United States
Bm* ¦¦PaUk Environmental Protection
l^nl ^^mAgency
General Ventilation Filters
Office of Research and Development
National Homeland Security
Research Center
-------�
-------�
Notice
This document has been subjected to the U.S. Environmental Protection Agency's quality assurance
and administrative reviews and has been approved for publication.
The EPA, through its Office of Research and Development (ORD), partially funded and managed the
extramural research described here under Cooperative Agreement No. CR 822870.
Mention of trade names or commercial products does not constitute endorsement or recommendation
by EPA or RTI for use.
-------�
ENVIRONMENTAL TECHNOLOGY
VERIFICATION QUALITY
ASSURANCE PROJECT PLAN
GENERAL VENTILATION FILTERS
Prepared by
Research Triangle Institute
Research Triangle Park, NC
EPA Cooperative Agreement No. CR 822870-01
Project Officer: Leslie E. Sparks
National Risk Management Research Laboratory
U.S. Environmental Protection Agency
Research Triangle Park, NC
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters Page ii of iv
This page left intentionally blank.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters Page iii of vi
A2: Table of Contents
A2: Table of Contents iii
A3: Distribution List v
List of Acronyms/Abbreviations vi
References vi
SECTION A: PROJECT MANAGEMENT 1
A4: Project/Task Organization 1
A4.1 Management Responsibilities 1
A4.2 Quality Assurance Responsibilities 2
A5: Background Information 3
A6: Task Description 3
A7: Data Quality Objectives and Criteria for Measurement Data 3
A7.1 Penetration 4
A7.2 Volumetric Flow Rate 4
A7.3 Pressure Drop Across the Filter 4
A7.4 Ancillary Measurements 4
A7.5 Representativeness 5
A7.6 Comparability 5
A8: Special Training Requirements/Certification 5
A9: Documentation and Records 5
A9.1 Laboratory Documentation 6
A9.2 QA Reports 6
A9.3 Reporting 6
SECTION B: SAMPLING PROCESS DESIGN 7
Bl: Sampling Process Design 7
B2: Sampling Methods Requirements 7
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters Page iv of vi
B3: Sample Handling and Custody Requirements 7
B4: Analytical Methods Requirements 7
B5: Quality Control Requirements 7
B6: Instrument/Equipment Testing, Inspection, and Maintenance Requirements 7
B7: Instrument Calibration and Frequency 7
B8: Inspection/Acceptance Requirements for Supplies and Consumables 7
B9: Data Acquisition Requirements (Non-direct measurements) 8
BIO: Data Management 8
B10.1 Data Recording 8
B10.2 Data Quality Assurance Checks 8
B10.3 Data Analysis 8
B10.4 Data Storage and Retrieval 8
SECTION C: ASSESSMENT/OVERSIGHT 9
CI: Assessments and Response Actions 9
Cl.l: Audits 9
CI.2: Corrective Actions 9
C2: Reports to Management 9
SECTION D: DATA VALIDATION AND USABILITY 10
Dl: Data Review, Validation, and Verification Requirements 10
D2: Validation and Verification Methods 10
D3: Reconciliation with User Requirements 10
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page v of vi
A3: Distribution List
EPA
Dr. Leslie E. Sparks
Research Triangle Institute
Dr. David Ensor
Ms. Deborah Franke
Dr. C. E. Tatsch
Ms. J. M. Elion
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page vi of vi
List of Acronyms/Abbreviations
ANSI American National Standards Institute
ASHRAE American Society of Heating, Refrigerating, and Air-conditioning Engineers
ASME
American Society of Mechanical Engineers
CV
correlation of variance
DQO
Data Quality Objective
EPA
Environmental Protection Agency
ETV
Environmental Technology Verification
HEPA
High Efficiency Particulate Air
ISO
International Standards Organization
KC1
potassium chloride
OPC
optical particle counter
PSE
particle size (removal) efficiency
PSL
polystyrene-latex
QA
Quality Assurance
QAO
Quality Assurance Officer
QAPP
Quality Assurance Project Plan
QC
Quality Control
RTI
Research Triangle Institute
SOP
standard operating procedure
References
RTI. Environmental Technology Verification Test Method for General Ventilation Filters,,
Research Triangle Park, NC. 1999.
RTI. Environmental Technology Verification Test Protocol for General Ventilation Filters,
Research Triangle Park, NC. 1999.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 1 of 10
SECTION A: PROJECT MANAGEMENT
A4: Project/Task Organization
The US Environmental Protection Agency (EPA) has overall responsibility for the Environmental
Technology Verification (ETV) Program for Indoor Air Products. Under cooperative agreement with
EPA, Research Triangle Institute (RTI) will perform the testing, evaluate the data, and prepare the
project deliverables, including the verification report and the verification statement. The various quality
assurance (QA) and management responsibilities are
divided between EPA and RTI key project personnel as defined below. The lines of authority
between key personnel for this project are shown on the project organization chart in Figure 1.
Figure 1. Project Management Organization Chart for
ETV Indoor Air Products Pilot Program General Ventilation Filters
A4.1 Management Responsibilities
Project management responsibilities are divided among the EPA personnel and RTI personnel as
listed below.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 2 of 10
A4.1.1 EPA Project Manager
The EPA Project Manager, Dr. Les Sparks, has overall responsibility for the program. He is
responsible for granting final approval of project plans and reports and seeing that plans are
implemented according to schedule, and he has the authority to commit the resources necessary
to meet project objectives and requirements.
A4.1.2 RTI Project Manager
The RTI Project Director, Dr. David Ensor, and RTI Deputy Director, Ms. Deborah Franke, are
responsible for task implementation and technical quality control. The RTI Program Director is
also responsible for the following tasks:
Monitor and direct the task leaders,
Prepare quarterly progress reports,
Update and distribute revisions of the Quality Assurance Project Plan (QAPP) as necessary, and
Oversee preparation of verification reports and verification statements.
A4.1.3 RTI Task Leader
The RTI Task Leader, Ms. Jenni Eli on, is responsible for the following tasks:
Defining task objectives
Develop a detailed work plan schedule,
Review work progress to ensure that task budgets and schedules are met,
Prepare verification reports and verification statements.
A4.2 Quality Assurance Responsibilities
QA responsibilities are divided among the EPA personnel and RTI personnel as listed below.
A4.2.1 EPA Quality Assurance Officer
The EPA QA Manager, Dr. Nancy Adams, will conduct audits of RTFs QA System and of
specific technical activities on the project. She will be available to resolve any QA issues
relating to performance to EPA's QA requirements. Specific functions and duties of the EPA
QA Manager include approving the contents of this QAPP and subsequent revisions and
reviewing QA reports prepared by RTI, including QA evaluations and audits.
A4.2.2 RTI Quality Assurance Officer
The RTI Quality Assurance Officer (QAO), Dr. C. E. Tatsch, is responsible for ensuring that
QA/QC procedures described in this QAPP are followed. In addition, the RTI QAO will:
Maintain regular communication with the EPA QAO regarding QA issues
Report on the adequacy, status, and effectiveness of the QA program on a regular basis to the
Task Manager
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 3 of 10
Conduct audits of lab activities as necessary and prepare audit reports.
Ensure that corrective action, if necessary, is properly implemented and documented.
A5: Background Information
The ETV Test Protocol for General Ventilation Filters is intended to provide data on the particle-size
dependent, or fractional, efficiency of general air ventilation filters. The data are intended to be used
for several purposes:
to allow users to compare products
to encourage development of innovative filter media.
The test duct required for this method operates under positive pressure to minimize infiltration of
room aerosol. Aerosol injection is located upstream of a mixing baffle to provide aerosol mixing
with the airstream. Aerosol concentration is measured both upstream and downstream of the test
section to obtain the challenge and penetrating aerosol concentrations, respectively. The test
duct is designed to allow the use of a single set of aerosol instrumentation to perform both the
upstream and downstream aerosol concentration measurements with a minimum of particle
losses.
A single filter is subject to a series of tests: resistance vs. airflow of the clean filter at various
airflow rates, particle size removal efficiency (PSE) of the clean device, and PSE of the filter
when incrementally loaded with synthetic dust.
A6: Task Description
The task consists of three steps. The first step is to identify and acquire general ventilation filters
qualified for verification under the ETV Test Protocol for General Ventilation Filters. The next step is
to actually perform the testing on various ventilation filters. The final step is to complete the verification
report and verification statement and submit them to the EPA.
A7: Data Quality Objectives and Criteria for Measurement Data
Data Quality Objectives (DQOs) are qualitative and quantitative statements designed to ensure
that the type, quality, and quantity of data used are appropriate for the intended application. The
DQOs for the ETV Indoor Air Quality Pilot Program are ETV program goals are:
To verify the environmental performance characteristics of commercial-ready technology through
the evaluation of objective and quality assured data; and
To provide potential purchases and permitters with an independent and credible assessment of
what they are buying and permitting.
A successful test will be defined as a test where
the test rig itself meets the systems qualification requirements listed in Table 2 of the ETV Test
Method for General Ventilation Filters , Section 6.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters Page 4 of 10
the measured parameters fall within the quality control limits listed in Table 3 of the ETV Test
Method for General Ventilation Filters.
Comparability is more important than the actual values; therefore, data generated from a
successful test will be acceptable for meeting the DQOs.
The critical measurements consist of upstream and downstream particle counts used to compute
penetration, volumetric flowrate through the filter, and the pressure drop across the filter.
A 7.1 Penetration
There are presently no standards available to directly "calibrate" the test system for penetration.
However, a number of parameters can be checked to verify proper performance. 0% and 100%
penetration measurements are made by using a HEPA filter and an empty test section,
respectively. Checks are performed on the optical particle counter (OPC) zero-count by
sampling HEPA-filtered air and of its sizing accuracy by sampling known size monodisperse
PSL spheres. Operational checks are made during the test to ensure that the particle
concentration does not exceed the capability of the OPC while at the same time having sufficient
concentration to provide adequate particle counts upstream of the filter to provide a meaningful
test.
A7.2 Volumetric Flow Rate
Flow rate is measured via the pressure drop across an ASME long radius flow nozzle mounted
in the duct downstream of the filter. It is the primary standard for the laboratory. Prior to use,
the nozzle is visually inspected to be free from defects. The installation of the nozzle in the duct
will be inspected to confirm that it is seated in place.
A7.3 Pressure Drop Across the Filter
The pressure drop across the filter will be measured with an inclined manometer. The zero and
level of the manometer will be confirmed and connecting tubing inspected for integrity.
A7.4 Ancillary Measurements
In addition to the critical measurements of Table 3 in the ETV Test Method for General Ventilation
Filters, measurements of the in-duct temperature and relative
humidity, and room atmospheric pressure will be made. These measurements are not critical to
the program and are being collected simply to document the general test environment. A wet
and dry bulb psychrometer will be used for determination of temperature and relative humidity
and a mercury barometer (located in an adjoining lab) for atmospheric pressure. No specific
quality control checks on these instruments are planned other than an inspection of the
instruments for mechanical faults (e.g., mercury separation in the thermometers, poor tubing
connections), and inspection of the data for reasonableness.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 5 of 10
A7.5 Representativeness
In the context of this ETV general ventilation filter verification program, and given that the test
conditions are set by the ETV Test Method for General Ventilation Filters, representativeness is an
issue of which filters are selected for testing and how are they selected to ensure that the samples tested
are representative (or, at least, not "hand picked" in a way that might bias the results).
The selection of the test ventilation filters will be governed by the ETV Test Protocol for General
Ventilation Filters.
A7.6 Comparability
All tests will be performed following the same test data collection techniques, measurement
procedures, and methods. Therefore, all the results will be comparable.
A8: Special Training Requirements/Certification
The ETV program is open to multiple test lab participation. In addition to RTI, it is anticipated
that from one to three other laboratories will be available for testing. All participating labs must
accept on-site audits by EPA and/or RTI personnel. The audit will include running an efficiency
test on a reference filter provided by EPA.
To participate in ETV testing, labs must:
Possess the equipment and facilities required to perform these tests, as specified in ETV Test
Method for General Ventilation Filters in-house lab).
Be registered as ISO 9000 compliant or meet ANSI E4 specification and guidelines for Quality
Systems for Environmental Data collection and Environmental Technology Programs.
Allow on-site audit by EPA and/or their representatives.
Prepare a Quality Assurance Project Plan (QAPP).
The method chosen for analysis of particle size efficiency of ventilation filters in the laboratory
(ETV Test Method for General Ventilation Filters) is restricted to use by, or
under the supervision of, personnel experienced in the use of an OPC and skilled in the
interpretation of raw count data. Each person must demonstrate his or her ability to generate
acceptable results with this method.
A9: Documentation and Records
This section identifies the documents and reports to be generated as part of the verification
program and the information to be included in the verification reports and verification
statements. A description of the data management system established for this task is presented in
Section BIO.
A9.1 Laboratory Documentation
Documentation requirements are specified in the ETV Test Method for General Ventilation Filters,
Section 11.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 6 of 10
A9.2 QA Reports
As described in Section CI, EPA personnel or designated representatives may audit the test
laboratory at the discretion of EPA. The auditors will prepare an audit report summarizing the
observations and findings of those audits. As needed, the audit reports will be supplemented by
a Corrective Action Request to document changes required to meet established quality
objectives.
A 9.3 Reporting
The report will consist of calculated and reported data as specified in ETV Test Method for General
Ventilation Filters, Section 11. Raw data shall be included as an appendix.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 7 of 10
SECTION B: SAMPLING PROCESS DESIGN
Bl: Sampling Process Design
The procedure uses laboratory-generated potassium chloride particles dispersed into the
airstream as the test aerosol. A particle counter(s) measures and counts the particles in twelve
size ranges both upstream and downstream for the efficiency determinations. The procedure also
describes a method of loading the filter with synthetic dust to simulate actual use conditions. A
composite curve representing the minimum performance in each size range is developed from
the performance curves for the initial "clean" filter and under dust loading conditions.
B2: Sampling Methods Requirements
Sampling method requirements and critical dimensions and configurations of the test apparatus
are specified in ETV Test Method for General Ventilation Filters, Section 5.
B3: Sample Handling and Custody Requirements
Upon receipt of the test filters, the ventilation filters will be serially numbered with a permanent
marker (or other means as appropriate). All filters for this study will be stored in a single
common area, separate from all other similar devices.
B4: Analytical Methods Requirements
The analytical methods selected are described in ETV Test Method for General Ventilation Filters.
B5: Quality Control Requirements
The apparatus will be tested to verify that the test rig and sampling procedures are capable of
providing quantitative reliable particle size efficiency measurements. The qualification tests and
procedures are detailed in ETV Test Method for General Ventilation Filters,
Section 6. The system qualification requirements are specified in ETV Test Method for General
Ventilation Filters, Table 1.
B6: Instrument/Equipment Testing, Inspection, and Maintenance Requirements
Qualification tests will be conducted as part of each test run, monthly, biannually, or after a
change that may alter performance, depending on the schedule provided in Table 3 of the ETV Test
Method for General Ventilation Filters.
B7: Instrument Calibration and Frequency
Calibration will be performed in accordance with manufacturer's recommendations; at the least,
calibrations will be performed annually.
B8: Inspection/Acceptance Requirements for Supplies and Consumables
The loading dust is a blend of test dust, powdered carbon, and cotton linters. It shall conform to
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 8 of 10
requirements specified in ETV Test Method for General Ventilation Filters,
Section 5.7.
B9: Data Acquisition Requirements (Non-direct measurements)
No types of data are needed for project implementation or decision making that would be
obtained from non-measurement sources such as computer databases, programs, literature files,
or historical databases.
BIO: Data Management
This section identifies the activities and processes planned for documenting the traceability of
the conclusions and information in the verification report.
B10.1 Data Recording
Data for this task will be collected by computer and by handwritten entries. Observations and
records such as sample description and collection information will be recorded manually in lab
notebooks kept exclusively for this task. Output data generated by the OPC instruments will be
fed directly into a computer file and stored as a spreadsheet; printed output will be taped into the
lab notebook.
BIO. 2 Data Quality Assurance Checks
QA checks of data as early as possible are essential to provide early warning of potential
problems. Several levels of QA checks are specified in ETV Test Method for General Ventilation
Filters, Section 7.
BIO. 3 Data Analysis
Data analysis will be performed using commercially available sofiware capable of reading the
raw data from a spreadsheet and calculating a series of equations.
BIO. 4 Data Storage and Retrieval
Laboratory notebooks containing manually recorded information and data output generated from
instrumentation will be stored in the custody of the Task Leader for the duration of the project.
Spreadsheet files including raw and calculated data will be stored on computers. The files will
be downloaded to a network server backed up nightly on magnetic tape.
Following policy at RTI, project files will be archived offsite at a secure facility for a minimum
of five years following delivery of the verification report. The records will not be destroyed
without written approval from EPA.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 9 of 10
SECTION C: ASSESSMENT/OVERSIGHT
CI: Assessments and Response Actions
Cl.l: Audits
Test labs will be subject to both external and internal audits. The external audit will be
conducted by EPA or a designated representative before testing begins to verify that the
laboratory meets the qualifications set forth in Section A8 and that the system qualification tests
meet the limits set forth in Table 1 of the ETV Test Method for General Ventilation Filters. At a
minimum, a second external audit will be conducted to verify that the laboratory is following the test
procedure. The auditor(s) will document their findings and note where corrective actions are
necessary. The auditor(s) will distribute audit reports to those listed in Section A3, and the supervisor
whose lab was audited.
CI.2: Corrective Actions
Technical personnel working on each task will have the direct responsibility for ensuring that the
QA plan is implemented, that the operating parameters are within acceptable limits, and that
corrective actions are taken when appropriate. Corrective action will be taken whenever
measurement accuracy or bias is outside the limits of objectives for the critical measurements.
Corrective actions include:
problem identification;
attempting to find the cause;
attempting immediate repairs (if possible);
reporting or documenting the problem;
planning for corrective action (if major repairs are needed);
checking that problem was corrected;
documenting the corrective actions taken; and
recommending changes to instruments, Standard Operating Procedures (SOPs), etc. to avoid
similar future occurrences.
The QAO and the Task Leader will be jointly responsible for proper documentation of
Corrective Actions. Minor corrective actions are to be recorded in the laboratory notebooks.
Major problems will be addressed as outlined above. All corrective actions will be noted in the
test report. Depending on the time and expense involved with necessary corrective actions, it
will be necessary to consult the Program Manager or the sponsor before implementing any
changes in the planned activities.
C2: Reports to Management
Audit reports will be sent to all those on the distribution list for the QAPP. Audit reports will be
included as appendices to the verification report.
The Task Manager will prepare monthly status reports for the RTI Program Manager and RTI
Quality Assurance Manager.
-------�
Research Triangle Institute
ETV Quality Assurance Project Plan
General Ventilation Filters
Page 10 of 10
SECTION D: DATA VALIDATION AND USABILITY
Dl: Data Review, Validation, and Verification Requirements
The test is acceptable if all the measured parameters fall within the limits prescribed in Table 3
of the ETV Test Method for General Ventilation Filters, Section 7.
The calculations required to determine particle size efficiency of the filter are presented in ETV Test
Method for General Ventilation Filters, Section 10.
The test operator is responsible for checking that all measured parameters fall within prescribed
limits before continuing testing.
D2: Validation and Verification Methods
Each verification report will be reviewed by the RTIQAO for compliance with the applicable
method and for the quality of the data reported.
The RTI QAO will check for the following:
Data completeness
Blanks
Initial and continuing calibrations
QC reference and internal standards
D3: Reconciliation with User Requirements
Each ETV verification statement will summarize testing conditions and will state test results.
Each ETV test report will present all critical and ancillary (e.g., temperature and humidity)
measurements.
The data quality objectives are penetration, volumetric flowrate through the filter, and the
pressure drop across the filter. If the critical measurements discussed in Section A7 do not meet
the criteria described in Table 3 of the ETV Test Method for General Ventilation Filters, test results will
not be considered valid and tests will be repeated after appropriate
corrective actions are taken. Data not meeting minimum criteria will not be used in filter
evaluation.
-------� |