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Home My WebLink AboutAQ_F_0100010_20111115_CMPL_InspRpt NORTH CAROLINA DIVISION OF Winston-Salem Regional Office AIR QUALITY Stericycle,Inc. NC Facility ID 0100010 Inspection Report County/FIPS: Alamance/001 Date: 11/16/2011 Facility Data Compliance Data Stericycle,Inc. Inspection Date 11/15/2011 1168 Porter Avenue Inspector's Name Alan Drake, Samir Parekh Haw River,NC 27258 Operating Status Operating Lat: 36d 3.9660m Long: 79d 20.9234m Compliance Code Compliance-inspection SIC: 4953/Refuse Systems Action Code FCE NAICS: 562213 /Solid Waste Combustors and Incinerators On-Site Inspection Result Compliance Contact Data Permit Data Facility Contact Authorized Contact Technical Contact Permit 05896/T19 Alan Skrzypczak Alan Skrzypczak Alan Skrzypczak Issued 5/26/2011 Facility Manager Facility Manager Facility Manager Expires 1/31/2016 (336)578-8901 (336)578-8901 (336)578-8901 Classification Title V Permit Status Active Inspector's Signature: .m Comments: CO CEMS certification RATA on Unit 2 Date of Signature: g DISCUSSION: On November 15, 2011, Samir Parekh and I(Alan Drake)met with Alan Skrzypczak,Plant Manager, and Don Nuss, Regional Environmental Manager, after signing in at the front office. After a brief meeting in the conference room, we took a facility tour to understand how they processed hospital waste shipped to their facility from nearby states. Stericycle incinerates by batch loading. They operate 24/7, incinerating 10 batches per hour with each batch weighing about 190 pounds. The weight scale will automatically lockout at 1910 lbs/hr to prevent a permit violation. We requested a copy of their hospital waste weight log for that hour(see attachment)to determine whether the facility was operating at normal load during the test. We also observed their data acquisition handling system(DAHS)and discussed their daily calibration process. The DAHS does not perform a daily automatic calibration but relies on a technician to initiate the process. Samir noticed that some daily calibrations were performed about 30 hours after the previous cal. We recommended that Stericycle perform their daily cals within 24-26 hours of each other. We requested a copy of recent CEMS daily calibrations (see attachment).We also recorded the serial/model numbers from the CO/02 CEMS (see attached DAQ Observer's checklist)and examined the daily calibration bottles for pressure and expiration date. One bottle's expiration date was unreadable but Mr. Skrzypczak(scrip-sack) later provided a gas certificate later(see attachment). We then proceeded to the test trailer where we met Jim Gray from Custom Stack Analysis. They were currently testing Unit 2 (Unit 1 would be tested on Wednesday)and were on Run 3. I recorded the tester's CO/02 CEMS serial/model numbers as well as their cal gas information(see attached DAQ Observer's Checklist). We could not read the serial number of the CO CEMS due to access but Mr. Gray said he could email it to me. We asked that they would include the interference test with their relative accuracy test audit(RATA) as well as the response time test(he said the response time was about one minute). Mr. Gray indicated they were performing a 3-point traverse and not the 12-point traverse in the protocol.He said that traverse was used in the protocol from the previous stack test at Stericycle. In order to observe Stericycle Inspection Report- 11/15/2011 Page 2 the test company pushing the sampling probe,we climbed a ladder and walked across a corrugated roof to the sampling port. [Note: it was suggested we walk on the corrugated ridges for more support but I found some of them to be flimsy.] There,we met Carlos, asked questions about the sampling system, and observed him pushing the probe after a 7-minute interval. We then returned to the test trailer and completed the checklist. Next,we returned to the DAHS area where Jim Gaspar demonstrated the facility's method for calculating a 12- hour rolling average.Mr. Gaspar used one-minute data that was ported from a Microsoft Access database into a Microsoft Excel spreadsheet. He then showed how a 720-minute block of CO data matched a 12-hour average calculated by the system. When asked how the system averaged data during daily calibration,Mr. Gaspar indicated it assumed the readings were zero and included them in the average. Mr. Skrzypczak indicated that it took about 15 minutes to perform a daily calibration. We expressed two concerns: 1) The 12-hour average should be based on 12 valid hours of data,with each 15-minute quadrant of each operating hour having at least one data point(we explained the exception for times of calibration and referred them to 40 CFR 60, Subpart A).Mr. Gaspar disagreed with an hourly average approach and felt that a 720- minute rolling average was acceptable. We agreed to look at the regulation later. 2) During times of calibration,zeroes cannot be used in the average calculation. After considerable discussion, Mr. Gaspar said the system could be changed to correctly calculate the hourly average and exclude zeroes during times of calibration. We moved our discussion to a conference room where we had our closeout meeting. Mr. Gaspar looked up the hourly average wording of the rule and agreed with us on its interpretation. He said that he should have the DAHS updated within two months. There was a short discussion on the use of backup CEMS. We indicated that a backup CEMS needed to be certified. Moreover, it needed to be certified on a specific incinerator. Stericycle felt they should be allowed to have one backup that could be used on either incinerator. Although we said it could not,they asked us check for any exceptions. We did not have any stack testing issues, and aside from the DAHS issues,the facility appeared to be in compliance with the CEMS portion of the permit. A final determination will be made after the RATA is reviewed. PERMITTED EMISSION SOURCES: Emission Emission Source Description Control Control Device Description Source Device ID No. ID No. ESO1 dual chamber hospital,medical and CDO1 one packed bed scrubber and infectious waste incinerator(HMIWI) CD03 associated quench column in series firing natural gas(4.6 million Btu/hr with venturi scrubber equipped with a primary chamber burner and 6.0 mist eliminator million Btu/hr secondary chamber burner) ES02 dual chamber hospital,medical and CD02 one packed bed scrubber and infectious waste incinerator(HMIWI) CD04 associated quench column in series firing natural gas(4.6 million Btu/hr with venturi scrubber equipped with a primary chamber burner and 6.0 mist eliminator million Btu/hr secondary chamber burner) EGO diesel-fired emergency generator(395 N/A N/A MACT kW) ZZZZ 2 NC DAQ Source Test Observers Checklist Reference Method CEM Testing Facility Name/Location : -12 Facility Contact/Phone Testing Firm/Contact: `2cat f Permit#/Source Tested: �TA (j Applicable Regulation/Pollutant: Ce Z-V Process Data/Production Rate (s (e reverse side): Sample Date/Time:Run I Run 2 Run 3 Ask for an explanation to any question answered"No"and attach comments to th-1s7o—rm Method I - Sample and Velocity Traverses for Stationary Sources YES NO 1.1)Method I calculated correctly(see reverse side)? 1.2)Cyclonic flow check completed? (Average of absolute value of all angles<20 degrees?) Method 2 -Determination of Stack Gas Velocity and Volumetric Flow Rate YES NO 2.1)Pitot tube leak check completed after each run? 2.2)Visual check of pitot tube heads-good condition? 2.3)Manometer level and zeroed correctly? 2.4)Static pressure measured during the test day? 2.5)Barometric pressure recorded and adjusted for elevation?(see reverse side) 2.6)Pitot tube heads oriented to axis of flue?/Pitot tube perpendicular to axis of stack? 2.7)Temperature recorded at each sampling point? Method 3 - Gas Analysis for 02, CO2,and Dry Molecular Weight YES NO Skip this section'fo2&CO,concentrations we determined via analyzers. 3.1)Orsat or Fyrites used?(circle) 3.2)Orsat performed in triplicate?Analysis consistent? Method 4 -Determination of Moisture Content in Stack Gases YES NO'- 4.1)Impingers used or some other type of condenser? Multi point sample? 4.2)H2O in first 2 impingers,3rd impinger empty,silica gel in 4th impinger? 4.3)Temperature at the exit of impingers/condenser<68F?(see reverse side) 4.4)Silica gel in good conditio Pink-spent(unable to absorb more jjQj—, CEM Methods: ethod!A CO2, M6C-SO2, M7E- 0,J,M10-CO YES NO 2 5.1) System leak check performed during test day?(not required per method but good Q.A.) 5.2) Sample point w/in centroid of stack(compliance test)? -3 5.3)Sample conditioner/dryer used? 5.4)Heated sample line used prior to sample conditioner? 5.5)Moisture visible in the sample line? (Do not explain a"No") 5.6)Filter used: "In stack"or"heated out of stack" 5.7) Sample system flow rates within 10%of calibration flowrates? r-, c 5.8)All concentration measurements below the span value for that pollutant? �77 Strip chart /other (circle one) 5.9)Data Recorden4��i 7- 5.10)NO,monitoring:NO,to NO convertor operating?Total NO.,being analyzed? 5.11)Calibration Error Check performed for all analyzers and within specifications(2%of span)? 5.12)System Bias Check performed for each analyzer before the first run,between each run,and after the last run?--t" j -41 5.13)Test team monitoring analyzer zero drift and calibration drift between each run? — —, r, /, 1 11 \j The following page(front/back)should be completed to the extent possible. The data may be transferred from print outs provided by the tester. Preferably,the calibrations should be viewed at the time they are performed to assure monitor stability and correct flowrates for each calibration gas. v cz a� f a.� w m, e / , A {y ?t t ip .,. .0 3 E� tt s " I I �V, a CEM % Calibration Gas Ranges Calibration Gas Values Gas Manufacturer&Cylinder# ' Protocol 1 Expiration Page 1/2 1 gas? Date OK? 02 0-10% 0-10% N2 or other non-'02 gas Span: 40-60% i ut g, 80-100% COZ 0 0 NZ or other non CO,gas Span: 40-60% 80-100% SOZ 0 0 NZ or other non-SO,gas Span: 40-60% 80-100%' NOg 0 0 N2 or other non-NO,gas Span: 40-60% 80-100% CO 0 0 N2 or other non-CO gas Span: —30% —Span To calculate cylinder gas range,multiply span by corresponding percentage(0.4*span,0.6*span). The calibration gas to be used shall fall within these values. CO gases do not need to be exactly 30%,60%,and span,but should approximate the percentages. For CO testing,the"Span'gas value can be considered 80-100%of the calibrated span. Method 10 for carbon monoxide has slight variations from method 6c,but most test companies perform CO testing to method 6c requirements. 11/15/2011 9:OOAM 4038800754100100AC6D4 1 -NCHRSWS01 22.70 11/15/2011 9:OOAM 4038800754100100AC6D1 1 - NCHRSWS01 32.80 11/15/2011 9:01AM 4038800754100100AC6DO 1 -NCHRSWS01 30.60 11/15/2011 9:01AM 4210818072300100AOHUE 1 - NCHRSWS01 42.80 11/15/2011 9:01AM 4210818072300100AOHUD 1 - NCHRSWS01 46.50 11/15/2011 9:01AM 4210818072300100AOHV7 1 - NCHRSWS01 9.40 11/16/2011 9:02AM 4210818072300100AOHUR 1 - NCHRSWS01 45.70 11/15/2011 9:02AM 4022806489700100AASJ4 1 - NCHRSWS01 13.40 11/15/2011 9:02AM 4022806489700100AAS15 1 - NCHRSWS01 42.40 11/15/2011 9:02AM 4022806489700100AASJK 1 - NCHRSWS01 20.40 11/15/2011 9:02AM 4022806489700100AAS17 1 - NCHRSWS01 21.50 11/15/2011 9:02AM 4038800754100100AC6DL 1 - NCHRSWS01 11.00 11/16/2011 9:02AM 4038800754100100AC6D1 1 - NCHRSWS01 28.50 11/15/2011 9:02AM 4038800754100100AC6DF 1 - NCHRSWS01 32.10 11/15/2011 9:03AM 4038800754100100AC6DN 1 - NCHRSWS01 41.90 11/15/2011 9:03AM 4210818072300100AONEA 1 - NCHRSWS01 15.40 11/15/2011 9:03AM 4210818072300100AONE9 1 - NCHRSWS01 9.40 11/15/2011 9:03AM 4210808270300100A22WQ 1 - NCHRSWS01 16.50 11/15/2011 9:03AM 4210818072300100AOHV8 1 - NCHRSWS01 10.70 11/15/2011 9:03AM 4022806489700100AASIR 1 - NCHRSWS01 33.70 11/15/2011 9:03AM 4022806489700100AASJH 1 - NCHRSWS01 75.20 11/15/2011 9:03AM 4022806489700100AAS16 1 - NCHRSWS01 48.60 11/15/2011 9:04AM 4022806489700100AASIX 1 - NCHRSWS01 73.30 11/15/2011 9:04AM 4038800754100100AC6DK 1 - NCHRSWS01 12.20 11/15/2011 9:04AM 4038800754100100AC6DH 1 - NCHRSWS01 28.20 11/15/2011 9:04AM 4038800754100100AC6DE 1 - NCHRSWS01 30.90 11/15/2011 9:04AM 4038800754100100AC6DM 1 - NCHRSWS01 77.70 11/15/2011 9:05AM 4210818072300100AOHUQ 1 - NCHRSWS01 40.60 11/15/2011 9:05AM 4210808270300100A2004 1 - NCHRSWS01 20.60 11/15/2011 9:05AM 4210818072300100AOHUP 1 - NCHRSWS01 14.00 11/15/2011 9:05AM 4022806489700100AASIF 1 - NCHRSWS01 39.00 11/15/2011 9:05AM 4022806489700100AASIB 1 - NCHRSWS01 50.30 11/15/2011 9:06AM 4022806489700100AASIG 1 -NCHRSWS01 49.60 11/15/2011 9:06AM 4022806489700100AASIP 1 - NCHRSWS01 38.10 11/15/2011 9:06AM 4038800754100100AC6DJ 1 - NCHRSWS01 31.90 11/15/2011 9:06AM 4038800754100100AC6DG 1 - NCHRSWS01 17.90 11/15/2011 9:06AM 4038800754100100AC6DD 1 - NCHRSWS01 11.50 11/15/2011 9:07AM 4038800754100100AC6E0 1 - NCHRSWS01 17.80 11/15/2011 9:07AM 4210813717200400A05AH 1 - NCHRSWS01 17.20 11/15/2011 9:07AM 4210813717200400A05AE 1 - NCHRSWS01 12.40 11/15/2011 9:07AM 4210813717200400A05AO 1 - NCHRSWS01 12.80 11/15/2011 9:11AM 4210818072300100AOLUE 1 - NCHRSWS01 30.60 11/15/2011 9:11AM 4210813717200400A05AL 1 - NCHRSWS01 13.70 11/15/2011 9:12AM 4038800754100100AC6DX 1 - NCHRSWS01 13.60 11/15/2011 9:12AM 4038800754100100AC6DU 1 - NCHRSWS01 32.90 11/15/2011 9:12AM 4022806489700100AASHJ 1 - NCHRSWS01 23.30 11/15/2011 9:12AM 4022806489700100AASHX 1 - NCHRSWS01 28.30 11/15/2011 9:12AM 4022806489700100AASHT 1 - NCHRSWS01 54.70 11/15/2011 9:13AM 4022806489700100AASHQ 1 - NCHRSWS01 61.70 11/15/2011 9:13AM 4038800754100100AC6DZ 1 - NCHRSWS01 8.60 11/15/2011 9:13AM 4038800754100100AC6DW 1 - NCHRSWS01 14.80 11/15/2011 9:13AM 4038800754100100AC6DT 1 - NCHRSWS01 4.30 11/15/2011 9:13AM 4038800754100100AC6DQ 1 - NCHRSWS01 6.20 11/15/2011 9:14AM 4210813717200400A05AF 1 - NCHRSWS01 10.60 11/15/2011 9:14AM 4210813717200400A05AD 1 - NCHRSWS01 12.50 11/15/2011 9:14AM 4210813717200400A05AK 1 - NCHRSWS01 10.20 11/15/2011 9:14AM 4210813717200400A05AN 1 -NCHRSWS01 9.60 11/15/2011 9:14AM 4038800754100100AC6DY 1 - NCHRSWS01 14.80 11/15/2011 9:14AM 4038800754100100AC6DV 1 - NCHRSWS01 11.40 11/15/2011 9:15AM 4210818072300100A0006 1 - NCHRSWS01 20.30 11/15/2011 9:17AM 4022806489700100AASI1 1 - NCHRSWS01 13.70 11/15/2011 9:18AM 4022806489700100AASIK 1 - NCHRSWS01 39.70 11/15/2011 9:18AM 4022806489700100AASIQ 1 - NCHRSWS01 34.60 11/15/2011 9:18AM 4022806489700100AASIS 1 - NCHRSWS01 29.00 11/15/2011 9:19AM 4038800754100100AC6DS 1 - NCHRSWS01 51.00 total: 1797.3 CEMCalibrations 11/15/2011 TheDate COSpanRes ExpCOSpan COSpan%Drift 02SpanRes Exp02S'pan 02SpanDrift COZeroRes 11/1/20116:59:05 AM 162 161.4 0.2 8.9 9 0.1000004 1 11/2/201110:04:25 AM 162 161.4 0.2 8.8 9 0.1999998 1' 11/3/20116:55:04 AM 162 161.4 0.2 8.8 9 0.1999998 1` 11/4/20116:52:16 AM 162 161.4 0.2 8.8 9 0.1999998 1 11/5/2011 10:55:46 AM 162 161.4 0.2 8.8 9 0.1999998 1 11/6/201112:18:45 PM 162 161.4 0.2 8.7 9 0.3000002 1I 11/7/20116:55:11 AM 164 161.4 0.8666667 8.9 9 0.1000004 1 11/8/20116:55:32 AM 164 161.4 0.8666667 8.9 9 0.1000004 1 11/9/20117:05:18 AM 162 161.1 0.3 8.8 8.998 0.1979998 1' 11/10/20117:23:53 AM 162 161.1 0.3 8.8 8.998 0.1979998 1 11/11/20117:02:45 AM 163 161.1 0.6333333 8.8 8.998 0.1979998 1' 11/12/20116:49:12 AM 163 161.1 0.6333333 8.8 8.998 0.1979998 1` 11/13/20118:40:12 AM 163 161.1 0.6333333 8.8 8.998 0.1979998 1 11/14/20112:18:46 PM 161 161.1 0.03333334 8.7 8.998 0.2980002 1 Page 1 CEMCalibrations 11/15/2011 COZero%Drift O2ZeroRes O2ZeroDrift 0.3333333 2 0.02' 0.3333333 2 0; 0.3333333 2 0' 0.3333333 2 0' 0.3333333 2 0 0.3333333 2 0' 0.3333333 2 0 0.3333333 2 0' 0.3333333 2 0' 0.3333333 2 0' 0.3333333 2 0 0.3333333 2 0'i 0.3333333 2 0' 0.3333333 2 0' Page 2 FROM CTUE)NOV 15 2011 12:04/ST. 12:03ZN—7S3S476915 P 3 Airgas . National w8wers'm Airgas National Welders 4W Indwry Lane Duftm,NC 27713 (919)544.3772 CERTIFICATE OF ANALYSIS w,vx,.augas.com CERTIFIED MIXTURE Customer: Airgas National Welders Reference#: 88-123250 Colfax, NC Cylinder#: CC114256 Order#: 8610553 Date Reported: 3/24/2011 Product Code: 721295 Fill Pressure: 2000 PSIG CGA: 580 Expiration Date: 3/24/2014 Concentration/ Analytical Component Specification *Cert. Accuracy Method Oxygen 2% 2.000% +/-2% Paramagnetic Balance- Nitrogen Analyst o Yoder "CERTIFICATION ACCURACY IS A PERCENTAGE(+/-)OF THE COMPONENT 'THIS REPORT STATES ACCURATELY THE RESULTS OF THE INVESTIGATION MADE UPON THE MATERIAL SUBMITTED TO THE ANALYTICAL LABORATORY, EVERY EFFORT HAS BEEN MADE TO DETERMINE OBJECTIVELYTHE INFORMATION REQUESTED;HOWEVER,IN CONNECTION WITH ITS RENDERING OF THIS REPORT, AIRGAS NATIONAL WELDERS SHALL HAVE NO LIABILITY IN EXCESS OF THE ESTABLISHED CHARGE FOR THE SERVICE. ANW0201a9K