
Preparer: Marian Murphy
Phone: 610-364-2129
FAX: 610-485-8587
E-mail: murphym@ttemi.com
EPA CO: Deborah Eble
Operable Unit:
RPM/PO:Kevin Wood (3HS34)
Phone: 215-814-3303
FAX: 215-814-3254
E-mail: wood.kevin@epa.gov
Anal +Val Data TAT:35 days
Activity: SI
Spill ID:
Site Leader : Anthony Vandeven
Phone: 610-364-2133
FAX: 610-485-8587
E-mail: vandeva@ttemi.com
Contract Type: Prime: Tetra Tech EM Inc.START 3 Eastern Area
Lab Assignment Date: Analytical TAT; 14 days
Organic Lab:
Inorganic Lab:
SAMPLES
20
10
METHOD
CLP SOW OLM04.2
CLP SOW OLM04.2
Sub:
Ship Date From: 12/18/00
Ship Date To: 12/20/00
Carrier:
PARAMETER
TCLVOA
TCL VOA
MATRIX
Ground Water
Soil
NOTE: Data validation levels M3 & IM2 require justincation. QC fleld samples must be included as part of total number of samples.
1. Special Instructions:2. Objectives / Project Plan ID / Permit ID:3. Program / Project / Permit Reporting Limits As per method.4. DQO (QC Requirements) As per method.
Appendix E
Laboratory Case Narratives
CompuChema division of Liberty Analytical Corporation501 Madison AvenueGary, N.C. 27513Tel: 919/379-4100 Fax: 919/379-4050
SDG NARRATIVECASE #28846SDG #CV001
CONTRACT # 68W99071SAMPLE IDENTIFICATIONS: CV001 CV002 CV003 CV004 CV005 C' 36 CV037 CV038The eight water samples listed above were received, at 5, and 8 degrees C, with proper documentation, in sealed
shipping containers, on December 21, and 28, 2000. All samples were scheduled for volatile only analysis. Temperatureblanks were not received in all coolers, however the procedure for temperature measurement is outlined in a QA notice inthe narrative section of this SDG.The samples were prepared and analyzed following Contract Laboratory Protocol(CLP) Statement of Work(SOW),document OLM04.2. This portion of the SDG narrative deals with the volatile fractions only. All pertinent QualityAssurance Notices are included in the narrative section, and all pertinent Laboratory Notices for Case # 28846, SDG #CV001 are included in the sample data sections.Analysis holding time requirements were met for all of these samples, and the sample pH values were all less than 2.0. ThepH results are tabulated in the attached batch sheets.The Target Compound List(TCL) analytes acetone, 1,1,1-trichloroethane, and trichloroethene were the most frequentlyidentified in the submitted samples above the Contract Required Quantitation Limit(CRQL). Samples CV001 and CV005were initially analyzed neat and contained trichloroethene at levels that exceeded calibration limits. The samples werereanalyzed at dilutions, and we have reported and billed for neat and diluted runs. Levels of trichloroethene in the dilutedanalysis of CV001 were slightly below the mid-point of the calibration, however this was not discovered until holdingtimes had expired so no reanalysis was conducted.
No reportable Tentatively Identified Compounds(TlCs) were present in the submitted samples.No instrument blank was analyzed after the neat analysis of CV005, however due to the fact that no trichloroethene waspresent in proceeding sample CV006, we are reporting the data with reference to this qualifier.
All Bromofluorobenzene (BFB) abundance criteria were met for tunes associated to this SDG. Overall QC criteria weremet for all initial and continuing calibration standards associated to this SDG.
The system monitoring compounds (SMCs) met recovery criteria in the analyses of these samples, and all of the internalstandards met retention time and response criteria in the analyses of these samples.
The associated method blanks met all quality control criteria, and did not contain any target analytes above the CRQL .The asssociated storage blank met all QC criteria, and also did not contain any TCL analytes above the CRQL.
Duplicate matrix spikes were generated from the original CV001 as requested, and all QC accuracy and precision criteriawere met without exception. Due to an operator oversight the duplicate matrix spikes were analyzed at the same dilution asthe dilution of the original, rather than at the neat level. This was not discovered until holding times had expired so noreanalysis was conducted.
Manual quantitations were performed on the process files in some of the the associated initial, and continuingcalibration(s), and in all samples except CV001DLMS, and CV001DLMSD. The reasons have been coded withexplanations provided in the notice included in the narrative section of this SDG.
I certify that this data package is in compliance with the terms and conditions of the contract, both technically and forcompleteness, for other than the conditions detailed above. Release of the data contained in this hardcopy data package andin the computer-readable data submitted on diskette has been authorized by the Laboratory Manager or his/her designee, asverified by the following signature.
Roy SuttonCase ReviewerJanuary 04, 2001
ALKANE NARRATIVE REPORTReport date : 01/04/2001
SDG: CV001
CompuChema division of Liberty Analytical Corporation
Quality Assurance Notice
Case # £8%y-&, SDG#________Receipt Date /£/0l' /&& Matrix
In the USEPA Contract Laboratory Program (CLP) "Statement of Work for OrganicAnalysis, Multi-Media, Multi-Concentration (Document Number OLM04.2), "directionsare provided dealing with a temperature blank, termed the USEPA Cooler TemperatureIndicator.
If a cooler temperature indicator bottle is not present in the cooler, the laboratory isrequired to contact the Sample Management Office (SMO), inform them of that fact anduse an alternative means of determining the cooler temperature.
The following is a list of options employed by CompuChem to determine the coolertemperature. For the Case/ SDG presented above, the option(s) used have been indicatedby a check mark.
Note: Any of the options performed are done so immediately after the cooler has beenopened and the determination made that the cooler temperature indicator bottle is absent.
Water Samples__ An aliquot from a sample bottle designated for extractable organics is poured into adisposable container, a thermometer is inserted into the disposable container, and thetemperature is taken and recorded after a 3 minute equilibration period. The contents ofthe disposable container are then properly discarded.
__ A calibrated IR temperature gun is focused onto a sample container, contained in thecooler, and after a minimum of 5 seconds, a temperature reading is taken and recorded.u.
Soil Samples__ A calibrated IR gun is used, as indicated for water samples.__ A temperature strip is affixed to the outside of a sample container and, after oneminute, the temperature is read and recorded.
As required by the organic SOW, the alternative technique used to determine the coolertemperature must be documented in the SDG Narrative.
QAN-R-5 Signature0003 1 4 Date i
CompuChema division of Liberty Analytical Corporation501 Madison AvenueGary, N.C. 27513Tel: 919/379-4100 Fax: 919/379-4050
SDG NARRATIVECASE #28846SDG #CV007
CONTRACT # 68W99071SAMPLE IDENTIFICATIONS: CV007 CV008 CV009The three soil samples listed above were received intact, at 6 degrees C, with proper documentation, in sealed
shipping containers, on December 22, 2000. All samples were scheduled for volatile only analysis.The samples were prepared and analyzed following Contract Laboratory Protocol(CLP) Statement of Work(SOW),document OLM04.2. This portion of the SDG narrative deals with the volatile fractions only. All pertinent QualityAssurance Notices are included in the narrative section, and all pertinent Laboratory Notices for Case # 28846, SDG #CV007 are included in the sample data sections. As no sample was designated for duplicate matrix spike analysis, SMOwas contacted and the laboratory was allowed to use CV007 as requested. A copy of the e-mail accompanies this narrative.Analysis holding tune requirements were met for these samples, and sample dry weight values ranged from 14 to 18percent.The Target Compound List(TCL) analyte acetone was identified in CV009 above the Contract Required QuantitationLimit(CRQL). None of the other submitted samples contained any TCL analytes above the CRQL.
No reportable Tentatively Identified Compounds(TICs) were present in the submitted samples.All Bromofluorobenzene (BFB) abundance criteria were met for tunes associated to this SDG. Overall QC criteria weremet for all initial and continuing calibration standards associated to this SDG.
The system monitoring compounds (SMCs) met recovery criteria in the analyses of these samples, and all of the internalstandards met retention time and response criteria in the analyses of these samples.
The associated method blank met all quality control criteria, and did not contain any target analytes above the CRQL.The asssociated storage blank met all QC criteria, and also did not contain any TCL analytes above the CRQL.
Duplicate matrix spikes were generated from the original CV007 as requested, and all QC precision and accuracy criteriawere met without exception.
Manual quantitations were performed on the process files in some of the the associated initial, and continuing call brat ion(s)and in samples CV007, CV008, and CV009. The reasons have been coded with explanations provided in the noticeincluded in the narrative section of this SDG.
I certify that this data package is in compliance with the terms and conditions of the contract, both technically and forcompleteness, for other than the conditions detailed above. Release of the data contained in this hardcopy data package andin the computer-readable data submitted on diskette has been authorized by the Laboratory Manager or his/her designee, asverified by the following signature.
Roy SuttonCase ReviewerJanuary 03,2001
B
Page 1 of 2
Alice Evans
From: Mack, Carolyn <Carolyn.Mack@dyncorp.com>To: Alice Evans (E-mail) <aevans@compuchemtabs.com>Cc: Markham, Wesley <Wesley.Markham@dyncorp.com>; Betty Jeffery (E-mail)
<jeffery.betty@eparnail.epa.gov>; Dan Slizys (E-mail) <slizys.dan@epa.gov>; Khin-Cho Thaung(E-mail) <Thaung.Khin-Cho@epamail.epa.gov>
Sent: Wednesday, December 27, 2000 8:16 AMSubject: Region 03 / Case 28846 / LIBRTY / MS/MSD issue - FINAL
Region 3 said that the lab can use sample CV007 for theMS/MSD.
Carolyn MackDynCorp I&ETRegions 4, 6, & 7(703) 264 - 9323mackc@dyncorp.com
---—Original Message--—-From: Slizys .Dan@epamail. epa_. gov
Sent: Wednesday, December 27, 2000 6:43 AMTo: Mack, CarolynSubject: Re: Region 03 / Case 28846 / LIBRTY / MS/MSDissue
Carolyn,
The lab can select sample CV007 for QC.
Dan Slizys
"Mack, Carolyn" <Ca_rol_yn .Mack@dync.orp . cpm>
12/26/00 03:58 PM
To: Betty Jeffery/ESC/R3/USEPA/US@EPA, DanSlizys/ESC/R3/USEPA/US@EPA, Khin-ChoThaung/ESC/R3/USEPA/US@EPA
cc:. "Markham, Wesley"<Wesley.Markham@_dyncorp. com>
Subject: Region 03 / Case 28846 / LIBRTY /
—— ff12/27/00
Page 2 of 2
MS/MSD issueLIBRTY reported that no MS/MSD was indicated for case28846. The lab isasking if they can use sample CV007 as the MS/MSD - itdoes not listed as ablank.
Carolyn MackDynCorp I&ETRegions 4, 6, & 7(703) 264 - 9323ma c k c @_dy_n co rp_. c pm
——-Original Message-—--From: Alice Evans [mai 1 tp_; a.eyan.^_cpinpu_cheml_abs . c_p_m]Sent: Tuesday, December 26, 2000 3:14 PMTo: Markham, Wesley; Mack, CarolynSubject: Case 28846
Hi,
For samples received on 12/22/00 3 soils. May we useCV007 for MS/MSD?The Traffic Report does not indicate that this sample is ablank.
Thanks Alice
Alice EvansCompuChem/Liberty501 Madison AveCary, NC 27513919-379-4080
2/27/00
ALKANE NARRATIVE REPORTReport date : 01/03/2001
SDG: CV007
C
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