Transcript PM_and_QA
Guest Speaker: Brandy Toft Leech Lake Ojibwe 1 Overview of FRM/FEM/ARM status, requirements, and reporting QC (routine checks, audits, and methodspecific QC) for: ◦ Filter and Continuous PM2.5 ◦ Filter and Continuous PM10 Minivols General PM QC issues 2 3 If comparing to standard, MUST use FRM or FEM; see 40 CFR 50.7 ◦ Also look at Appendix C to 40 CFR Part 58 – Ambient Air Quality Monitoring Methodology You may have purposes other than comparing to NAAQS, and you may want different types of instruments to suit your goals Can use an FRM (class 1, filter-based), FEM class II (filter-based, like dichots), or FEM class III (continuous), or ARM (someday) 4 6 PM2.5 continuous methods have been approved as FEMs PM2.5 Continuous Monitoring http://www.epa.gov/ttn/amtic/contmont.html If PM2.5 continuous FEMs meet Part 53 criteria used to approve the instrument by comparing to collocated FRMs, EPA supports use of the continuous FEM as a Primary monitor (see spreadsheet for the calcs at above website) 5 Met One BAM-1020 Monitor – EQPM-0308-170 Thermo Scientific Model 5014i or FH62C14-DHS – EQPM-0609-183 Thermo Scientific Model 5030 SHARP – EQPM0609-184 Thermo Scientific Series 8500C FDMS – EQPM0609-181 Thermo Scientific 1405-DF FDMS – EQPM-0609182 GRIMM Model EDM 180 PM2.5 Monitor – EQPM0311-195 6 Method Code 170 Monitors Reporting to AQS – Nov. ‘10 67 Thermo 8500C FDMS 181 24 Thermo 1405-DF FDMS 182 1 Thermo 5014i or FH62C14-DHS 183 0 Thermo 5030 SHARP 184 2 GRIMM EDM 180 195 0 Method Description Met One BAM-1020 7 ARM = Approved Regional Method No ARMs yet Process of establishing an ARM is the same as an FEM, must collocate FRM and produce 90 + sample pairs per year with 20 ea season Regional office must approve (natch) 8 An approved FEM can be designated as primary The FEM can be collocated with FRM, the FRM being primary An ARM FEM can be approved (takes at least a year of operation to gather enough data, plus time for approval) Approved primary FEM or ARM would then report to AQS as 88101, POC 3 9 Method CFR Frequency MQO Flow Rate Verification (QC check) 3.2.3* Once every 4 weeks <= 4% of Standard & 5% of Design Value Semi-Annual Flow Rate Audit 3.2.4 Every 6 Months <= 4% of Standard & 5% of Design Value Collocated Sampling 3.2.5 15% of Network Every 12 Days PM2.5, TSP, PM10 : Precision = 10% PM2.5 PEP Program 3.2.7 Each quarter(see QA Requirements for NAAQS.xls) Bias = 10% •See e-cfr, or: http://www.ecfr.gov/cgi-bin/textidx?tpl=/ecfrbrowse/Title40/40tab_02.tpl 10 Method AQS Who? With What? Flow Rate Verification (not required to be reported to AQS) RP Can be site operator, no national certification required, not the same standards that are used to calibrate your analyzer Semi-Annual Flow Rate Audit RA Preferably not site operator, no national certification required, not the same standards that are used for monthly QC checks PM PEP RP, and contractor reports their values OAQPS/TAMS certified auditor OAQPS/TAMS equipment General info on filter methods in guidance doc 2.12: http://www.epa.gov/ttn/amtic/files/ambient/pm25/qa/m 212covd.pdf 11 Same CFR requirements for filter (FRM-17 methods) and dichot (2 methods) and continuous (6 methods), although there are separate validation templates for filter, continuous & dichot collocation: ◦ if <= 3 sites, at least 1 FRM collocated with one FEM ◦ 1/12 days for SLAMS, 1/6 for PSD PEP five times each year if fewer than 5 sites FR checks every 4 weeks(RP) with own stnd FR audit every 6 months(RA) with outside stnd 12 FRM are all filter-based methods (40 CFR 50 App. J) FEM includes continuous methods (40 CFR 53) BOTH can be compared to the NAAQS for PM10 (40 CFR 50.7) 13 Hi-vol (1130 lpm) method (used for TSP) with PM10 inlet that directs only PM10 to filter; guidance in EPA Handbook 2.11 Lo-vol sampling at 16.7 L/m; see EPA Handbook 2.10; can be either: ◦ Dichot method which split into PM2.5 and PM10; both filters are weighed ◦ Lo-vol sampler (R&P, Andersen, and BGI all approved as FRM PM10) Both handbooks at: http://www.epa.gov/ttn/amtic/qapollutant.html 14 TEOMs BAMs 15 Method CFR Frequency MQO Flow Rate Verification (QC check) LOW-VOL, 16.7 LPM 3.3.2 Once every <= 4% of Standard & 5% of 4 weeks Design Value Flow Rate Verification (QC check) HI-VOL, 1130 LPM 3.3.2 Once every <= 7% of Standard & 10% of quarter Design Value Semi-Annual Flow 3.3.3 Rate Audit LOWVOL Every 6 Months <= 4% of Standard & 5% of Design Value Semi-Annual Flow 3.3.3 Rate Audit HI-VOL Every 6 Months <= 10% of Standard & 10% of Design Value Collocated Sampling 15% of Network Every 12 Days Precision = 10% 3.3.1 (hi-vol or lo-vol doesn’t matter to the 15%) 16 Method Flow Rate Verification (QC check) CFR 3.2.3 Frequency MQO Once every <= 7% of Standard & 10% of 4 weeks design Semi-Annual Flow 3.2.4 Rate Audit Every 6 Months <= 10% of Standard & design Average Flow Rate Every 24 hours Average within 5% of design Not in CFR, just in validation template so is recommendation Plus whatever your instrument manuals call for. 17 Method AQS Frequency Who? With What? Flow Rate RP Verification (not required to be reported to AQS) Once every 4 weeks Can be site operator, no national certification required, not the same standards that are used to calibrate your analyzer Semi-Annual RA Flow Rate Audit Every 6 Months Preferably not site operator, no national certification required, not the same standards that are used for monthly QC checks 18 As for all PM, it all hinges on flow rate and careful filter handling 19 Laboratories! ◦ The TAMS Center laboratory provides exemplary reports; examples available for you to urge your lab to copy (see COC forms in zipped folder) ◦ Also ask for quarterly QC reports ◦ TAMS gravimetric services: http://www4.nau.edu/tams/services/filterlab.asp Flow rate standards must be verified annually, some guidance in Redbook http://www.epa.gov/ttn/amtic/qapollutant.html Data management (filters require chain of custody; see example COC forms for PEP program in session 7 folder ) 20 You may be using a non-FRM/FEM, so you can report to AQS using the non-regulatory guidance: http://www.epa.gov/ttn/airs/airsaqs/memos/Non%20Regulat ory%20Monitor%20Type%20Guidance.pdf Flow rate and pressure calcs are made easier with free program: http://www.unitconverterpro.com/ REPORT NEGATIVE VALUES: see your MDL in the table AQS_SplgMethodsFromToolbox.xls in session 7 folder: ◦ TEOMs MDL ranges from -10 to -50 ◦ BAMS MDL ranges from -10 to 4 mg/m3 21 22 23 It ALL hangs on flow rate PM2.5 PEP auditing necessary for NAAQS data Your instrument may be able to do “better” than validation criteria, see your spec sheets 24