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Home My WebLink About#166 - 2012 Insp - final INSPECTION REPORT ROUTING SHEET To be attached to all inspection reports in-house only. Laboratory Cert. #: 166 Laboratory Name: Global Nuclear Fuel – Americas, LLC (GNF) Inspection Type: Industrial Maintenance Inspector Name(s): Todd Crawford and Jeff Adams Inspection Date: February 29, 2012 Date Report Completed: March 15, 2012 Date Forwarded to Reviewer: March 15, 2102 Reviewed by: Chet Whiting Date Review Completed: March 19, 2012 Cover Letter to use: Insp. Initial X Insp. Reg. Insp. No Finding __ Insp. CP___ Corrected Unit Supervisor: Dana Satterwhite Date Received: March 19, 2012 Date Forwarded to Linda: March 20, 2012 Date Mailed: March 20, 2012 _____________________________________________________________________ On-Site Inspection Report LABORATORY NAME: Global Nuclear Fuel – Americas, LLC (GNF) NPDES PERMIT # NC0001228, WQ0031317 ADDRESS: PO Box 780 Mail Code H-92 Wilmington, NC 28402 CERTIFICATE #: 166 DATE OF INSPECTION: February 29, 2012 TYPE OF INSPECTION: Industrial Maintenance AUDITOR(S): Todd Crawford and Jeff Adams LOCAL PERSON(S) CONTACTED: Dengwei (David) Huo and Shawn O’Connor I. INTRODUCTION: This laboratory was inspected to verify its compliance with the requirements of 15A NCAC 2H .0800 for the analysis of environmental samples. II. GENERAL COMMENTS: The laboratory was clean and well organized. The facility has all the equipment necessary to perform the analyses. A system of traceability for prepared reagents and standards was in place for the main lab, however, a system of traceability for purchased reagents and consumable supplies used for Field analyses needs to be initiated. The requirements associated with Findings B, J and L are new policies that have been implemented by our program since the last inspection. III. FINDINGS, REQUIREMENTS, COMMENTS AND RECOMMENDATIONS: Quality Control A. Finding: The thermometers in the drying oven and sample storage refrigerator have not been calibrated against a NIST certified or traceable thermometer in the past 12 months. Requirement: All thermometers and temperature measuring devices must be checked every 12 months against a NIST certified or NIST traceable thermometer and the process documented. To check a thermometer or the temperature sensor of a meter, read the temperature of the thermometer/meter against a NIST certified or NIST traceable thermometer and record the two temperatures. The calibration must be performed at a temperature that corresponds to the temperature used by the incubator, refrigerator, freezer, etc. In the case of temperature measuring devices used to perform variable temperature readings the calibration must be performed at a temperature range that approximates the range of the samples. The thermometer/meter readings must be less than or equal to 1ºC from the NIST certified or NIST traceable thermometer reading. The documentation must include the serial number of the NIST certified thermometer or NIST traceable thermometer that was used in the comparison. Also Page 2 #166 Global Nuclear Fuel – Americas, LLC (GNF) make any corrections to the data and document any correction that applies (even if zero) on both the thermometer/meter and on a separate sheet to be filed. • NIST traceable thermometers used for temperature measurement must be recalibrated in accordance with the manufacturer’s recalibration date. If no recalibration date is given, the NIST traceable thermometer must be recalibrated annually. • NIST certified thermometers must be recalibrated, at a minimum, every five years. A new certificate must be issued and maintained for inspection upon request. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. Documentation B. Finding: The laboratory needs to increase the documentation of purchased materials and reagents used for field analyses. Requirement: All chemicals, reagents, standards and consumables used by the laboratory must have the following information documented: Date received, Date Opened (in use), Vendor, Lot Number, and Expiration Date (where specified). A system (e.g., traceable identifiers) must be in place that links standard/reagent preparation information to analytical batches in which the solutions are used. Documentation of solution preparation must include the analyst’s initials, date of preparation, the volume or weight of standard(s) used, the solvent and final volume of the solution. This information as well as the vendor and/or manufacturer, lot number, and expiration date must be retained for primary standards, chemicals, reagents, and materials used for a period of five years. Consumable materials such as pH buffers, lots of pre-made standards and/or media, solids and bacteria filters, etc. are included in this requirement. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. C. Finding: Several instances of writing over a number as a means of error correction were observed in Sanitary Waste Treatment data. Requirement: All documentation errors must be corrected by drawing a single line through the error so that the original entry remains legible. Entries shall not be obliterated by erasures or markings. Wite-Out®, correction tape or similar products designed to obliterate documentation are not to be used. Write the correction adjacent to the error. The correction must be initialed by the responsible individual and the date of change documented. All data and log entries must be written in indelible ink. Pencil entries are not acceptable. Ref: North Carolina Wastewater/ Groundwater Laboratory Certification Policy. pH - Standard Methods, 18th Edition, 4500 H+ B D. Finding: Data values for pH are reported on the Discharge Monitoring Report to 0.01 S.U. instead of 0.1 S.U., as required by the method. Requirement: A variance of ± 0.1 pH unit represents the limit of accuracy under normal conditions, especially for measurement of water and poorly buffered solutions. For this reason, report pH values to the nearest 0.1 pH unit. Ref: Standard Methods, 18th Edition, 4500 H+ B. (6). Page 3 #166 Global Nuclear Fuel – Americas, LLC (GNF) pH - Standard Methods, 18th Edition, 4500 H+ B Dissolved Oxygen - Standard Methods, 18th Edition, 4500 O G E. Finding: The times that pH and DO meters are calibrated are not being documented. This is considered pertinent information. Requirement: All analytical data pertinent to each certified analysis must be filed in an orderly manner so as to be readily available for inspection upon request. Ref: 15A NCAC 2H .0805 (7) (A). F. Finding: The pH and DO meters used for field analyses are not labeled with their respective temperature correction factors. Requirement: All thermometers, or temperature sensing devices on field meters must meet NIST specifications for accuracy or must be calibrated against a NIST certified or NIST traceable thermometer annually (every 12 months) and proper corrections made and documented. A correction factor must be posted on the meter even if that correction factor is 0ºC. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. Dissolved Oxygen - Standard Methods, 18th Edition, 4500 O G G. Finding: The unit of measure is not documented on the benchsheets used for the Sanitary Waste Treatment facility. Requirement: All laboratories must use printed laboratory bench worksheets that include a space to enter the signature or initials of the analyst, date of analyses, sample identification, volume of sample analyzed, value from the measurement system, factor and final value to be reported and each item must be recorded each time samples are analyzed. The date and time BOD and Coliform samples are removed from the incubator must be included on the laboratory worksheet. Ref: 15A NCAC 2H .0805 (a) (7) (H). H. Finding: The time of the analysis is not documented on the benchsheet used for the Sanitary Waste Treatment facility. This is considered pertinent information. Requirement: Sample identification must be associated with the date and time of sample collection and analysis. The time elapsed between sampling and analysis must be documented to determine if hold times are met. Ref: North Carolina Wastewater/Groundwater Laboratory Certification memorandum dated June 20, 2007, “Required Documentation for Sampling Preservation and Hold Time”. Temperature - Standard Methods, 18th Edition, 2550 B I. Finding: The unit of measure is not documented on the benchsheets used for the Process Waste Treatment facility. Requirement: All laboratories must use printed laboratory bench worksheets that include a space to enter the signature or initials of the analyst, date of analyses, sample identification, volume of sample analyzed, value from the measurement system, factor and final value to be reported and each item must be recorded each time samples are analyzed. The date and time BOD and Coliform samples are removed from the incubator must be included on the laboratory worksheet. Ref: 15A NCAC 2H .0805 (a) (7) (H). Page 5 #166 Global Nuclear Fuel – Americas, LLC (GNF) Total Suspended Solids - Standard Methods, 18th Edition, 2540 D J. Finding: The laboratory is not basing the reporting limit on the minimum weight gain required by the method. Requirement: The minimum weight gain allowed by any approved method is 2.5 mg. Choose sample volume to yield between 2.5 and 200 mg dried residue. This establishes a minimum reporting value of 2.5 mg/L when 1000 mL of sample is analyzed. If complete filtration takes more than 10 minutes increase filter diameter or decrease sample volume. In instances where the weight gain is less than the required 2.5 mg, the value must be reported as less than the appropriate value based upon the volume used. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy based upon Standard Methods, 20th and 21st Editions, 2540 D. (3) (b). Comment: The facility was using a reporting limit of 10.0 mg/L based on a 500 ml sample. If 500 mL of sample is analyzed and < 2.5 mg of dried residue is obtained, the value reported would be < 5.0 mg/L. Ammonia Nitrogen - Standard Methods, 18th Edition, 4500 NH3 C K. Finding: Samples are not being distilled prior to analysis and no distillation study is on file. Requirement: The titration method requires all samples to be distilled. For all other methods, manual distillation is not required if comparability data on representative effluent samples are on file to show that this preliminary distillation step is not necessary; however, manual distillation will be required to resolve any controversies. In the case of low concentration effluents, the samples must be spiked to allow for a meaningful statistical comparison. It is recommended that samples with a concentration < 1.0 mg/L be spiked to yield a value in the 1 – 5 mg/L range. Comparisons performed in this concentration range should check within 20% RPD. Additional samples must be analyzed comparatively if the results do not indicate approximately the same values for distilled and undistilled samples. It is recommended that both the distilled and undistilled portions of the sample be analyzed by the same laboratory using the same methodology. The following frequencies are required: Municipal and Industrial Laboratories shall analyze initially four samples distilled and undistilled from each discharge and; thereafter, analyze two samples a year from each effluent. Submit analytical results for four samples, distilled and undistilled, from each discharge within 60 days of receipt of this report. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy based upon Code of Federal Regulations, Title 40, Part 136; Federal Register Vol. 72, No. 47, March 12, 2007; Table IB Footnote 6. Recommendation: It is recommended that the distilled and undistilled sample portions be analyzed by the same lab, using the same instrument, technology and methodology to minimize uncertainty introduced by the analysis, yielding a truer representation of the effect of matrix and the distillation process on sample results. L. Finding: The laboratory is not analyzing matrix spikes. Requirement: Unless the referenced method states a greater frequency, spike 5% of samples on a monthly basis. Laboratories analyzing less than 20 samples per month must analyze at least one matrix spike each month samples are analyzed. Prepare the matrix spike from a reference source different from that used for calibration unless otherwise stated in the method. If Page 4 #166 Global Nuclear Fuel – Americas, LLC (GNF) matrix spike results are out of control, the results must be qualified or the laboratory must take corrective action to rectify the effect, use another method, or employ the method of standard additions. When the method of choice specifies matrix spike performance acceptance criteria for accuracy, and the laboratory chooses to develop statistically valid, laboratory-specific limits, the laboratory-generated limits cannot be less stringent than the criteria stated in the approved method. If the unspiked sample result is in the top 40% of the calibration range, the sample should be diluted and the matrix spike prepared using the diluted sample. The recovery of the matrix spike samples must be bracketed by the calibration range.The volume of spike solution used in matrix spike preparation must in all cases be ≤ 10% of the total matrix spike volume. It is preferable that the spike solution constitutes ≤ 1% of the total matrix spike volume so that the matrix spike can be considered a whole volume sample with no adjustment by calculation necessary. If the spike solution volume constitutes >1% of the total sample volume, the sample concentration or spike concentration must be adjusted by calculation. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. M. Finding: A new calibration curve is not prepared for each new batch of Nessler reagent. Requirement: Redetermine complete calibration curve for each new batch of Nessler reagent. Ref: Standard Methods, 18th Edition, 4500 NH3 C. (4) (c). Metals – EPA Method 200.7 N. Finding: The laboratory is not analyzing matrix spikes. Requirement: The laboratory must add a known amount of each analyte to a minimum of 10% of the routine samples. In each case the Laboratory Fortified Matrix (LFM) aliquot must be a duplicate of the aliquot used for sample analysis and for total recoverable determinations added prior to sample preparation. For water samples, the added analyte concentration must be the same as that used in the laboratory fortified blank (Section 7.10.3). Ref: EPA Method 200.7 Rev. 4.4 (1994), Section 9.4.2. O. Finding: The laboratory is not analyzing a calibration blank immediately following the Instrument Performance Check (IPC) standard. Requirement: For all determinations the laboratory must analyze the IPC solution (Section 7.11) and a calibration blank immediately following daily calibration, after every 10th sample (or more frequently, if required) and at the end of the sample run. Ref: EPA Method 200.7 Rev. 4.4 (1994), Section 9.3.4. IV. PAPER TRAIL INVESTIGATION: The paper trail consisted of comparing field testing records and contract lab reports to Discharge Monitoring Reports (DMRs) submitted to the North Carolina Division of Water Quality. Data for Field parameters were reviewed for October, November and December, 2011. Data for metals were reviewed for January, February, May and October, 2011. No transcription errors were detected. The facility appears to be doing a good job of accurately transcribing data. Page 6 #166 Global Nuclear Fuel – Americas, LLC (GNF) V. CONCLUSIONS: Correcting the above-cited findings and implementing the recommendation will help this lab to produce quality data and meet certification requirements. The inspector would like to thank the staff for its assistance during the inspection and data review process. Please respond to all findings. Report prepared by: Todd Crawford Date: March 15, 2012 Report reviewed by: Chet Whiting Date: March 19, 2012