Batteiie
'Itw Business of Innovation
Environmental Technology
Verification Program
Advanced Monitoring
Systems Center
Test/QA Plan for Verification of Mobile
Mass Spectrometers
et^etVett
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TEST/QA PLAN
for
Verification of
Mobile Mass Spectrometers
July 20, 2005
Prepared by
Battelle
505 King Avenue
Columbus, OH 43201-2693
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TABLE OF CONTENTS
Section Page
A PROJECT MANAGEMENT
A1 Title Page 1
A2 Table of Contents 2
A3 Distribution List 5
A4 Verification Test Organization 6
A5 Background 12
A6 Verification Test Description and Schedule 12
A7 Quality Objectives 15
A8 Special Training/Certification 15
A9 Documentation and Records 16
B MEASUREMENT AND DATA ACQUISITION
B1 Experimental Design 17
B2 Reference Sample Preparation 29
B3 Sample Custody Requirements 29
B4 Laboratory Reference Methods 30
B5 Quality Control Audits and Requirements 31
B6 Instrument Testing, Inspection, and Maintenance 32
B7 Instrument Calibration and Frequency 32
B8 Inspection/Acceptance of Supplies and Consumables 32
B9 Non-Direct Measurements 32
BIO Data Management 32
C ASSESSMENT AND OVERSIGHT
CI Assessments and Response Actions 35
C2 Reports to Management 37
D DATA VALIDATION AND USABILITY
D1 Data Review, Validation, and Verification Requirements 38
D2 Validation and Verification Methods 38
D3 Reconciliation with User Requirements 38
E HEALTH AND SAFETY
El Standard/ Test Sample Preparation 39
E2 Sample Handling During Verification Test 39
E3 Testing with GB, GD, and VX 39
E4 Decontamination of Instruments After CWA Testing 40
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Section Page
F REFERENCES 41
List of Figures Page
Figure 1 Organization Chart 7
List of Tables
Table 1. Planned Verification Schedule (Tentative) 14
Table 2. Target Contaminants and Concentrations of Interest for Verification Test of Mobile
Mass Spectrometers 17
Table 3. Verification Test Performance Parameters 18
Table 4. Performance Test Standard Solution Concentrations for Target Analytes 20
Table 5. Matrix and Potential Interferent Testing 21
Table 6. Physio-Chemical Characterization of Drinking Water 22
Table 7. Summary of Test Samples for ETV Test of Mobile Mass Spectrometers 25
Table 8. Reference Methods for Target Contaminants 30
Table 9. Quality Control Measures 31
Table 10. Summary of Data Recording Process 33
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ETV Advanced Monitoring Systems Center
Test/QA Plan for Verification of
Mobile Mass Spectrometers
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VENDOR ACCEPTANCE:
Name
Company
Date
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A3 DISTRIBUTION LIST
Mobile Mass Spectrometer Vendor
Mr. John Hintenach
Constellation Technology Corporation
7887 Bryan Dairy Road
Suite 100
Largo, FL 33777-1498
Ms. Carol Thielen
INFICON
Two Technology Place
E. Syracuse, NY 13057
EPA ETV AMS Center Management
Robert G. Fuerst
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Environmental Technology Verification
Program
Advanced Monitoring Systems Center
4930 Page Road
Research Triangle Park, NC 27703-8052
Ms. Elizabeth A. Betz
U.S. Environmental Protection Agency-HEASD
National Exposure Research Laboratory
E205-01 USEPA Mailroom
Research Triangle Park, NC 27711
Verification Testing Organization:
Ms. Amy Dindal
Dr. Christopher Fricker
Mr. Raj Mangaraj
Ms. Karen Riggs
Mr. Zachary Willenberg
Battelle
505 King Ave.
Columbus, OH 43201
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SECTION A
PROJECT MANAGEMENT
A4 VERIFICATION TEST ORGANIZATION
The verification test will be conducted under the auspices of the U.S. Environmental
Protection Agency (EPA) through the Environmental Technology Verification (ETV) Program.
It will be performed by Battelle, which is managing the ETV Advanced Monitoring Systems
(AMS) Center through a cooperative agreement with EPA. The scope of the AMS Center covers
verification of monitoring technologies for contaminants and natural species in air, water, and
soil.
The daily operations of this verification test will be coordinated and supervised by
Battelle personnel, with the participation of the vendors who will provide their mobile mass
spectrometers for verification testing. The testing will be conducted at Battelle in Columbus and
West Jefferson, Ohio. Staff from Battelle will oversee operation of the mobile mass
spectrometers during periods of routine operation. Each vendor will provide one mobile mass
spectrometer and training to Battelle staff on the use of the instrument. After the vendor is
sufficiently satisfied in the training of Battelle staff, the vendor will sign a consent form. Quality
assurance (QA) oversight will be provided by the Battelle Quality Manager. The organization
chart in Figure 1 identifies the responsibilities of the organizations and individuals associated
with the verification test. Roles and responsibilities are defined in the subsequent section.
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Figure 1. Organization Chart
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A4.1 Battelle
Mr. Rai Mangarai is the AMS Center's Verification Test Coordinator for this test. In this
role, Mr. Mangaraj will have overall responsibility for ensuring that the technical, schedule, and
cost goals established for the verification test are met. Specifically, Mr. Mangaraj will:
Assemble a team of qualified technical staff to conduct the verification test.
Direct the team in performing the verification test in accordance with this test/QA
plan.
Ensure that all quality procedures specified in the test/QA plan and in the AMS
Center Quality Management Plan1 (QMP) are followed.
Prepare the draft test/QA plan, verification reports, and verification statements.
Revise the draft test/QA plan, verification reports, and verification statements in
response to reviewers' comments.
Respond to any issues raised in assessment reports and audits, including instituting
corrective action as necessary.
Serve as the primary point of contact for vendor representatives.
Coordinate distribution of final test/QA plan, verification reports, and verification
statements.
Establish a budget for the verification test and manage staff to ensure the budget is
not exceeded.
Ensure that confidentiality of sensitive vendor information is maintained.
Ms. Amy Dindal is the Verification Testing Leader for the AMS Center. As such, Ms.
Dindal will provide technical guidance and oversee the various stages of verification testing.
She will:
Support Mr. Mangaraj in preparing the test/QA plan and organizing the testing.
Review the draft and final test/QA plan.
Review the draft and final verification reports and verification statements.
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Ms. Karen Riggs is Battelle's manager for the AMS Center. Ms. Riggs will
Review the draft and final test/QA plan.
Review the draft and final verification reports and verification statements.
Ensure that necessary Battelle resources, including staff and facilities, are committed
to the verification test.
Ensure that confidentiality of sensitive vendor information is maintained.
Support Mr. Mangaraj in responding to any issues raised in assessment reports and
audits.
Maintain communication with EPA's technical and quality managers.
Issue a stop work order if Battelle or EPA QA staff discovers adverse findings that
will compromise test results.
Battelle Technical Staff will support Mr. Mangaraj in planning and conducting the
verification test. The responsibilities of the technical staff will be to:
Become familiar with the operation and maintenance of the mobile mass
spectrometers through instruction by the vendors.
Assure that test procedures and data acquisition are conducted according to this
test/QA plan.
Assure that the data from each mobile mass spectrometer are recorded and
transmitted to the Verification Test Coordinator.
Provide input on test procedures, instrument operation, and maintenance for the draft
verification reports.
Perform statistical calculations specified in this test/QA plan.
Provide results of statistical calculations and associated discussion for the verification
reports as needed.
Support Mr. Mangaraj in responding to any issues raised in assessment reports and
audits related to statistics and data reduction as needed.
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Mr. Zacharv Willenberg is Battelle's Quality Manager for the AMS Center. Mr.
Willenberg or his designee will:
Review the draft and final test/QA plan.
Conduct a technical systems audit at least once during the verification test, or
designate other QA staff to conduct the audit.
Audit at least 10% of the verification data.
Prepare and distribute an assessment report for each audit.
Verify implementation of any necessary corrective action.
Request that Battelle's AMS Center Manager issue a stop work order if audits
indicate that data quality is being compromised.
Provide a summary of the QA/QC activities and results for the verification reports.
Review the draft and final verification reports and verification statements.
Assume overall responsibility for ensuring that the test/QA plan is followed.
A4.2 Mobile Mass Spectrometers Vendors
The responsibilities of the mobile mass spectrometer vendors are as follows:
Review and provide comments on the draft test/QA plan.
Accept (by signature of a company representative) the EPA-approved test/QA plan
prior to test initiation (see page 4).
Provide one mobile mass spectrometer for evaluation during the verification test.
Provide all other equipment/supplies/reagents/consumables needed to operate their
mobile mass spectrometer for the duration of the verification test.
Supply a representative to train Battelle staff on the mobile mass spectrometer so that
they will be able to operate the technology during the verification test.
Provide maintenance and repair support for their mobile mass spectrometers, on-site
if necessary, throughout the duration of the verification test.
Review and provide comments on the draft verification report and verification
statement for their respective mobile mass spectrometers.
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A4.3 EPA
EPA's responsibilities in the AMS Center are based on the requirements stated in the
Environmental Technology Verification Program Quality Management Plan (EPA QMP).2 The
roles of specific EPA staff are as follows:
Ms. Elizabeth Betz is EPA's AMS Center Quality Manager. For the verification test, Ms.
Betz will:
Review the draft test/QA plan.
Perform at her option one external technical system audit during the verification test.
Notify the EPA AMS Center Manager of the need for a stop work order if external
audit indicates that data quality is being compromised.
Prepare and distribute an assessment report summarizing results of an external audit.
Review draft verification reports and verification statements.
Mr. Robert Fuerst is EPA's manager for the AMS Center. Mr. Fuerst will:
Review the draft test/QA plan.
Approve the final test/QA plan.
Review the draft verification reports and verification statements.
Oversee the EPA review process for the test/QA plan, verification reports and
verification statements.
Coordinate the submission of verification reports and verification statements for final
EPA approval.
Notify the Battelle AMS Center Manager if EPA audits indicate a stop work order is
necessary.
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A4.4 Subcontract Laboratory
Any laboratory that is providing reference measurements will follow the requirements of
reference methods as well as the QC requirements as stated in this test/QA plan. The
responsibilities of this laboratory will include:
Proper receipt and handling of sample material.
Accurate measurement of target analyte.
Submission of data and any supporting documents.
Analysis and reporting of performance evaluation (PE) samples.
Participation in audit by Battelle AMS Quality Manager or EPA AMS Quality
Manager.
A5 BACKGROUND
The ETV Program's AMS Center conducts third-party performance testing of
commercially available technologies that detect or monitor natural species or contaminants in
air, water, and soil. Stakeholder committees of buyers and users of such technologies
recommend technology categories, and technologies within those categories, as priorities for
testing. Mobile mass spectrometers were identified as a priority water security technology
category through the AMS Center stakeholder process. Mobile mass spectrometers are a subset
of mass spectrometers that include portable systems (i.e., those able to carried by the user) and
field-transportable systems (i.e., systems modified specifically so that they may be able to be
taken outside of a fixed laboratory setting).
A6 VERIFICATION TEST DESCRIPTION AND SCHEDULE
A6.1 Summary of Technology Category
The technology category to be tested in this verification test is mobile mass
spectrometers to be used in support of drinking water security. The performance of the mobile
mass spectrometers will be based on the analysis of target contaminants at levels of concern
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using lethal dose (LD50) or maximum contaminant level (MCL) concentrations. Many volatile
and semivolatile contaminants in water are typically detected using bench-top mass
spectrometers in a traditional laboratory setting. However, the instruments to be verified in this
test are portable units designed to be taken outside of the typical laboratory setting for "field"
analysis. This portability offers an advantage for first-responders and other users that maybe
seeking to obtain chemical information when time, sampling and other limitations require
analysis outside of the typical laboratory setting.
Typically, the mobile mass spectrometers are composed of four components: a separation
technique, an ion source, a means of ion separation or filtering, and an ion detector. There are a
number of different means of ion separation including time of flight, ion trap, quadrupole mass
filter, and quadrupole ion trap. The instruments that will be evaluated in this verification test
include gas chromatography (GC) as a separation technique prior to detection by the mass
spectrometer.
In performing the verification test, Battelle will follow the technical and QA procedures
specified in this test/QA plan and will comply with the data quality requirements in the AMS
Center QMP1.
A6.2 Verification Schedule
Table 1 shows the planned schedule of activities in testing and data analysis/reporting in
this verification test. As shown in Table 1, the test of mobile mass spectrometers is planned to
begin in August 2005. The test will be conducted in three parts. Volatile organic contaminants
and pesticides will be tested first. The second part will repeat a portion of the verification test in
a field setting. For this test, a field setting will be defined as a setting outside of a laboratory.
Finally, testing using dilute solutions of chemical warfare agent (CWA) will be conducted in a
chemical surety facility. Following the completion of the testing effort, a separate verification
report will be drafted for each mass spectrometer, reviewed, and submitted to EPA for final
signature. Concurrent measurements will be conducted using laboratory reference methods
where and when applicable.
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Table 1. Planned Verification Schedule (Dates Subject to Change)
Month
Test Activity
(2005)
Verification Activities
Data Analysis and Reporting
August
Install mass spectrometers in
laboratory
Undergo training by vendors
Perform tests with volatile organic
contaminants (VOC) and pesticides
Submit samples for reference analysis
Begin preparation of report template
Compile data from VOC and pesticide testing
Review and summarize operator observations
Compile data packages for reference analyses
September
Repeat portion of testing in field
setting
Test with CWA
Submit samples for reference analysis
Compile data from field testing
Compile data fromCWA testing
Complete summary of operator observations
Finalize results for reference analyses
Complete common sections of reports
October
Decontamination of mobile mass
spectrometers
Return instruments to vendors as
soon as items are cleared for release
Complete report sections on reference method
comparisons
compose draft reports
November/
December
Internal review of draft reports
Vendor review of draft reports
Revise draft reports
Peer review of draft reports
January/
February
Revise draft reports
Submit final reports for EPA approval
The test procedures are described in Section B of this test/QA plan. The mobile mass
spectrometers will be calibrated per vendors' instructions. The calibrated mobile mass
spectrometers will subsequently be challenged with performance testing (PT) standard solutions
and various fortified water samples.
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A6.3 Test Facility
The verification test will take place at Battelle. A portion of the test will also be
conducted in a field (non-laboratory) environment. Testing with CWA will take place at the
Hazardous Materials Research Center (HMRC). The HMRC, located in the North area of
Battelle's West Jefferson Campus, is an ISO 9001 certified facility. The HMRC and its personnel
have the demonstrated capability for storing and safely handling CWA, Class A poisons, toxins,
agent simulants and other hazardous materials. The HMRC laboratories meet or exceed all
requirements for the safe use, storage, decontamination, and accountability of CWA as defined by
Army Regulation 50-6 (Chemical Surety)3. Operations within the laboratories always are
conducted in accordance with Battelle's Chemical Safety Information Program4.
A7 QUALITY OBJECTIVES
This verification test will evaluate the performance of mobile mass spectrometers for
identification and quantification of target contaminants in water. This evaluation will include
comparisons to reference methods when available and where applicable. The Battelle Quality
Manager or his designee will perform a technical systems audit (TSA) at least once during this
verification test and will audit at least 10% of the verification data acquired. The EPA Quality
Manager also may conduct an independent TSA, at her discretion.
A8 SPECIAL TRAINING/CERTIFICATION
Documentation of training related to technology testing, field testing, data analysis, and
reporting is maintained for all Battelle technical staff in training files at their respective locations.
For this test, it should be noted that an operator or operators with prior GC/MS experience will be
used. CWA testing will be conducted by staff with the appropriate training, as outlined in HMRC
Chemical Hygiene Plan5. The Battelle Quality Manager will verify the presence of appropriate
training records prior to the start of testing. The technology vendor will be required to train those
staff prior to the start of testing. Battelle will document this training with a vendor training form,
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signed by the vendor, that states which specific Battelle staff have been trained on the mobile mass
spectrometer.
A9 DOCUMENTATION AND RECORDS
The records for this verification test will be contained in the test/QA plan, chain-of-
custody forms, laboratory record books (LRB), data collection forms, electronic files (both raw
data and spreadsheets), and the final verification report. All of these records will be maintained in
the Verification Test Coordinator's office during the test and will be transferred to permanent
storage at Battelle's Records Management Office at the conclusion of the verification test. All
Battelle LRBs are stored indefinitely, either by the Verification Test Coordinator or Battelle's
Records Management Office. EPA will be notified before disposal of any files. Section BIO
further details the data recording practices and responsibilities.
All written records must be in ink. Any corrections to notebook entries, or changes in
recorded data, must be made with a single line through the original entry. Explanations will
accompany all non-obvious corrections. The correction is then initialed and dated by the person
making the correction. In all cases, strict confidentiality of data from each vendor's instrument,
and strict separation of data from different instruments, will be maintained. Separate files
(including manual records, printouts, and/or electronic data files) will be kept for each instrument.
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SECTION B
MEASUREMENT AND DATA ACQUISITION
B1 EXPERIMENTAL DESIGN
This test will specifically address the verification of mobile mass spectrometers for
identification and quantification of target contaminants in water (listed in Table 2) by evaluating
the accuracy, precision, linearity, sensitivity, and stability of each instrument in the analysis of
various water matrices. This target analyte list represents the maximum number of contaminants
to be tested and each technology will only be tested on target contaminants specified by the
vendor. The mobile mass spectrometers will be evaluated for the performance parameters
summarized in Table 3 and discussed in detail in the following sections.
Table 2. Target Contaminants and Concentrations of Interest for Verification Test of
Mobile Mass Spectrometers
Contaminant
CAS#
LDso (mg/L)
Corresponding
Concentration3
MCLd(mg/L)
VXB
50782-69-9
2.1
n/a
GB (sarin)b
107-44-8
20
n/a
GD (soman)b
96-64-0
1.4
n/a
dicrotophosc
141-66-2
1400
n/a
2,4-D
94-75-7
n/a
0.07
benzene
71-43-2
n/a
0.005
toluene
108-88-3
n/a
1
ethyl benzene
100-41-4
n/a
0.7
xylenes (total)
1330-20-7
n/a
10
" LD50 concentrations in water determined using 70 kg individual consuming 250 mL of water
bLD50 data obtained from USACHPPM MEG, Short-term Water-MEGs (these are cited in the notes for each chemical
in Appendix D)
cLD50 data obtained from Gosselin, R.E., et al., Clinical Toxicology of Commercial Products. 5th ed. Baltimore:
Williams and Wilkins, 1984., p. 11-291
d MCLs specified by EPA National Primary Drinking Water Regulation, 40 CFR | 141
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Bl.l Test Procedures
The following sections describe the test procedures that will be used to evaluate each of
the mobile mass spectrometer performance parameters listed in Table 3. Performance testing will
be conducted on each instrument separately, and will follow the procedures specified by the
vendor including analysis of quality control samples. The vendor will define all operational
conditions including (but not limited to) chromatographic column, selected ions or mass scanning
range, sample preparation method, injection technique, and temperature program.
Table 3. Verification Test Performance Parameters
Performance Parameter
Method of Evaluation
Accuracy
Comparison to nominal concentration of spiked target contaminants
(prepared in ASTM Type II water) as determined by reference method
Precision
Determined by relative standard deviation of three replicate measurements
Linearity
Determined by linear regression of performance test standard solutions
Sensitivity
Determined by ability to detect target contaminants at and below
concentrations of interest (e.g., LD50, MCL); lOx serial dilutions on PT
standards will be performed until no change in instrument response is
observed for target contaminant
Instrument Stability
Determined by comparing result of PT standard analyzed at end of the
analytical sequence (defined as the entire list of samples to be analyzed on
each day of testing) to that of PT standard analyzed at beginning of
analytical sequence
Potential Matrix and
Interference Effects
Evaluation of performance in various matrices and in the presence of
potential interferents
Field Portability
user requirements; site requirements; test will include analysis of "blind"
samples
Operational Factors
Operator observations, clarity of instruction manual, user-friendliness of
software, records of needed and performed maintenance, use of expendable
supplies, and sample throughput
Samples will be prepared daily from stock solutions to minimize loss of target
contaminants due to hydrolysis. For PT standards, two separate aliquots will be produced in
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ASTM Type II water using the same procedure. One aliquot will be submitted for testing and the
other aliquot will be submitted for reference measurement. Reference measurements will be
conducted on performance test standards only. For CWA testing, a stock solution containing all of
the three target contaminants (GB, GD, and VX) will be prepared in acetone. Stock solutions for
the other contaminants will be similarly prepared in solvents that will minimize target contaminant
degradation. All matrix samples will be dechlorinated and pH adjusted to pH 7 (ฑ 0.5) to
minimize hydrolysis of CWA.
B 1.1.1 Accuracy, Precision, Linearity, Sensitivity, and Stability.
Due to concerns regarding the stability of the target contaminants in water matrices, the
evaluation of accuracy must be carefully approached so that degradation issues do not negatively
impact the assessment of accuracy. As such, reference measurements will be conducted
simultaneously or as close as possible to the measurements made with the mobile mass
spectrometers. To verify the performance of the mobile mass spectrometers at the concentrations
of interest for the target contaminants, PT standards will be prepared in ASTM Type II water. The
target contaminant concentrations will be constructed to bracket concentrations of interest that are
presented in Table 2. The concentrations of interest are calculated using LD50 values assuming a
70 kg individual consuming 250 mL of the contaminated water. When LD50 data are not available
or feasible for testing, MCL, as defined by EPA National Primary Drinking Water Regulations, are
used. See Table 4 for concentrations of the PT standards for the target analytes.
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Table 4. Performance Test Standard Solution Concentrations for Target Analytes
Contaminant
PT Standard 1
PT Standard 2
PT Standard 3
VX
0.1 mg/L
1 mg/L
10 mg/L
GB (sarin)
1 mg/L
10 mg/L
100 mg/L
GD (soman)
0.1 mg/L
1 mg/L
10 mg/L
dicrotophos
10 mg/L
100 mg/L
1000 mg/L
2,4-D
0.001 mg/L
0.010 mg/L
0.100 mg/L
benzene
0.0001 mg/L
0.001 mg/L
0.010 mg/L
toluene
0.1 mg/L
1 mg/L
10 mg/L
ethylbenzene
0.1 mg/L
1 mg/L
10 mg/L
xylenes (total)
1 mg/L
10 mg/L
100 mg/L
Three replicate measurements will be made for each sample. Determination of accuracy
of the PT standards will be based on agreement with reference measurements that will be
performed concurrently with mobile mass spectrometer measurement. Since no reference
measurements will be taken for the matrix and interferent-fortified samples, accuracy will be
determined by comparison to PT standards. Quantitation of the matrix and interferent-fortified
samples will be based on the calibration curve constructed using the theoretical concentrations of
the spiked contaminants in the PT standards.
Relative standard deviation (RSD) of three replicate measurements of the PT standards
will be determined to assess the precision of all mobile mass spectrometer measurements.
Linearity will be determined by linear regression of the instrument response versus the theoretical
target contaminant concentrations. This evaluation will not focus on determining instrumental
detection limits since the purpose is to ascertain whether the mobile mass spectrometers are
sensitive enough to measure the target contaminants at the concentration of interest in the various
water matrices. Sensitivity will be assessed by the ability of the mass spectrometer to measure the
target contaminant at and below the concentration of interest. Serial dilutions of lOx will be
performed on the PT standard 1 until no change in instrument response for the target contaminant
is observed. A PT standard will be repeated at the end of the analytical sequence to reflect the
degree of calibration stability. Since benzene, toluene, ethylbenzene, and xylene (BTEX) will be
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tested prior to CWA testing, the testing will be able to differentiate between instrument stability
and any parallel target contaminant degradation that may be suspected in the case of CWA in
water.
Bl. 1.2 Potential Matrix and Interference Effects
To measure the potential matrix effects on the mobile mass spectrometer in selected "real
world" applications, the mass spectrometers will be challenged by analyzing samples that are
fortified with the target contaminant at the level of PT Standard 2 (as indicated in Table 4) in
various matrices including regional drinking water (DW) samples, raw (untreated) surface water, a
weakly buffered water sample, and a strongly buffered water sample as shown in Table 5. PT
Standard 2 provides a convenient concentration that is at or below the concentration of interest for
the most of the target contaminants.
Table 5. Matrix and Potential Interferent Testing
Drinking water samples will be collected from four geographically distributed municipal
Sample Type
Spike Level
DW1
PT standard 2
DW2
PT standard 2
DW3
PT standard 2
DW4
PT standard 2
Raw Surface Water
PT standard 2
Weak Buffer Water
PT standard 2
Strong Buffer Water
PT standard 2
THM Spiked Water
PT standard 2
sources to evaluate the performance of the mobile mass spectrometers with various sample
matrices. These finished DW samples will vary in their source, treatment, and disinfection
process. All samples will have undergone either chlorination or chloramination disinfection prior
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to receipt. Samples will be collected from water utility systems with the following treatment and
source characteristics:
Chlorinated filtered surface water source (DW1)
Chlorinated unfiltered surface water source (DW2)
Chlorinated groundwater source (DW3)
Chloraminated filtered surface water source (DW4)
All samples will be collected in pre-cleaned high density polyethylene (HDPE) containers.
After sample collection, to characterize the DW matrix, an aliquot of each DW sample will be sent
to a subcontract laboratory to determine the following water quality parameters: concentration of
trihalomethanes (THMs), haloacetic acids, total organic halides, pH, conductivity, alkalinity,
turbidity, organic carbon, and hardness (see Table 6).
Table 6. Physio-Chemical Characterization of Drinking Water
Parameter3
Method
Turbidity
EPA 180.15
Organic carbon
SM 53106
Specific conductivity
SM 25106
Alkalinity
SM 23206
PH
EPA 150.17
Hardness
EPA 130.27
Total organic halides
SM 53206
Trihalomethanes
EPA 524.28
Haloacetic acids
EPA 552.29
(a) Physio-chemical DW characterization to be performed by the subcontract laboratory
Because free chlorine will degrade many of the contaminants and interferents during
storage, the sample will be immediately dechlorinated with sodium thiosulfate pentahydrate (or
other dechlorination reagents as per vendor protocol). The dechlorination of the DW will be
qualitatively confirmed by adding a diethyl-p-phenylene diamine (DPD) tablet to an aliquot of
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DW. If the water does not turn pink, the dechlorination process will be determined to be
successful. If the water does turn pink, an additional dechlorinating reagent will be added and the
dechlorination confirmation procedure will be repeated.
The effect of ionic strength on the results of the mobile mass spectrometers will be
examined. Since natural water salt type and concentration can vary greatly by location, two
samples will be fortified at the level of PT standard 2 in 442 Natural Water Standard Solution.
This solution, manufactured by Myron L Instruments, is produced by adding 40% sodium sulfate,
40% sodium bicarbonate, 20% sodium chloride in deionized water. Two 442 solutions, 442-30
and 442-3000, will be selected to represent 21.8 ppm NaCl and 2027 ppm NaCl, respectively.
The mobile mass spectrometers will also be challenged by the presence of potential
interferents. THMs are typically observed at low-levels in drinking water as by-products of the
disinfection process. Four THMs (chloroform, bromoform, bromodichloromethane, and
dibromochloromethane) will be spiked into the PT standard 2 at 80 ppb total, which is the MCL
for THMs as defined in the EPA National Primary Drinking Water Regulations, 40 CRF $141.
Chloroform, bromoform, bromodichloromethane, dibromochloromethane will be spiked so that the
concentration in solution will be 50, 5, 15, and 10 ppb, respectively, to represent typical ratios of
THMs in finished drinking water.
Bl. 1.3 Field Portability
For this verification test, field portability is defined as the ability for a user to take and
operate the mass spectrometer in a non-laboratory environment for sample analysis. Observations
centrally related to field portability will be observed and reported. These considerations will
include such items as weight and dimensions of unit, impact on user mobility, start-up time, power
requirements, and compressed gas consumption. The mobile mass spectrometers will be operated
from within a trailer that will be climate controlled. It will be noted to what extent the mobile
mass spectrometers may be carried outside of the trailer by the user. It is in this environment that
testing of the mobile mass spectrometers will include the raw surface water matrix. Field testing
will include the analysis of contaminants that will be unknown (or "blind") to the operator. After
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performing the vendor-specified calibration procedure, the operator will analyze the blind sample
(in three replicates). Due to restrictions, the contaminants will not be CWA, but will consist of a
single or combination of the other target contaminants. The blind sample will challenge the
identification capability of the library matching function of the mobile mass spectrometer
software.
Bl. 1.4 Operational Factors
Operational factors such as maintenance needs, data output, consumables used, ease of
use, repair requirements, sample throughput etc., will be evaluated based on observations recorded
by Battelle staff. A separate laboratory record book will be maintained for each mobile mass
spectrometer undergoing testing, and will be used to enter daily observations on these factors.
Examples of information to be recorded in the record books include the status of diagnostic
indicators for the mass spectrometer; use or replacement of any consumables; the effort or cost
associated with maintenance or repair; vendor effort (e.g., time on site) for repair or maintenance;
the duration and causes of any instrument down time or data acquisition failure; and operator
observations about ease of use of the mobile mass spectrometer. These observations will be
summarized to aid in describing mass spectrometer performance in the verification report on each
mobile mass spectrometer.
The time required for each sample from the start of sample preparation to reporting of
results will define sample time. The number of samples that can be analyzed per unit time will
define sample throughput. The sample throughput will be noted for laboratory and field portions
of testing. The test samples for the verification test are summarized in Table 7.
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Table 7. Summary of Test Samples for ETV Test of Mobile Mass Spectrometersฎ
Sample/ Matrix
Performance Factor
Sample Description
Reps
Performance Test
(PT) standards/
ASTM Type IIDI
Water
Accuracy, Precision,
Linearity, and
Operational Factors
Blank ASTM Type II DI Water
3
PT Standard 3
3
PT Standard 2
3
PT Standard 1
3
PT Matrix
Sensitivity
Successive lOx serials dilutions of PT Standard 1
will be analyzed until no change in instrument
response is observed for target contaminant
1
PT Matrix
Instrument Stability
PT Standard 2
3
Matrix and Potential
Interferent Samples/
Drinking Water
(DW), Buffered
Water (442 Water),
and ASTM Type II
DI Water
Matrix, Potential
Interference Effect, and
Operational Factors
Matrices will be analyzed
as unfortified and
fortified (at PT standard 2
level)
DW1
3
DW2
3
DW3
3
DW4
3
Weak Buffer Water (442-30)
3
Strong Buffer Water (442-3000)
3
THM Spiked Water (ASTM Type II Water)
3
Field Portability
Sample/ Raw Surface
Water; this sample
will be "blind" to the
operator
Field Portability and
Operational Factors
Raw surface water will be
analyzed as unfortified
and fortified
Raw Surface Water (collected from river) will be
spiked with target analyte from Table 2 and then
submitted to the operator
3
(a) Test samples will be analyzed for each target contaminant mix (BTEX, pesticides, CWAs) except for the field
portability samples which will only be performed with one set of non-CWA blind samples.
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B1.2 Statistical Analysis
The statistical methods and calculations used for evaluation of the quantitative
performance parameters are described in the following sections.
B 1.2.1 Accuracy
The accuracy of the mobile mass spectrometer measurements with respect to the reference
measurements will be assessed as the percent recovery (%R), using Equation 1:
where Y is the average concentration of the target contaminant as measured by the mobile mass
spectrometer and X is the target contaminant concentration as measured by the reference method.
The ideal accuracy is 100%.
B 1.2.2 Precision
The precision of the mobile mass spectrometers will be evaluated from complete
measurements of the target contaminant (including three separate sample collections) performed in
triplicate. The precision will be defined as the relative standard deviation (RSD) of the triplicate
measurements:
where Y is the average concentration i of the target contaminant as measured by mobile mass
spectrometer, and 5 the standard deviation of the mobile mass spectrometer results. The ideal
relative standard deviation is 0%.
%r = [y + 100
(1)
%RSD =(5 4- Yi) x 100
(2)
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B 1.2.3 Linearity
Linearity of the analytical response will be assessed by a linear regression analysis using
the target contaminant concentration as the independent variable and result from the mobile mass
spectrometers being tested as the dependent variable. Linearity will be expressed in terms of slope,
intercept, and coefficient of determination (r2). The ideal value for r2 is 1.
B 1.2.4 Sensitivity
Sensitivity of the mobile mass spectrometers for the target contaminant will be determined
by the ability of the instruments to detect at or below the concentrations of interest (see Table 2) in
the different matrices including the PT matrix (ASTM Type II water), drinking water matrices, and
potential interferent-fortified matrices.
B 1.2.5 Instrument Stability
Instrument stability (S) will be determined by analyzing a PT standard at the end of the
analytical sequence. The result of the PT standard will be compared to that of the PT standard
analyzed at the start of the analytical sequence. Stability will be calculated using Equation 3:
= (7*2 - YA) x 100
where Y/2 and Yz'l are the average results for the last and first PT standard, respectively, for target
contaminant i. The length of the analytical sequence will be noted when reporting stability. The
ideal value for S is 100%.
B1.2.6 Potential Matrix and Interference Effects
Potential matrix and interference effects will be assessed by comparison of the analytical
results to those of the PT standards. In the absence of instrument drift and target contaminant
degradation, it will be assumed that a matrix or interferent effect is responsible for any result with
a lower accuracy and/or precision than that of the PT standards.
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B1.3 Reporting
The statistical comparisons described above will be conducted separately for each of the
mass spectrometers being tested, and information on the operational parameters will be compiled
and reported. The data for each mass spectrometer will be kept separate from data for all other
mass spectrometers, and no intercomparison of the mass spectrometer data will be performed at
any time. A separate verification report will be prepared for each mass spectrometer tested that
presents the test procedures and test data, as well as the results of the statistical evaluation of those
data. Operational aspects of the mobile mass spectrometers will be recorded by testing staff at
the time of observation during the field test, and summarized in the verification report. For
example, descriptions of the data-acquisition procedures, use of vendor-supplied proprietary
software, consumables used, repairs and maintenance needed, and the nature of any problems will
be presented in the report. Each verification report will briefly describe the ETV program, the
AMS Center, and the procedures used in the verification testing. The results of the verification test
will be stated quantitatively, without comparison to any other mobile mass spectrometer tested, or
comment on the acceptability of the instrument's performance. Each draft verification report will
first be subjected to review by the respective mass spectrometer vendor, then revised and subjected
to a review by EPA and other peer reviewers. The peer review comments will be addressed in
further revisions of the report, and the peer review comments and responses will be tabulated to
document the peer review process. The reporting and review process will be conducted according
to the requirements of the AMS Center QMP.1
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B2 REFERENCE SAMPLE PREPARATION
An aliquot of the PT standards will be submitted for reference measurement where and
when applicable. If the sample volume requirement for the reference method exceeds what will be
available after testing, a separate aliquot will be prepared using the same procedure. If a separate
aliquot is prepared, it will be prepared as close in time as possible to the original sample to
minimize any differences in rate of sample degradation in the matrix.
B3 SAMPLE CUSTODY REQUIREMENTS
Sample custody will be documented throughout collection, shipping, and analysis of the
samples from the water utility to Battelle laboratories. Similar documentation will be recorded for
shipping and analysis of samples to the subcontract laboratory. Sample chain-of-custody
procedures will be in accordance with the Battelle SOP MDAS.I-009-Draft: Sample Chain-of-
Custody11. The chain-of-custody form summarizes the samples collected and analyses requested.
The chain-of-custody form will track sample release from the field to the Battelle laboratory, and
from the Battelle laboratory to the subcontract laboratory. Each chain-of-custody form will be
signed by the person relinquishing samples once that person has verified that the chain-of-custody
form is accurate. The original sample chain-of-custody forms accompany the samples; the shipper
will keep a copy. Upon receipt at the sample destination, chain-of-custody forms will be signed by
the person receiving the samples once that person has verified that all samples identified on the
chain-of-custody forms are present in the shipping container. Any discrepancies will be noted on
the form and the sample receiver will immediately contact the Verification Test Coordinator to
report missing, broken, or compromised samples.
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B4 LABORATORY REFERENCE METHODS
Laboratory reference methods (see Table 8) will be used to determine the accuracy of
sample preparation, verify the accuracy of the mobile mass spectrometer measurements using the
PT standards, and demonstrate the stability of the target contaminants in the PT matrix. These
reference methods will be performed by Battelle or a subcontract laboratory. In all cases, the
reference analyses will follow the quality control requirements specified in B5 in addition to any
QC requirements specified in each reference method.
Table 8. Reference Methods for Target Contaminants
Contaminant
Reference Method
VX
HMRC-IV-118-0512
GB (sarin)
HMRC-IV-118-0512
GD (soman)
HMRC-IV-118-0512
dicrotophos
U.S. EPA 814113
2,4-D
U.S. EPA 515.114
benzene
U.S. EPA 524.29
toluene
U.S. EPA 524.29
ethyl benzene
U.S. EPA 524.29
xylenes (total)
U.S. EPA 524.2M
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B5 QUALITY CONTROL AUDITS AND REQUIREMENTS
Steps will be taken to maintain the quality of the data collected during this verification
test. Reference methods will be required to analyze the PT standards. QC for operation of the
mobile mass spectrometers (e.g., daily mass tuning) will be specified by the vendor. Table 9
summarizes the quality control measures used during this test.
Table 9. Quality Control Measures
QC Measures
Addressed By
Required Performance
Corrective Action if
Requirements Not Met
Accuracy of Standard
Preparation
Performance test (PT)
standards prepared from
stock solutions will be
verified by reference
methods
Results must agree within
+/- 20% of theoretical
concentration
If results do not agree within
20% of theoretical
concentration, the
concentration as measured
by the reference method will
be used for linearity
calculations
Absence of contaminant in
unfortified PT matrix (ASTM
Type II water)
Blank measurement; 10% of
reference measurements or
at least 1 for every 10
reference measurements
Contaminants should be
less than reporting limit of
reference method
If target contaminant is
detected above the reporting
limit, blank subtraction of the
background contaminant
concentration will be
performed
Reproducibility of Reference
Measurement Value
Duplicate measurement;
10% of reference
measurements or at least 1
for every 10 reference
measurements
Relative Percent
Difference (RPD) must be
within +/-15%
Duplicate analysis will be
repeated; if discrepancy still
exists, a deviation will be
issued and the result will be
noted in report
Accuracy of Reference
Measurement
Performance evaluation
(PE) samples will be
submitted for each
reference method
Result must agree within
+/- 20% of theoretical
concentration
At least one PE sample will
be submitted for each
reference method before the
start of the verification
testing; if result does not
agree within 20% of the
theoretical concentration,
reference method will be
repeated; if discrepancy still
exists, a deviation will be
issued and the result will be
noted in report
Operation of Mobile Mass
Spectrometers
Vendor-provided QC
Defined by vendor
Defined by vendor
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B6 INSTRUMENT TESTING, INSPECTION, AND MAINTENANCE
The mobile mass spectrometers and associated equipment (e.g., SPME inlet) will be
visually inspected before and after each day of testing for any wear and tear that may compromise
performance. Maintenance procedures, as outlined by vendors, will be followed during the
verification process.
B7 INSTRUMENT CALIBRATION AND FREQUENCY
The mobile mass spectrometers will be calibrated at least once each analytical sequence
according to the vendors' instructions. Additional calibration will be performed as outlined by the
vendor.
B8 INSPECTION/ACCEPTANCE OF SUPPLIES AND CONSUMABLES
All materials, supplies, and consumables will be ordered by the Verification Test Coordinator or
designee. Where possible, Battelle will rely on sources of materials and consumables that have
been used previously as part of ETV verification testing without problems. Battelle will also rely
on previous experience or recommendations from EPA advisors, host facility staff, or mass
spectrometer vendors. National Institute of Standards and Technology (NIST)-traceable materials
will be utilized where and whenever possible.
B9 NON-DIRECT MEASUREMENTS
Data published previously in the scientific literature will not be used during this
verification test.
BIO DATA MANAGEMENT
Various types of data will be acquired and recorded electronically or manually by Battelle
staff during this verification test. Table 10 summarizes the types of data to be recorded. All
maintenance activities, repairs, calibrations, and operator observations relevant to the operation of
the mobile mass spectrometers will be documented by Battelle in laboratory record books. A
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separate record book will be provided for each participating mass spectrometer. Results from the
laboratory reference method will be compiled in electronic format, and submitted to the
Verification Test Coordinator in the form of a sample preparation and analysis report at the
conclusion of reference analyses.
Table 10. Summary of Data Recording Process
Data to Be
Recorded
Where Recorded
How Often
Recorded
By Whom
Disposition of Data
Dates, times, and
details of test
events, mass
spectrometer
maintenance,
down time, etc.
ETV laboratory
record books or data
recording forms
Start/end of test
procedure, and at
each change of a
test parameter or
change of
instrument status
Battelle
Used to organize and
check test results;
manually incorporated
in data spreadsheets as
necessary
Mass
spectrometer
calibration
information
ETV laboratory
record books or
electronically
At instrument
calibration or
recalibration
Battelle
Incorporated in
verification report as
necessary
Mass
spectrometer
readings
Recorded
electronically by
each instrument and
then downloaded
daily
For each sample
Battelle
Converted to
spreadsheet for
statistical analysis and
comparisons
Reference method
sample
preparation
Laboratory record
book
throughout sample
preparation
Battelle
Used to demonstrate
validity of samples
submitted for reference
measurements
Reference method
procedures,
calibrations, QA,
etc.
Laboratory record
books, or data
recording forms
Throughout
sampling and
analysis processes
Battelle or
subcontract
laboratory
Retained as
documentation of
reference method
performance
Reference method
analysis results
Electronically from
reference analytical
method
Every sample
analysis
Battelle or
subcontract
laboratory
Converted to
spreadsheets for
calculations
Records received by or generated by any Battelle staff during the verification test will be
reviewed by a Battelle staff member within two weeks of generation or receipt, respectively,
before the records are used to calculate, evaluate, or report verification results. If a Battelle staff
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member generated the record, this review will be performed by a Battelle technical staff member
involved in the verification test, but not the staff member who originally generated the record. The
review will be documented by the person performing the review by adding his/her initials and date
to the hard copy of the record being reviewed. In addition, any calculations performed by Battelle
staff will be spot-checked by Battelle technical staff to ensure that calculations are performed
correctly. Calculations to be checked include any statistical calculations described in this test/QA
plan. The data obtained from this verification test will be compiled and reported independently for
each mass spectrometer. Results for the mobile mass spectrometers from different vendors will not
be compared with each other.
Among the QA activities conducted by Battelle QA staff will be an audit of data quality.
This audit will consist of a review by the Battelle Quality Manager of at least 10% of the test data.
During the course of any such audit, the Battelle Quality Manager will inform the technical staff of
any findings and any immediate corrective action that should be taken. If serious data quality
problems exist, the Battelle Quality Manager will request that Battelle's AMS Center Manager
issue a stop work order. Once the assessment report has been prepared, the Verification Test
Coordinator will ensure that a response is provided for each adverse finding or potential problem,
and will implement any necessary follow-up corrective action. The Battelle Quality Manager will
ensure that follow-up corrective action has been taken.
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SECTION C
ASSESSMENT AND OVERSIGHT
CI ASSESSMENTS AND RESPONSE ACTIONS
Every effort will be made in this verification test to anticipate and resolve potential
problems before the quality of performance is compromised. One of the major objectives of this
test/QA plan is to establish mechanisms necessary to ensure this. Internal quality control measures
described in this test/QA plan, which is peer reviewed by a panel of outside experts, implemented
by the technical staff and monitored by the Verification Test Coordinator, will give information on
data quality on a day-to-day basis. The responsibility for interpreting the results of these checks
and resolving any potential problems resides with the Verification Test Coordinator. Technical
staff have the responsibility to identify problems that could affect data quality or the ability to use
the data. Any problems that are identified will be reported to the Verification Test Coordinator,
who will work with the Battelle Quality Manager to resolve any issues. Action will be taken to
control the problem, identify a solution to the problem, and minimize losses and correct data,
where possible. Independent of any EPA QA activities, Battelle will be responsible for ensuring
that the following audits are conducted as part of this verification test.
Cl.l Performance Evaluation Audits
When possible, "blind" samples will be submitted to analysts performing the reference
measurements. These performance evaluation (PE) samples will assess the accuracy of the
reference measurements. These samples will prepared in accordance with the stated detection
limits of the reference laboratories. At least one PE sample will be submitted per reference
method prior to the start of the verification test and once during the verification test.
The results for the PE samples must be within ฑ 20% of the expected result. If the PE
sample value is not within these limits, the PE sample measurement will be repeated. If the value
of the repeated PE sample is outside of the acceptable range, the reference instrument will be
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recalibrated, and the PE will be reanalyzed (unless the operator identifies or suspects another cause
for the failure). Continued failure of the PE measurement will result in discussion with the
Verification Testing Leader and the data being flagged accordingly.
C1.2 Technical Systems Audits
The Battelle Quality Manager will perform a technical systems audit (TSA) at least once
during this verification test. The purpose of this audit is to ensure that the verification test is being
performed in accordance with the AMS Center QMP1, this test/QA plan, published reference
methods, and any standard operating procedures (SOPs) used by Battelle. In the TSA, the Battelle
Quality Manager or designee will review the reference methods used, compare actual test
procedures to those specified or referenced in this plan, and review data acquisition and handling
procedures. In the TSA, the Battelle Quality Manager will tour the test site, observe the reference
method sample preparation and analysis, inspect documentation; and review instrument-specific
record books. He will also check standard certifications and mass spectrometer data acquisition
procedures, and may confer with the instrument vendors and other Battelle staff. A TSA report
will be prepared, including a statement of findings and the actions taken to address any adverse
findings. The EPA AMS Center Quality Manager will receive a copy of Battelle's TSA report. At
EPA's discretion, EPA QA staff may also conduct an independent on-site TSA during the
verification test. The TSA findings will be communicated to technical staff at the time of the audit
and documented in a TSA report.
C1.3 Data Quality Audits
The Battelle Quality Manager or designee will audit at least 10% of the verification data
acquired in the verification test. The Battelle Quality Manager will trace the data from initial
acquisition, through reduction and statistical comparisons, to final reporting. All calculations
performed on the data undergoing the audit will be checked.
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CI.4 QA/QC Reporting
Each assessment and audit will be documented in accordance with Section 3.3.4 of the
AMS Center QMP.1 The results of the TSA will be submitted to EPA. Assessment reports will
include the following:
Identification of any adverse findings or potential problems
Response to adverse findings or potential problems
Recommendations for resolving problems
Confirmation that solutions have been implemented and are effective
Citation of any noteworthy practices that may be of use to others.
C2 REPORTS TO MANAGEMENT
The Battelle Quality Manager, during the course of any assessment or audit, will identify
to the technical staff performing experimental activities any immediate corrective action that
should be taken. If serious quality problems exist, the Battelle Quality Manager is authorized to
request that Battelle's AMS Center Manager issue a stop work order. Once the assessment report
has been prepared, the Verification Test Coordinator will ensure that a response is provided for
each adverse finding or potential problem and will implement any necessary follow-up corrective
action. The Battelle Quality Manager will ensure that follow-up corrective action has been taken.
The test/QA plan and final report are reviewed by EPA AMS Center QA staff and EPA AMS
Center program management staff. Upon final review and approval, both documents will then be
posted on the ETV website (www.epa.gov/etv).
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SECTION D
DATA VALIDATION AND USABILITY
D1 DATA REVIEW, VALIDATION, AND VERIFICATION REQUIREMENTS
The key data review requirements for the verification test are stated in Section BIO of this
test/QA plan. All data generated will be reviewed on a daily basis for accuracy and completion.
The QA audits described within Section C of this document, including the audit of data quality, are
designed to assure the quality of the data.
D2 VALIDATION AND VERIFICATION METHODS
Section C of this test/QA plan provides a description of the validation safeguards
employed for this verification test. Data validation and verification efforts include the analysis of
QC samples as required in this document, and the performance of TSA and PE audits as described
in Section C.
D3 RECONCILIATION WITH USER REQUIREMENTS
This test/QA plan and the resulting ETV verification report(s) will be subjected to review
by the mobile mass spectrometer vendors, EPA, and expert peer reviewers. These reviews will
assure that this test/QA plan and the resulting verification report(s) meet the needs of potential
users of mobile mass spectrometers. Performance data for the mobile mass spectrometers,
collected under conditions where the quality control requirements shown in Table 8 were met, will
be presented in the final verification report without any further comment. Performance data and
reference measurements that do not meet these criteria will be noted and a discussion of the
possible impact of the failed requirements on the performance evaluation will be presented in the
final verification report. The final verification report(s) will be submitted to EPA in Word Perfect
and Adobe pdf format and subsequently posted on the ETV website.
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SECTION E
HEALTH AND SAFETY
El STANDARD/ TEST SAMPLE PREPARATION
With the exception of field testing, all handling of solid materials and highly concentrated
aqueous solutions of target contaminants and potential interferents will be performed inside of a
laboratory hood with hood sash set to the lowest height that still allows for safe manipulation of
materials. The following guidelines should be adhered to:
Personal protective equipment shall include safety glasses with side shields, a
laboratory coat and nitrile lab gloves. Gloves shall be immediately changed if they
become contaminated.
All contaminated waste shall be handled as hazardous waste and sent out through
Battelle Waste Operations.
E2 SAMPLE HANDLING DURING VERIFICATION TEST
Laboratory and field handling of any samples used during the verification test will be
accomplished by taking the following precautions:
All containers shall be stored and transported in double containment.
Safety glasses, nitrile gloves with long cuffs, and a chemical resistant disposable lab
coat shall be worn when handling either chemical. Gloves shall be immediately
changed if they become contaminated.
E3 TESTING WITH GB, GD, and VX
Verification activities using these CWA will be performed at the HMRC following their
internal SOPs for handling and using CWA.
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E4 DECONTAMINATION of INSTRUMENTS AFTER CWA TESTING
The return of part or all of the verified instruments is based on current U.S. Army
guidelines (which is subject to change). After testing with CWA has been completed, the
decontamination of the mobile mass spectrometers will be performed according to HMRC SOP
III-007-0716. All consumables (e.g., column, inlet liner) that come into contact with liquid CWA
or long-term vapor contamination of CWA will be discarded. While all components of the mobile
mass spectrometers and associated equipment (including those used in sample preparation) that are
in the direct flow path of the dilute agent solution or vapor will be considered for decontamination,
an effort to maintain the integrity of the non-consumable parts of the mobile mass spectrometers
will be made to the extent allowable by the SOP or the HMRC Bailment Agreement. For example,
the detector will not be initially removed from the instrument since the mass spectrometer
effectively destroys the CWA during routine analysis.
After removing consumables, the instrument will be bagged or contained for a minimum
of 4 hours at 70ฐF or above. Testing will be conducted to ensure that vapor concentrations of
CWA do not exist above the Worker Population Limit (WPL) for each agent inside the bag. If
concentrations for CWA in the bag exceed the WPL, the mobile mass spectrometers may be
further disassembled and tested until the subject instrument can satisfy the threshold and safely be
returned to the vendor.
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SECTION F
REFERENCES
1. Quality Management Plan for the ETV Advanced Monitoring Systems Center, Version 5.0,
U.S. EPA Environmental Technology Verification Program, Battelle, Columbus, Ohio, March
2004.
2. Environmental Technology Verification Program Quality Management Plan,
EPA/600/R-03/021, U.S. Environmental Protection Agency, Cincinnati, Ohio, December
2002.
3. Chemical Surety, United States Army Regulation, AR50-6, June 26, 2001.
4. Battelle Chemical Safety Information Program, Safety and Industrial Hygiene Manual (SIH-
PP-005), September 24, 2004.
5. Hazardous Materials Research Center (HMRC) Chemical Hygiene Plan, March 2005.
6. EPA Method 180.1. Turbidity (Nephelometric), Methods for the Determination of Inorganic
Substances in Environmental Samples EPA-600-R-93-100. 1993.
7. American Public Health Association, et al. Standard Methods for Examination of Water and
Wastewater. 19th Edition. 1997. Washington D.C.
8. EPA 600/4-79-020. Methods for Chemical Analysis of Water and Wastes. March 1983.
9. EPA 600/R-95-131. EPA Method 524.2. Purgeable Organic Compounds by Capillary Column
GC/Mass Spectrometry. Methods for Determination of Organic Compounds in Drinking
Water, Supplement III. August 1995.
10. EPA 600//R-95-131. EPA Method 552.2. Haloacetic Acids and Dalapon by Liquid-Liquid
Extraction, Derivatization and GC with Electron Capture Detector. Methods for the
Determination of Organic Compounds in Drinking Water, Supplement III. August 1995.
11. Battelle SOP MDAS.I-009-Draft, Sample Chain-of-Custody.
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Mobile Mass Spectrometers
Test/QA Plan
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Version 1
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12. Battelle SOP HMRC-IV-118-05: Standard Operating Procedure for the Determination of CA
in Wastewater.
13. EPA SW-846 Method 8141A Organophosphorus Compounds by Gas Chromatography:
Capillary Column Technique.
14. EPA 600/R-95-131. EPA Method 515.1. Chlorinated Acids in Water by Gas Chromatography
with an Electron Capture Detector. Methods for Determination of Organic Compounds in
Drinking Water, Supplement III. August 1995.
15. Battelle SOP HMRC-III-007-07: Standard Operating Procedure for the 3X and 4X Materials
Proof of Decontamination.
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