NR 252.036(4)(a)(a) Each laboratory that uses this method shall operate a formal quality control program. The minimum requirements of this program consist of an initial demonstration of laboratory capability and the analysis of replicate and spiked samples as a continuing check on performance. The laboratory shall maintain performance records to define the quality of data that is generated. Ongoing performance checks shall be compared with established performance criteria to determine if the results of analyses are within precision and accuracy limits expected of the method.
NR 252.036(4)(b)
(b) Before performing any analyses, the analyst shall demonstrate the ability to generate acceptable accuracy and precision by performing the following operations.
NR 252.036(4)(b)1.
1. Perform 4 replicate analyses of a 20 mg/l. sulfide standard prepared in distilled water. Refer to
sub. (2) (h) under “Reagents."
NR 252.036(4)(b)2.a.a. Calculate clean water precision and accuracy in accordance with standard statistical procedures. Clean water acceptance limits are presented in
subd. 2.b. These criteria shall be met or exceeded before sample analyses can be initiated. A clean water standard shall be analyzed with each sample set and the established criteria met for the analyses to be considered under control.
NR 252.036(4)(b)2.b.
b. Clean water precision and accuracy acceptance limits: for distilled water samples containing from 5 mg/l. to 50 mg/l. sulfide, the mean concentration from 4 replicate analyses shall be within the range of 72 to 114% of the true value.
NR 252.036(4)(c)
(c) The method detection limit or MDL may be determined periodically by each participating laboratory in accordance with the procedures specified in "Methods for Chemical Analysis of Municipal and Industrial Wastewater," EPA- 600/4-82-057, July 1982, EMSL, Cincinnati, OH 45268. For the convenience of the user, these procedures are contained in
s. NR 252.0365.
NR 252.036(4)(d)
(d) A minimum of one spiked and one duplicate sample shall be run for each analytical event, or 5% spikes and 5% duplicates when the number of samples per event exceeds 20. Spike levels are to be at the MDL and at x when x is the concentration found if in excess of the MDL. See
par. (c) for MDL samples. Spike recovery shall be 60 to 120% for the analysis of a particular matrix type to be considered valid.
NR 252.036(4)(e)
(e) Report all results in mg/liter. When duplicate and spiked samples are analyzed, report all data with the sample results.
NR 252.036 History
History: Cr. Register, May, 2001, No. 545, eff. 6-1-01. NR 252.0365(1)(1)
Definition. “Method detection limit" or "MDL" means the minimum concentration of a substance that can be identified, measured and reported with 99% confidence that the analyte concentration is greater than zero and determined from analysis of a sample in a given matrix containing analyte.
NR 252.0365(2)
(2) Scope and application. This procedure is designed for applicability to a wide variety of sample types ranging from reagent or blank water containing analyte to wastewater containing analyte. The MDL for an analytical procedure may vary as a function of sample type. All sample processing steps of the analytical method shall be included in the determination of the MDL. The MDL obtained by this procedure is used to judge the significance of a single measurement of a future sample. The MDL procedure was designed for applicability to a broad variety of physical and chemical methods. To accomplish this, the procedure was made device or instrument independent.
NR 252.0365(3)(a)(a) Make an estimate of the detection limit using one of the following:
NR 252.0365(3)(a)1.
1. The concentration value that corresponds to an instrument signal or noise ratio in the range of 2.5 to 5. If the criteria for qualitative identification of the analyte is based upon pattern recognition techniques, the least abundant signal necessary to achieve identification shall be considered in making the estimate.
NR 252.0365(3)(a)2.
2. The concentration value that corresponds to 3 times the standard deviation of replicate instrumental measurements for the analyte in reagent water.
NR 252.0365(3)(a)3.
3. The concentration value that corresponds to the region of the standard curve where there is a significant change in sensitivity at low analyte concentrations, such as a break in the slope of the standard curve.
NR 252.0365(3)(a)4.
4. The concentration value that corresponds to known instrumental limitations.
NR 252.0365(3)(b)
(b) Prepare reagent or blank water that is as free of analyte as possible. Reagent or interference free water is defined as a water sample in which analyte and interferent concentrations are not detected at the method detection limit of each analyte of interest. Interferences are defined as systematic errors in the measured analytical signal of an established procedure caused by the presence of interfering species or interferent. The interferent concentration is presupposed to be normally distributed in representative samples of a given matrix.
NR 252.0365(3)(c)1.1. If the MDL is to be determined in reagent or blank water, prepare a laboratory standard such as an analyte in reagent water at a concentration which is at least equal to or in the same concentration range as the estimated MDL. It is recommended to be between one and 5 times the estimated MDL. Proceed to
par. (d).
NR 252.0365(3)(c)2.
2. If the MDL is to be determined in another sample matrix, analyze the sample. If the measured level of the analyte is in the recommended range of one to 5 times the estimated MDL, proceed to
par. (d).
NR 252.0365(3)(c)3.
3. If the measured concentration of analyte is less than the estimated MDL, add a known amount of analyte to bring the concentration of analyte to between one and 5 times the MDL. In the case where an interference is coanalyzed with the analyte and the measured level of analyte is greater than 5 times the estimated MDL, there are 2 options:
NR 252.0365(3)(c)3.b.
b. The sample may be used as is for determining the MDL if the analyte level does not exceed 10 times the MDL of the analyte in reagent water. The variance of the analytical method changes as the analyte concentration increases from the MDL, hence the MDL determined under these circumstances may not truly reflect method variance at lower analyte concentrations.
NR 252.0365(3)(d)1.1. Take a minimum of 7 aliquots of the sample to be used to calculate the MDL and process each through the entire analytical method. Make all computations according to the defined method with final results in the method reporting units. If blank measurements are required to calculate the measured level of analyte, obtain separate blank measurements for each sample aliquot analyzed. The average blank measurement is subtracted from the respective sample measurements.
NR 252.0365(3)(d)2.
2. It may be economically and technically desirable to evaluate the estimated MDL before proceeding with
subd.1. This will prevent repeating this entire procedure when the costs of analyses are high and insure that the procedure is being conducted at the correct concentration. It is quite possible that an incorrect MDL can be calculated from data obtained at many times the real MDL even though the background concentration of analyte is less than 5 times the calculated MDL. To insure that the estimate of the MDL is a good estimate, it is necessary to determine that a lower concentration of analyte will not result in a significantly lower MDL. Take 2 aliquots of the sample to be used to calculate the MDL and process each through the entire method, including blank measurements as described in
subd.1. Evaluate these data:
NR 252.0365(3)(d)2.a.
a. If these measurements indicate the sample is in the desirable range for determining the MDL, take 5 additional aliquots and proceed. Use all 7 measurements to calculate the MDL.
NR 252.0365(3)(d)2.b.
b. If these measurements indicate the sample is not in the correct range, reestimate the MDL, obtain new sample as in
par. (c) and repeat either
subd.1. or
2.
NR 252.0365(3)(e)
(e) Calculate the variance (S
2) and standard deviation (S) of the replicate measurements, as follows:
n n
S2 = 1 [S xi2 - (
S xi)2/n
n-1 i=1 i=1
s+(s2) 0.5
where: the xi, i = 1 to n are the analytical results in the final method reporting units obtained from the n sample aliquots and
n
S xi2
i=1
refers to the sum of the X values from i = 1 to n.
MDL = t(n-1, 1-a = .99) (S)
where:
MDL=the method detection
t (n-1, 1-a=.99)=the students' t value appropriate for a 99% confidence level and a standard deviation estimate with n-1 degrees of freedom as given in subd. 2.
S=standard deviation of the replicate analyses.
NR 252.0365(3)(f)2.
2. The 95% confidence limits for the MDL derived in
subd. 1. are computed according to the following equations derived from percentiles of the chi square over degrees of freedom distribution (X2/df) and calculated as follows:
MDLLCL=0.69 MDL
MDLUCL=1.92 MDL where MDLLCL and MDLUCL are the lower and upper 95% confidence limits respectively based on 7 aliquots.
NR 252.0365(3)(g)1.1. Optional iterative procedure to verify the reasonableness of the estimated MDL and calculated MDL of subsequent MDL determinations.
NR 252.0365(3)(g)2.
2. If this is the initial attempt to compute MDL based on the estimated MDL in
par. (a), take the MDL as calculated in
par. (f), spike in the matrix at the calculated MDL and proceed through the procedure starting with
par. (d)1.
NR 252.0365(3)(g)3.
3. If the current MDL determination is an iteration of the MDL procedure for which the spiking level does not permit qualitative identification, report the MDL as that concentration between the current spike level and the previous spike level which allows qualitative identification.
NR 252.0365(3)(g)4.
4. If the current MDL determination is an iteration of the MDL procedure and the spiking level allows qualitative identification, use S
2 from the current MDL calculation and S
2 from the previous MDL calculation to compute the F ratio.
if S2
A < 3.05
S2B
then compute the spooled standard deviation by the following equation:
spooled = [ 6SA2+ 6SB
2 ]0.5
____________
12
if S2
A > 3.05
S2B
respike at the last calculated MDL and process the samples through the procedure starting with par. (d).
NR 252.0365(3)(g)5.
5. Use the
Spooled as calculated in
subd. 3. to compute the final MDL according to the following equation:
MDL=2.681 (Spooled)
where 2.681 is equal to t (12, 1-a=.99)
NR 252.0365(3)(g)6.
6. The 95% confidence limits for MDL derived in
subd. 4. are computed according to the following equations derived from percentiles of the chi squared over degrees of freedom distribution.
MDLLCL=0.72 MDL
MDLUCL=1.65 MDL
where LCL and UCL are the lower and upper 95% confidence limits respectively based on 14 aliquots.
NR 252.0365(4)
(4) Reporting. The analytical method used shall be specifically identified by number or title and the MDL for each analyte expressed in the appropriate method reporting units. If the analytical method permits options which affect the method detection limit, these conditions shall be specified with the MDL value. The sample matrix used to determine the MDL shall also be identified with the MDL value. Report the mean analyte level with the MDL. If a laboratory standard or a sample that contained a known amount analyte was used for this determination, report the mean recovery and indicate if the MDL determination was iterated. If the level of the analyte in the sample matrix exceeds 10 times the MDL of the analyte in reagent water, do not report a value for the MDL.
NR 252.0365(5)
(5) Reference. Glaser, J.A., Foerst, D.L., McKee, G.D., Quave, S.A., and Budde, W.L., “Trace Analysis for Wastewaters," Environmental Science and Technology, 15, 1426 (1981).
NR 252.0365 History
History: Cr. Register, May, 2001, No. 545, eff. 6-1-01. NR 252.04
NR 252.04 Applicability of sulfide pretreatment standards. NR 252.04(1)(1) A POTW receiving wastewater from a facility subject to this chapter may require more stringent pretreatment standards for sulfide than those established by this chapter without EPA approval.
NR 252.04(2)
(2) The pretreatment standards for sulfide established by this chapter will not apply if the POTW receiving wastewater from a facility subject to this chapter certifies in writing with explanation of relevant factors considered, in accordance with the provisions of
sub. (3) that the discharge of sulfide from the facility does not interfere with the operation of the POTW. In making this determination, the POTW shall consider all relevant factors including but not limited to the following:
NR 252.04(2)(a)
(a) The presence and characteristics of other industrial wastewaters which can increase or decrease sulfide concentrations, pH, or both.
NR 252.04(2)(b)
(b) The characteristics of the sewer/interceptor collection system which either minimize or enhance opportunities for release of hydrogen sulfide gas.
NR 252.04(2)(c)
(c) The characteristics of the receiving POTW's headworks, preliminary and primary treatment systems, and sludge holding and dewatering facilities which either minimize or enhance opportunities for release of hydrogen sulfide gas.
NR 252.04(3)(a)(a) On October 13, 1983, a POTW which intends to certify that the sulfide pretreatment standard does not apply shall publish, in a local newspaper with the largest circulation, a notice that presents the findings supporting this determination consistent with
sub. (1). Allowance for public hearing of these findings shall be provided. The POTW shall identify all existing facilities to which the sulfide pretreatment standard otherwise established by this chapter would not apply.
NR 252.04(3)(b)
(b) On January 11, 1984, a POTW which intends to certify that the sulfide pretreatment standard does not apply shall file a written certification with the Regional Water Management Division Director, Environmental Protection Agency, in the appropriate regional office. This certification shall include the findings supporting this determination and the results of public comments, and public hearing if held.
NR 252.04(3)(c)
(c) On February 10, 1984, EPA shall acknowledge to the POTW receipt of any certification submitted under
pars. (a) and
(b), and shall indicate to the POTW the adequacy of the submission based upon a review of the factors set forth in
sub. (2).
NR 252.04(3)(d)
(d) Within 30 days of the date of receipt of adequate submissions under
pars. (a) to
(c), EPA shall publish a notice in the federal register identifying those facilities to which the sulfide pretreatment standards of this part do not apply.
