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Home My WebLink AboutNC0020656_Lab Inspection_20100609ArA NCDENR North Carolina Department of Environment and Natural Resources Division of Water. Quality Beverly Eaves Perdue Coleen H. Sullins Governor Director June 9, 2010 133 Mr. Robert Ellis Leith Creek WWTP Lab. P.O. Box 249 Laurinburg, NC 28353-0249 Dee Freeman Secretary Subject: North Carolina Wastewater/Groundwater Laboratory Certification (NC WW/GW LC) Maintenance Inspection Dear Mr. Ellis: Enclosed is a report for the inspection performed on April 28, 2010 by Ms. Tonja Springer and Mr. Chet Whiting. Where finding(s) are cited in this report, a response is required. Within thirty days of receipt, please supply this office with a written item for item description of how these finding(s) were corrected. If the finding(s) cited in the enclosed report are not corrected, enforcement actions may be recommended. For certification maintenance, your laboratory - must continue to carry; out the requirements set forth in 15A NCAC 2H .0800. Copies of the checklists completed during the inspection may be requested from this office. Thank you for your cooperation during the inspection. If you wish to obtain an electronic copy of this report by email or if you have questions or need additional information, please contact us at 919-733-3908. Dana Satterwhite Certification Unit Supervisor Laboratory Section Enclosure cc: Tonja Springer Fayetteville Regional Office DENR DWQ Laboratory Section NC Wastewater/Groundwater Laboratory Certification Branch 1623 Mail Service Center, Raleigh, North Carolina 27699-1623 Location: 4405 Reedy Creek Road. Raleigh, North Carolina 27607-6445 Phone: 919-733-39081 FAX: 919-733-6241 Internet: www.dwglab.org An Equal Opportunity \Affirmative Action Employer Customer Service: 1-877-623-6748 www,ncwaterquality.org DENR-FRO PUN1.:62010 DVUQ NorthCarolina Naturally LABORATORY NAME: NPDES PERMIT #: MAILING ADDRESS: CERTIFICATE #: DATE OF INSPECTION: TYPE OF INSPECTION: AUDITOR(S): LOCAL PERSON(S) CONTACTED: I. INTRODUCTION: On -Site Inspection Report Leith Creek WWTP Lab NC0020656 P.O. Box 249 Laurinburg, NC 28353-0249 133 April 28, 2010 Municipal Maintenance Tonja Springer and Chet Whiting Robert Ellis and Ricky Odom 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 lab was clean and well organized. The requirements associated with Findings A, E, F, G, H, I, J, K, and M and are new since the last inspection. An Amendment to Laboratory Certification Application was completed at the time of the inspection to add Total Residual Chlorine (Standard Methods 4500 CI G) and remove Settleable Residue and Turbidity from the laboratory's certificate attachment. III. FINDINGS, REQUIREMENTS, COMMENTS AND RECOMMENDATIONS: General A. Finding: Several instances of writing over a number as a means of error correction were observed and indelible ink was not used for some of the data entries. Requirement: All documentation errors must be corrected by drawing a single line through the errorso that the original entry remains legible. Entries shall not be obliterated by erasures or ,. ma'rkings., 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 muiniejnitiOed 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. Conductivity — Standard Methods, 18th Edition, 2510 B Comment: The meter is calibrated with three standards and they are read back like samples. It is recommended that the header be modified to read "cal/read" (Le., calibration/reading). Page 2 #133 Leith Creek WWTP Lab — Standard Methods, 18th Edition, 4500 H+ B Dissolved Oxygen — Standard Methods, 18th Edition, 4500 0 G Temperature — Standard Methods, 18th Edition, 2550 B Comment: Samples are analyzed in -situ but two times (for sample collection and analysis) are documented. If samples are analyzed in situ a statement can be documented at the bottom of the benchsheet to indicate the sample collection and sample analysis times are the same and analysts may record only one time. pH —Standard Methods, 18th Edition, 4500 H+ B Dissolved Oxygen — Standard Methods, 18th Edition, 4500 0 G Temperature — Standard Methods, 18th Edition, 2550 B Conductivity — Standard Methods, 18th Edition, 2510 B B. Finding: Temperature corrections are not posted on the meters. Requirement: Document any correction that applies (even if zero) on both the thermometer and meter and on a separate sheet to be filed. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. pH - Standard Methods, 18th Edition, 4500 H+ B C. Finding: The three pH- calibration buffers are read back like a sample and documented, but the calibration of the pH meter is not documented. Requirement: Supporting records shall be maintained as evidence that these practices are being effectively carried out. All analytical records must be available for a period of five years. Ref: 15A NCAC 2H .0805 (a) (7) and (a) (7) (G). Ammonia Nitrogen — Standard Methods, 18th Edition, 4500 NH3 F D. Finding: A distillation comparison study was performed on the influent samples but not on the effluent. 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. 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 1 B Footnote 6 . (See attached document titled Ammonia/Fluoride Distillation Studies for guidance) Recommendation: When performing the distillation study, it is recommended that the, lab spike effluent samples with concentrations < 1.0 mg/L to yield measured values in the 1 — 5 mg/L range. E. Finding: Two mL of Ionic Strength Adjuster (ISA) solution is being used to elevate the sample pH to above 11, but the volume is not documented. Requirement: Record volume of 10N NaOH added in excess of 1 mL. Ref: Standard Methods, 18th Edition, 4500-NH3 F. (4) (e). Comment: The ISA solution is used in place of the 10N NaOH solution. Page 3 #133 Leith Creek VWVTP Lab Comment: When the volume of 10N NaOH used for the samples is different than that used for the calibration standards, this must be compensated for in the following calculation: mg NH3— N/L =AxBx (100 + D) (100 + C) A= Dilution Factor B= Concentration of NH3-N/L, mg/L, from calibration curve C= Volume of 10N NaOH added to the calibration standards, mL D= Volume of 10N NaOH added to sample, mL F. Finding: After the addition of the ISA, the pH is not documented to be greater than 11. Requirement: Add a sufficient volume of 10N NaOH solution (1 mL usually is sufficient) to raise pH above 11. Ref: Standard Methods, 18th Edition, 4500-NH3 F. (4) (b). Requirement: Supporting records shall be maintained as evidence that these practices are being effectively carried out. Ref: 15A NCAC 2H .0805 (a) (7). Comment: If the sample turns blue, it is assumed that the pH is above 11. A check box on the benchsheet to indicate this will satisfy this requirement. G. Finding: A calibration blank and calibration verification standard are not being analyzed at the end of the run. Requirement: The calibration blank and calibration verification standard (mid -range) must be analyzed initially (i.e., prior to sample analysis), after every tenth sample and at the end of each sample group to check for carry over and calibration drift. If either fall outside established quality control acceptance criteria, corrective action must be taken (e.g., repeating sample determinations since the last acceptable calibration verification, repeating the initial calibration, etc.). Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy based upon Standard Methods, 20tt' Edition, 1020 B. (10) (c), 3020 B. (2) (b), and 4020 B. (2). H. 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 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. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. (See attached document titled Matrix Spiking Policy and Technical Assistance for guidance) Total Residual Chlorine — Standard Methods, 18th Edition, 4500 CI G Comment: Samples are analyzed in a field setting. A field setting is defined as: A location off the primary facility grounds and/or at such a distance that sample collection and analysis could not be Page 4 #133 Leith Creek WWTP Lab achieved at the primary facility within the parameter holding. time (Le., 15 minutes). .Therefore, sealed standards (liquid or "Gel -type") may be used for the daily standard curve verification. (See attached document titled Guidance on Gel Standard Verification for guidance) Comment: The range of the annual curve verification was 10 - 500 pg/L. The facility has a permit limit of 28 µg/L. It is recommended that when the annual verification curve is done againto use the following concentrations: 25, 30, 50, 200, and 400 µg/L. Suspended Residue - Standard Methods, 18ti' Edition, 2540 D I. Finding: A minimum dried residue weight gain of 1 mg is used to determine the reporting limit. Requirement: Choose sample volume to yield between 2.5 and 200 mg dried residue. If volume filtered fails to meet minimum yield, increase sample volume up to 1 L. If complete filtration takes more than 10 minutes increase filter diameter or decrease sample volume. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy based upon Standard Methods, 20th and 21 st Editions, 2540 D. (3) (b). Comment: Since the publication of the Code of Federal Regulations; Title 40, Part 136; Federal Register Vol. 72, No. 47, March 12, 2007, there is no longer an approved method that allows for a 1 mg weight gain! -Currently, the minimum weight gain allowed is 2.5 mg. In instances where the weight gain is Tess than the required 2.5 mg, the value must be reported as less than the appropriate value based upon the volume used. For example, if 500 mL of sample is analyzed and < 2.5 mg of dried residue is obtained, the value reported would be .< 5' mg/L. The minimum reporting value is now established at 2.5 mg/L based upon a sample volume used of 1000 mL. J. Finding: Filters are not weighed to a constant weight after initial washing nor is a dry filter blank analyzed with each set of samples. Requirement: If pre -prepared filters are not used, the method requires that filters must be weighed to a constant weight after washing. In lieu of this- process, it is acceptable to analyze a single daily dry filter blank (i.e., no additional rinsing during the analysis). The acceptance criterion for the -blank is a weight change of Tess than 4% of the filter's initial weight or 0.5 mg, whichever is less. Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy based upon Standard Methods, 20th Edition, 2540 D. (3) (a). Finding: The analytical balance weights have not been verified against ASTM standard weights. Requirement: ASTM Class 1 and 2 weights must be verified at least every 5 years. ASTM Class 1 weights (20 g to 25 kg) and ASTM Class 2 weights (10 g to 1 mg) are equivalent to the NBS Class S weights specified in 15A NCAC 2H .0805 (a) (7) (K). Ref: North Carolina Wastewater/Groundwater Laboratory Certification Policy. (See attached document titled Weight Verification for guidance) Fecal Coliform — Standard Methods, 18th Edition, 9222 D L. Finding: -No comparison test is conducted before a new lot of media and filters are put into use. Requirement: When a new lot of culture medium, membrane filters or a new source of reagent -grade water is to be used, make comparison tests of the current lot in use (reference Page 5 #133 Leith Creek VVWTP Lab lot) against the new lot (test lot). As a minimum, make single analyses on five positive samples. Ref: Standard Methods, 18th Edition, 9020 B. (3) (d). Recommendation: It is recommended that the comparison tests be performed with a -culture positive sample that will yield the desired 20 to 60 colonies. The culture positive sample should be analyzed the day prior to the comparison testing to determine the appropriate dilution to yield 20 — 60 colonies. Fecal Coliform — Standard Methods, 18th Edition, 9222 D Suspended Residue — Standard Methods, 18th Edition, 2540 D M. Finding: The laboratory needs to increase the documentation of materials and reagents used or made in the laboratory as well as procedures for standard and reagent preparation. 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. Biochemical Oxygen Demand — Standard Methods, 18th Edition, 5210 B Recommendation: Many of the initial Dissolved Oxygen (DO) values observed during the data review were in the range of 9.0 mg/L. While this is still within the acceptance criterion stated in the method, it is at or near the maximum allowable saturation. It is recommended that samples near saturation be vigorously shaken to remove the excess oxygen. Recommendation: Many instances were observed where the seed corrections were in the range of 0.5 mg/L DO uptake. It is recommended that the laboratory adjust the amount of seed in an attempt to raise the seed correctionsso that they fall within the optimum range of 0.6 — 1.0 mg/L DO uptake. This would help to reduce the number of instances where the correction is below the optimum range. Vector Attraction Reduction — Option 4: Specific Oxygen Uptake Rate Comment: The Specific Oxygen Uptake Rate (SOUR) test must be conducted at the same temperature that the digester is operating. The SOUR test must be temperature corrected to an equivalent 20 °C value. The temperature correction equation is as follows: SOUR20 = SOURT X 2(20-1) where: T = sludge temperature in degrees Celsius 2 = 1.05 above 20°C 2 = 1.07 below 20°C The Land Application Unit in the Division of Water Quality Aquifer Protection Section has a spreadsheet thatcan be used to calculate the SOUR test. This spreadsheet can be found at: http://portal. ncdenr. orq/web/wq/aps/Iau/reporti nq Page 6 #133 Leith Creek WWTP Lab IV. PAPER TRAIL INVESTIGATION: The paper trail consisted of comparing laboratory bench sheets and contract lab reports to Discharge Monitoring Reports (DMRs) submitted to the North Carolina Division of Water 'Quality: Data were reviewed for February and March, 2010. The following error was noted: Date Parameter' Location Value on Benchsheet Value on DMR 2/22/2010 Total Residual Chlorine Effluent 12 µg/L 15 µg/L In order to avoid questions of legality, it is recommended that you contact the appropriate Regional Office for guidance as to whether an amended Discharge Monitoring Report will be required. A copy of this report will be forwarded to the Regional Office. V. CONCLUSIONS: Correcting the above -cited findings and implementing the recommendations 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: Tonja Springer Date: June 4, 2010 Report reviewed by: Jason Smith Date: June 8, 2010 AMMONIA/FLUORIDE DISTILLATION STUDIES (NC WW/GW LC Policy 01/15/2009) 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. Commercial Laboratories shall analyze initially at least six samples distilled and undistilled, but at least two samples from all waste types. Analyze one sample distilled and undistilled yearly from all wastes types. Ref: North Carolina Wastewater/Groundwater Laboratory Certification (NC WW/GW LC) Policy, 01/15/2009; based upon Code of Federal Regulations, Title 40, Part 136; Federal Register Vol. 72, No. 47, March 12, 2007: Table 1 B Footnote 6. Guidance on Gel standard verification: Purchased Gel -type or sealed liquid ampoule standards may be used for daily calibration verification only. These standards must be verified initially and every 12 months thereafter, with the standard curve. Note: It is only necessary to verify the gel or sealed liquid standard which falls within the concentration range of the curve used to measure sample concentrations. For example, if you are measuring samples against a low range curve, a 200 pg/L standard would be verified, and not the 800 pg/L standard since the 800 standard would be measured using a high range curve. Immediately. following curve verification: 1. Zero the instrument with the gel blank. 2. Read and record gel standard values. 3. Assign the obtained values as the true value. The assigned values will be used for the next twelve months, or until a new curve verification is performed. The gel/liquid standard verification must be performed for each instrument on which they are to be used. If multiple instruments and/or standard sets are used, each must have assigned values specific for the instrument and standard set. Some commercial laboratory facilities may be able to provide assistance with the field photometric meter curve verifications. North Carolina Wastewater/Groundwater Laboratory Certification Matrix Spiking Policy and Technical Assistance (4/6/2010) Policy Statement 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 (MS) each month samples are analyzed. Prepare the MS from a reference source different from that used for calibration unless otherwise stated in the method. If MS 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 MS 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. When spiking with multi -component standards, if the method does not specify the spiking components, the Laboratory Control Spike (LCS) and MS must contain all analytes that are reported. If the unspiked sample result is in the top 40% of the calibration range, the sample should be diluted and the MS prepared using the diluted sample. The recovery of the MS samples must be bracketed by the calibration range. The volume of spike solution used in MS preparation must in all cases be <_ 10% of the total MS volume. It is preferable that the spike solution constitutes <_ 1% of the total MS volume so that the MS 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. Technical Assistance Spike Preparation The spike concentration may be set at either 5 to 50 times the Method Detection Limit (as determined by the Method Detection Limit or MDL study) for the analyte, or at 1 to 10 times the ambient level (average concentration) of the analyte in samples. There are 3 options for preparing spikes: Option 1 (Recommended - easiest) - If the spike solution volume is equal to 1% or less of the total sample volume, direct subtraction of the unspiked sample is allowed. When the volume of the standard solution spiked into a sample or a sample extract is less than 1% of the total volume then the final concentration need not be adjusted (e.g., 10 pL of spike solution added to a 1 mL final extract results in only a negligible 1 % change in the final extract volume). Option 2 - Adjust spike solution to a known volume with sample. In this case the sample concentration must be adjusted: When the volume of spike solution exceeds 1% of the total MS volume the sample concentration must be adjusted prior to determining spike recovery. Option 3 (Not recommended — most difficult) - Add spike solution to a full volume sample. In this case,. the spike concentration must be adjusted. When the volume of spike solution exceeds 1_% of the total MS volume the spike concentration must be adjusted prior to determining spike recovery. Spike Preparation Examples Option 1 - If the spike solution volume is equal to 1 % or less of the total sample volume, direct subtraction of the unspiked sample is allowed. Option 1 Example: 0.5 mis of a 1000 mg/L standard spike added to 100 mis of sample has a theoretical value of 5 mg/L. (A) The spiked sample recovery is 5.1 mg/L (B) If the unspiked sample result is 0.5 mg/L (C) Theoretical value is 5.0 mg/L The Percent Recovery = spiked sample recovery (A) — unspiked sample result (B) divided by theoretical value (C) X 100 or 5.1 — 0.5 X 100 = 92% recovery A — B X 100 = Percent recovery 5.0 C Option 2 - Adjust spike solution to a known volume with sample. In this case the sample concentration must be adjusted. Option 2 Example 1: 10 mis of spike (concentration 50 mg/L) brought to 100 mis with sample the theoretical MS value is 5 mg/L. (A) The spiked sample recovery is 5.1 (B) If the unspiked sample result is 0.5 mg/L (C) % sample is 0.90 (sample volume used (90) divided by final volume (100)) (D) Theoretical value is 5.0 mg/L The Percent Recovery = spiked sample recovery (A) — (unspiked sample result (B) x % sample (C)) divided by theoretical value (D) X 100 or 5.1 — (0.5 x 0.9) X 100 = 93% recovery A — (B x C) X 100 = Percent recovery 5.0 D Option 2 Example 2: Larger spike volume 25 mis of spike (concentration 50 mg/L) brought to 250 mis with sample the theoretical MS value is 5 mg/L. (A) The spiked sample recovery is 5.6 (B) If the unspiked sample result is 0.5 mg/L (C) % sample is 0.90 (sample volume used (225) divided by final volume (250)) (D) Theoretical value is 5.0 mg/L The Percent Recovery = spiked sample recovery (A) — (unspiked sample result (B) x % sample (C)) divided by theoretical value (D) X 100 or 5.6 — (0.5 x 0.9) X 100 = 103% recovery A — (B x C) X 100 = Percent recovery 5.0 D Option 3'- Add spike solution to a full volume sample. In this case the spike concentration must be adjusted. Option 3 Example: 5 mis of a spike (concentration 100 mg/L) is added to 100 mis of a sample (105 mis final volume). (A) The spiked sample recovery is 5.1 (B) (C) (D) If unspiked sample result is 0.5 mg/L Spike conc. adjustment is 0.9524 (sample volume (100) divided by sample + spike volume (105)) Actual spike value is 4.7619 (Theoretical value (5 mg/L based on 100 ml sample) x C) The Percent Recovery = spiked sample recovery (A) x (sample volume divided by sample volume + spike volume (C)) — unspiked sample result (B) divided by Actual spike value (D) X 100 or (5.1 x 100 )-0.5 (AxC) —B X100=91.5% D 100+5 X 100 = 91.5% recovery 4.7619 Corrective Action/Qualifications for MS Spike accuracy is usually based on a range of percent recovery (e.g., 80-120%). Refer to the method of choice for specific acceptance criteria for the matrix spikes until the laboratory develops or adopts statistically valid, laboratory -specific performance criteria for accuracy. If a MS fails, and the LCS is acceptable, qualify the data for the MS sample. Repeated failures for a specific matrix may require use of an alternate method or method of standard addition. Base the sample batch acceptance on the results of the LCS analyses (and other quality control results) rather than the MS alone, because the matrixof the spiked sample may interfere with the method performance. If a MS and the associated LCS fail, re -prepare and reanalyze affected samples. Post Digestion Spikes (PDS) Post Digestion Spikes (PDS) are used for some analyses (e.g., metals) to assess the ability 'of a method to successfully recover target analytes from an actual sample matrix after the digestion process has been performed. The PDS results are used with MS results to evaluate matrix interferences. The MS and PDS should be prepared from the same environmental sample. A PDS is not to be analyzed in place of a MS. Post Digestion Spikes must be reported as post -digested and must not be misrepresented as pre-digested spikes. (Exception: TCLP and SPLP samples are always spiked post digestion.) Corrective Action/Qualifications for Post Digestion Spikes In general, if the MS recovery for an analyte does not fall within the quality control acceptance range but the PDS recovery is acceptable, then a matrix affect (associated with the preparatory process) should be suspected and the unspiked sample results must be qualified on the basis of the matrix spike recovery. However, when historical data for the effect does not exist, the laboratory would normally be expected to perform a second digestion and reanalysis of the MS to confirm the result. The result would be confirmed if the MS recoveries and PDS recoveries for both sets of analyses were similar in magnitude and bias. When both the MS recovery and PDS recovery for a particular analyte falls outside of quality control acceptance range in the same manner (i.e., the PDS and MS failures are of similar magnitude and the direction of bias is the same), confirmatory analyses are unnecessary but the data must be qualified. Parameters Excluded from MS Requirements Acidity BOD/CBOD Chlorophyll Color — ADMI Conductivity Ignitability ' Paint Filter Test pH Salinity Total Residual Chlorine Alkalinity Aquatic Humic Substances All Bacteriological Parameters Color - PtCo Dissolved Oxygen All Residues Turbidity Temperature Sulfite Vector Attraction Reduction (All Options) (Field Laboratories and Field Setting analyses are exempt.) Weight Verification (NC WW/GW LC Policy 05/23/2008) ASTM Class 1 and 2 weights must be verified at least every 5 years. ASTM Class 1 weights (20 g to 25 kg) and ASTM Class 2 weights (10 g to 1 mg) are equivalent to the NBS Class S weights specified in 15A NCAC 2H .0805 (a) (7) (K). Verification may be accomplished by: 1. Sending laboratory weights back to the manufacturer for recertification - reference weights shall be calibrated by a body that can provide traceability to ASTM specifications, or 2. Checking laboratory weights against certified reference weights (i.e., weights that have been recertified as above) and found to be within ASTM Class 1 or Class 2 tolerances (see table below) - often the balance service technician may provide this service. Note: Although some manufacturers will assign a one-year calibration due date, 5 years is considered an acceptable calibration interval due to the limited use of the reference weight set. Documentation of weight verifications or recertification must be maintained for 5 years. If the condition of a weight(s) is in question at any time due to damage (e.g., corrosion, nicks, scratching, etc.), the laboratory must have that weight(s) re -verified as described above. Maximum tolerances (Ref. ASTM E 617-97, 2003) Denomination Maximum tolerance for ASTM Class 1 and 2 weights, (± mg) 500 g 1.2 300 g 0.75 200 g 0.50 100 g 0.25 50g 0.12 30 g 0.074 20 g 0.074 10 g 0.074 5 g 0.054 3g 0.054 2 g 0.054 1 g 0.054 500 mg 0.025 300 mg 0.025 200 mg 0.025 100 mg 0.025 50 mg 0.014 30 mg 0.014 20 mg 0.014 10 mg 0.014 5 mg 0.014 3 mg 0.014 2 mg 0.014 1 mg 0.014