9/22/2015 - Working Draft
U.S. EPA
Technical Systems Audit
Supplementary Checklist for PM Continuous Monitors
1. On-site Technical Systems Audit of Thermo TEOM and TEOM-FDMS
Conducting the on-site audit of the Thermo TEOM or TEOM-FDMS involves evaluating several aspects of the set-up, operation,
maintenance, and reporting of the monitor. For this audit checklist we have grouped the questions into four areas:
a. Items to review at the monitor
b. Items to review in the firmware and data logger
c. Items to review at the inlet
d. Maintenance and QC records to review.
This checklist can be applied to pre-FEM or FEM Thermo TEOM orTEOM-FDMS units. Pre-FEM Thermo TEOM and TEOM-FDMS
monitors will be set up and operated nearly identical as FEMs, except that they may use a Sharp Cut Cyclone (SCC) rather than a
Very Sharp Cut Cyclone (VSCC) and that an earlier version of firmware may be in use. There may be other engineering differences
between a pre-FEM and FEM Thermo TEOM and TEOM-FDMS unit; however, these will likely be unnoticeable to the user or auditor.
To the extent that any differences exist, it does not necessarily mean that the pre-FEM version is not being run appropriately.
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Typical Thermo TEOM and TEOM-FDMS Set-ups:
TEOM 1400a or 1400ab
Total system flow rate: 16.67 l/min
flow line
Vacuum
pump
Flow splitter
Sample tube
Auxiliary flow
controller (13.67 l/min)
Flow: 16.7 LPM at the Inlet
3.0 LPM main flow through TEOM filter
13.7 LPM bypass flow
TEOM 1400a
with Series 8500C FDMS
Flow: 16.7 LPM at the Inlet
3.0 LPM main flow through TEOM filter
13.7 LPM bypass flow
Figure 2-1.
14(15- Dh
I bA splitter
TEOM 1405-DF FDMS
Flow: 16.7 LPM at the Inlet
3.0 LPM fine channel flow
1.7 LPM coarse channel flow
12.0 LPM bypass flow (after virtual impactor)
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Table 1 - Summary ofTEOM Makes and Models:
Model Number
Key Feature(s) of Monitor
Illustration
Firmware
PM2.5
Designation
PMio
Designation
PM 10-2.5
Designation
TEOM 1400a or
1400ab
Original TEOM; electronics and
measurement are in separate
units.
TEOM 1405
Updated version ofTEOM
(without FDMS); one unit for
electronics and measurement
Not
identified as
part of
designation
(latest is
3.019)
NA
EQPM-1090-079
NA
TEOM 1400a with
Series 8500C FDMS
Original TEOM with FDMS unit on
top of monitor. Measurement
and electronics are separate.
3.20 or later
(latest is 3.5)
NA
NA
EQPM-0609-181
TEOM FDMS 1405 - F
Late model TEOM with one
channel that is an all in one unit
(electronics, monitor, and FDMS).
1.55 or later
(latest is
1.71)
NA
NA
TEOM FDMS 1405- DF
Late model TEOM that is an all in
one unit set up with a virtual
impactor. Two TEOM channels in
one unit each measure PM
allowing reporting of PM2.5,
PM10, and PM10-2.5.
A
1.50 or later
(latest is
1.71)
EQPM-0609-182
EQPM-1013-208
EQPM-1013-207
Note: the last three numbers of the method designation is the method code used in AQS.
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Summary of Flows on TEOM and TEOM-FDMS units (all units):
1. Air moves through the PMio inlet for initial aerosol separation of PM larger than PMio.
2. If applicable, a second stage separator (i.e., a VSCC, SCC, or Virtual Impactor) is used to provide PM2.5 aerosol.
3. A flow splitter is used downstream of the separator(s) to lower the flow used in the TEOM measurement.
a. In PM2.5TEOMS and TEOM FDMS units - Typically 13.67 LPM is used as the bypass flow and 3.0 LPM is used as the "Main" flow that is sent to
the TEOM,
b. In the 1405-DF - Ambient air moves through the virtual impactor and is 15.0 LPM on the fine channel side and 1.67 LPM on the coarse
channel side. A flow splitter is used on the fine channel side so that 3.0 LPM goes to the fine channel TEOM and 12.0 LPM is sent through the
bypass line. On the coarse channel, the 1.67 LPM goes straight to the coarse channel TEOM.
Summary of Filter Dynamic Measurement System (FDMS) Operation, if applicable:
1. Sample air moves through the naphion dryer to lower the dew point.
2. Switching valve alternates the sample between Base and Reference Channels every 6 minutes.
• Base Channel - sample air is sent to the TEOM filter for measurement of the base channel.
• Reference Channel - A purge filter is used on the reference channel, which is cooled to 4 °C. This filtered air is then sent to the TEOM filter.
Note: This temperature may be set to 10 °C for hot/humid applications.
3. Use of the FDMS allows measurement of non-volatile (base measurement six minute measurement cycle) and semi-volatile (reference measurement
six minute cycle where aerosol evaporates off the TEOM) PM to be measured using same approach as in the TEOM. TEOM FDMS units operate at 30
°C.
Summary of Tapered Element Oscillating Microbalance (TEOM) measurement:
1. Aerosol is collected on a Teflon filter which sits on top of a TEOM. The TEOM is hollow allowing air to move through the TEOM down to the flow
system and pump.
2. Mass of the TEOM filter is continually weighed and calculated in real time.
3. Weighing principle used is similar to a laboratory microbalance
4. Mass detected by the TEOM is the result of the change in measurement of the frequency of oscillation that is directly coupled via a physical law.
1400 and 8500C 1405-F 1405-DF
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Table 2 -Audit Questions for the Thermo TEOM and TEOM FDMS PM Continuous Monitors:
Question #
Item
Response
Comments
Items to review at the Monitor:
1
Confirm the make and model of the PM
continuous monitor.
2
Does this make and model match what
is identified in the annual network plan
and reported to AQS?
~ Yes
~ No
3
If expected, is there an FEM sticker on
the PM continuous Monitor?
~ Yes
~ No
Automated Equivalent Methods:
1400 or 1405 for PMi0: EQPM-1090-079
1400a with Series 8500C or 1405 - F for PM2.5: EQPM-0609-181
1405-DF: PM2.s= EQPM-0609-182; PMi0= EQPM-1013-208; PM 10-2.5
= EQPM-1013-207.
4
For instruments operated at 30 °C: Is the
temperature of the shelter being
adequately maintained to no more than
27°C?
(TEOMs operated at 50 °C can tolerate less AC
control (temps higher than 27 C will still work),
but some cooling is still necessary to protect the
electronics from high dew points)
~ Yes
~ No
Note: The unit can only be heated (i.e., it cannot be cooled), so
temperatures above 27 C may be more challenging to keep steady.
For best results, locate the 1405-DF in an environment with
relatively slow temperature fluctuations.
Of particular concern on FDMS units—avoid a 12-min. air-
conditioning (A/C) cycle.
5
Are there any concerns about the
location of the monitor inside the
shelter?
~ Yes
~ No
This is largely professional judgement. Items of concern might
include: substantial vibration where monitor is set-up; AC blowing
directly on down tube; poor access to monitor; or direct sunlight on
monitor.
6
Is the latest SOP and instrument manual
for the PM continuous monitor available
at the station? The instrument manual
can be found at Thermo's web site at:
www.thermoscientific.com/aqilibrary. A
username and password are required.
~ Yes
~ No
1400a or 1400ab = Revision B, 06Sep2009
1405 = Revision A.000, 15Feb2008
1400a w/8500C = Revision C, 08Aug2008
1405 - F = Revision A.000, 22Sep2009
1405 - DF = Revision A.003, 16Sep2009
7
Is the SOP current? By whom was the
SOP approved?
~ Yes
~ No
Ask for SOP before the trip.
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Question #
Item
Response
Comments
Are there any status warnings on the
front display of the instrument?
~ Yes
~ No
Describe:
TEOM 1405-DF
A
Example of no status warning
Example of a status warning
What is the filter loading in % on the
instrument?
PM2.5:.
PMc:
Ideally, the PM2.5 filter should be exchanged before it reaches 90%
and always before filter loading reaches 100%. If heavy loading is
expected or the operator may not be back to the site for a few days,
it is recommended to exchange filters above 70% loading.
The PMcoarse filter should be exchanged if at or above 25%.
PMcoarse is only applicable to the 1405-DF.
10
What is the "Noise" reading on the front
panel display of the instrument?
PM;
PMc:
Noise is the standard deviation of the change in frequency. The
noise should be <0.100. High noise may be explained by a filter not
being seated correctly on the TEOM, heavy loading on the filter, or a
status condition causing instability and erratic readings. From a
"best practice" standpoint it is very useful to graph the noise
channel. Again, PMc is only applicable to the 1405-DF.
11
What is the sample pump vacuum
pressure on the instrument?
Vacuum Pump
pressure:
Unit will trigger status warning when pressure is >0.750 for a non-
FDMS unit (TEOM only) and > 0.400 for an FDMS unit.
Note: For 1400 and 8500C units there is no internal tracking of this
pressure; however, we recommend use of an external vacuum
gauge.
Do the two inline filters at the back of
12 the instrument appear relatively
contamination free and working?
These filters prevent contamination from getting to the flow
controllers. They should be replaced at least every 6 months, or as
necessary.
Document the following key fields from
the front of the monitor's display. Note
13 any issues such as a negative mass
concentration, or flow or temperature
different than expected.
1. Last 1 - hour mass concentration:
2. Last 24 hour mass concentration:
3. Temperatures. These should be all the same; typically 50°Cfor a PM10 or PM2.5
TEOM without an FDMS and 30°Cfor any configuration of PM2.5 or PM 10-2.5
TEOM with an FDMS. Note: In some cases TEOMs without an FDMS are also
run at 30°C, such as in the winter when high volatile aerosol may be expected.
a. Case °C
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Question #
Item
Response
Comments
b.
c.
Air _
CAP
°C
°C
4.
5.
Main Q: 3.00 is expected.
Auxiliary Q: 13.67 is expected
If appropriate, have monitoring agency
14 staff person open TEOM filter. Inspect
area; are there any issues?
~ Yes
~ No
Are there spare TEOM filters
15 equilibrating, but not in use in the filter
area?
~ Yes
~ No
The two filters on the top side of the picture on
the left are the active TEOM filters for a 1405-
DF; the two filters on the bottom are TEOM
filters that are equilibrating and are therefore
not in use yet.
On an older TEOM unit, up to two spares may
be placed next to the active filter, which is
centered in the TEOM housing.
16
Is one or more TEOM exchange tools
available to change out TEOM filters?
~ Yes
~ No
While a minimum of one filter exchange
tool is expected; having two will allow
using one to take off the exposed filter
and one to seat the new TEOM filter. The
two TEOM exchange tools should each be identified so that the new
TEOM filters are only handled with the appropriate exchange tool.
17
FDMS UNITS ONLY - If appropriate, have
monitoring agency staff person open the
FDMS unit purge filter(s) cassettes and
inspect; are there any issues
PM2.5 FDMS units have one
purge filter.
PM 10-2.5 units have two purge
filters.
~ Yes
~ No
jFtlter
Hub filter cassette
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Question #
Item
Response
Comments
Cassettes should be blue thermo design with 47 mm Teflon filter
loaded in it. Look for excessive dirt on filters or uneven loading on
filters. Uneven loading may be a sign of pinholes or lack of
consistent seal.
18
Approximately how far is the sampling
pump placed away from the monitor? Is
the pump isolated so as to minimize
vibration to the monitor?
Distance:
Distance between the monitor and pump will help to minimize
vibration. Even placed a few feet away isolated on foam or rubber
mat will help.
~ Yes
~ No
19
Confirm that the three pronged
electrical plug is appropriately
grounding the unit.
~ Yes
~ No
One way to do this is to visually check the electrical box on the
outside of the shelter and see that an earth ground is leading from it.
20
If necessary, have steps been taken to
minimize condensation in the monitor?
~ Yes
~ No
1"*' £r
Insulate the sample tube extensions with pipe
insulation (note: this is not required)
Install coalescing filter in bypass line in high
humidity environments (also not required)
21
Describe any other issues with the
monitor.
22
Examine the Dryer Dew Point(s)
What are the
readings?
The 1405-DF has two dryers and therefore two readings; the 1405
and 8500C have one dryer. Dryer efficiency can be monitored by
tracking the dew point temperature of the dryers. On a 1405-DF
these are:
• TEOM A Dryer Dew Point
• TEOM B Dryer Dew Point
Items to review in the Firmware and data logger:
23
What version of software is identified on
the monitor?
Compare to firmware in Table 2 above.
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Question #
Item
Response
Comments
24
Is this version of software compliant
with firmware requirements for the
method identified in the "List of
Reference and Equivalent Methods"?
~
~
Yes
No
Note: It is not always necessary to upgrade to the latest firmware;
check manufacturer's web site for details.
25
How is the monitor connected to the
data logger?
~ RS-232 Cable
~ Analog cable
~ Other: please
explain
~ Not
connected to
data logger
RS-232 is preferred. Explain rationale if another option is being used
or if not connected.
Note: Ethernet is available in the 'ePort' firmware works, but if users
want to create own program the firmware is open source MYSQL.
26
Data Storage Variables - Although only
the FEM mass concentration variable is
required to be sent to the data logger,
the monitor can store from 8 to 20 PRC
codes (depends on electronics and
firmware) in the internal data storage of
the monitor.
The key question here is whether the
agency is using the internal data storage
to keep PRC codes? Such codes may be
useful to validate data at a later date.
Older TEOM units store up to up to 8 PRC codes. Below are recommended PRC codes
to store in the unit's internal memory. Note: There are no specific requirements for
which PRC codes must be logged other than the appropriate mass concentration.
PRC
Description
Units
008
Mass Concentration (MC)
Hg/m3
020
FEM mass concentration (FEM MC)
Hg/m3
104
Reference Mass Concentration (Ref MC)
Hg/m3
099
Sample Dew Point
°C
114
Ambient Dew Point
°C
035
Filter Loading
%
013
Noise
Hz-Hza
041
Status Condition
Code
Late Model TEOM units store up to 20 PRC codes. Although these units can store up to
20 PRC codes, having both a PM2.5 and PMc channel almost doubles the codes that are
tracked. Additional PRC codes of interest to log may include ambient temperature,
pressure, flow rates, and pump vacuum.
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Question #
Item
27
Observe the last hour reported on the
screen and compare this to data
reported at the station data logger; are
they the same?
Response
~ Yes
~ No
Comments
TEOM Data
System Status
Instrument
Conditions
Settings
A
TEOM Data
MC (pg/m*):
PM-2.5
119.38
PM Coarse
-1.56
117.82
30-Min MC (pg/rnJ):
0.00
0.00
0.00
1-Hr MC (jjg/m*):
0.00
0.00
0.00
8-Hour value (pg/m1):
0.00
0.00
0.00
12-Hr MC (pg/m*):
0.00
0.00
0.00
24-Hr MC (pg/m*):
0.00
0.00
0.00
Filter loading:
1.23 %
0.20 %
Frequency:
266.699/ Hz
251.5753 Hz
Noise:
0.004 pg
0.004 pg
Service
Fully operational Wanmnj(s)
m 07/00/2009 18£4
Typical 1405-DF front panel display.
Note: The last hour reported may not be available for a couple
minutes after the top of the hour; however, this data point
represents the previous hour at the start of the hour. For example
an updated value first posted at 10:02 am should represent the hour
from 9-10 am. This hour would be stored as hour 09:00 in the data
system.
Non-FEM units may be run with minute data (or other averaging
time) logged to the data logger rather than the hourly data. This is
acceptable in cases where the monitor is not an FEM.
Is the clock on the monitor set to run on
28 local standard time (i.e., not day light
savings time)?
~ Yes
~ No
Compare time on the monitor to time of
28 data logger; is there any difference in
time and if so how many minutes?
~ Yes
Min:
~ No
Note: In some cases monitors are purposefully set to have an offset
in the time reading. This is acceptable to ensure the latest reading is
interpreted by the data system to represent the previous hour.
30
Verify firmware settings and note any
discrepancies.
Flow control is set to "Actual Conditions" (unless a PMio monitor, which would report
data to STP).
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Question #
Item
Response
Comments
Main flow is set to 3.00 on a PM 2 5 channel. Note: In non-FEM cases a lower flow may
be set (e.g., 2.00 LPM); this is allowed, but not typically expected.
Temperature settings are set as expected: 50°C or 30°C.
31
Verify Sample Dew points are set to 4
degrees C.
In hot and or humid environments it may be permissible to have this
set point at 10°C
32
is the pump pressure monitored and
working properly?
~ Yes
~ No
Pump pressure
• Maintain less than 0.3 atm for proper performance of dryer
• Displayed on System screen in 1405-F/DF
• 1405-F/DF TEOM monitors will show alarm
if above 0.4 atm
• Monitor using external vacuum gauge on 8500C
33
If applicable, describe any other issues
in the firmware or data logger.
~ Yes
~ No
34
For 1400 and 8500C units, is there an
external vacuum gauge attached to the
pump used with the dryer?
~ Yes
~ No
This should read roughly 20" of vacuum. Late model units
incorporate sample vacuum in the design of the unit; therefore no
external vacuum gauge is expected.
Activities to review at monitor's inlet:
35
Is the PMio inlet a "pie pan" design?
~ Yes
~ No
1
r
%
Note: All PM2 5 continuous monitors nominally
operating at 16.7 Ipm should use the pie-pan inlet
design. Some PMio continuous FEM monitors and older
TEOMs (pre-FEM) may use the flat head inlet design.
36
Open the inside of the PMio inlet.
Describe the cleanliness of the inlet well.
Note: This should only be done with the sample pump temporarilly
shut off.
37
if expected, is the PM2.5 second stage
separator an approved VSCC?
1405-DF units use a virtual impactor for
PM2.5 separation.
~ Yes
~ No
•H
1
I'-
ll -
1
Z'*' -
Z>*Ji J.*
Notes:
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Question #
Item
Response
Comments
1. VSCC's and SCC's look very similar in design.
2. Also, there are two designs of the VSCC; however, all PM2.5
continuous monitors should use the design above (i.e.,
VSCC-A). The VSCC-B design is used with BGI samplers.
38
Open the VSCC. Describe the cleanliness
Note: This should only be done with the sample pump temporally
of the inside of the VSCC.
shut off.
Is there a gill screen or similar near the
inlet that is also connected to the PM
, A
39
Yes
Note: Some older TEOMs used use a small PVC pipe as a
shield for an ambient temperature sensor.
continuous monitor to provide an
ambient temperature reading?
No
II
40
Do the Inlet and down tube appear
perpendicular to the ground?
~
~
Yes
No
Best judgement is fine.
41
Describe any other issues at the
~
Yes
monitors' inlet.
~
No
Maintenance and QC Records to review:
Does the agency use an audit sheet for
~
~
Yes
No
Review audit sheets and/or logbook while on site to ensure
42
regular maintenance and verifications?
maintenance and verifications are performed at expected
Or logbook?
frequencies.
Yes
No
Monthly and auarterlv checks:
~
Flow check
Is there a record documenting that the
~
Temperature check
43
following checks are being performed at
~
~
Barometric Pressure
least monthly or quarterly, where
~
~
Leak check
identified?
~
~
PMio inlet is cleaned (at least quarterly)
~
~
VSCC or virtual impactor is cleaned
Yes
No
12-month checks:
~
~
When was the last time the dryer was refurbished or changed out?
44
Is there a record documenting that the
(Note:
These are to be changed out at least yearly; however, if the sample dew points
following checks are being performed at
cannot be maintained, the dryer may need to be changed out more often).
least every 12 months?
~
~
Clean down tube
~
~
Analog voltage audits, if applicable
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While on site, also perform the following:
1. Interview the operator and have routine procedures described.
2. Ask for documentation providing evidence that the flow standards being utilized by the operator and the agency's own auditor (these
are required to be separate devices) are NIST traceable and within certification. The Agency office may need to be contacted for these.
3. Communicate any items that can be addressed in the field without compromising data quality.
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