Regulatory Guide 5.33

A. INTRODUCTION

Paragraph 70.51(e) of 10 CFR Part 70 requires certain AEC licensees authorized to possess special nuclear material to calculate material unaccounted for (MUF) quantities and their associated statistical limits of error (LEMUF) as part of their material control and accounting procedures for use in assuring that special nuclear material in their possession is accounted fo Paragraph 70.53(bXl) requires that a report be made to the Commission if any single MUF exceeds its associated LEMUF and certain specified quantities and that the report include a statement of the probable reasons for the MUF and actions taken or planned. This guide identifies methods acceptable to the Regulatory staff for evaluating the statistical significance1 of observed MUF value

B. DISCUSSION

While there may be mechanisms of process control involving identification of process anomalies that can provide an indication of possible missing material, the only positive means for assuring that the material is not missing is to measure all of the material and establish a measured material balance. Records are maintained of the measured quantities received into a plant and the measured quantities removed from a plant. The difference between these quantities should be on inventory in the plant. A measured physical inventory will either confirm that this quantity is preuent or indicate that some material is missing. Assuming that there is no inventory at the beginning of the time interval, the balance can be expressed by the equation: IAs defined in Regulatory Guide 5.3, "Statistical Terminology and Notation for Special Nuclear Materials Control and Accountability," February 2, 1973.June 1974IDEReceipts -Removals = Inventory If there was material on hand at the beginning of the time interval for which a balance is being taken, a beginning inventory component would have to be added to the equation to give: Beginning Inventory + Receipts -Removals = Ending Inventory (1) Because of uncertainties] in measurements or unknown removals such as losses or thefts, this equation seldom balances in practice, indicating some observed material unaccounted for (MUF). Equation (1) can be recast as: (Beginning Inventory + Receipts) (Removals + Ending Inventory) = MUF (2) If equation (1) balances, the MUF of equation (2) is zero. When equation (1) does not balance, the MUF of equation (2) represents some finite quantity of SN The significance of this quantity could represent only the uncertainties of the measurements, or it could include an unknown loss or theft. The first step in determining the significance of the MUF is to determine what value might be attributable to uncertainties of the measurement syste Each of the measured quantities in the material balance will have some uncertainty associated with i Combination of these individual uncertainties by appropriate statistical methodology will result in limits in terms of SNM quantities by which equation (1) could be expected to be out of balance due only to the measurement system uncertainties,. i.e., the MUF in equation (2) that could be expected. Since measurement uncertainties may be either positive or negative, aUSAEC REGULATORY GUIDES Copie of published guides may be obtained by request indicating the divisions desired to the US. Atomic Energy Commission. Washington. D.C. 2064 Regulatory Guides we Issued to dewibe and make available to the public Attention: Director of Regulatory Standards. Comments and suggestions for methods acceptable to the AEC Reguletory staff of Implementing Specific perts of Improvements In thes guides are encouraged and should be sent to the Secraetry the Commission's regulations, to delineate techniques oed by the staff in of the Commission, US. Atomic Energy Commission, Washington, D.C. 20545, eluatilng specific problems or postulated accklents, or to provide guidance to Attention: Chief, Public Proceedings Staf applicants. Regulatory Guides are not substitutes for regulations and complaence with them is not required. Methods and solutions different from those set out in The gudes are issued in the following ten broad divisions: the guides will be acceptable If they provide a basls for the findings requisite to . the iwssunoe or comntionet of a permit or lienswe by the Comnission. I. Power Reactors 6. Products 2. Research and Test Retors 7. Transportation 3. Fuels end Meteriab Facilities 8. Occupational Health Published guides will be revised periodically. es appropriate, to accommodate 4. Environmental and Siting 9. Antitrust Review' comments and to reflect new information or experience. ". Merials end Plant Protection 10. GeneralU.S. ATOMIC ENERGY COMMISSION REGULAT6ORY GU DIRECTORATE OF REGULATORY STANDARDS REGULATORY GUIDE 5.33 STATISTICAL EVALUATION OF MATERIAL UNACCOUNTED FOR confidence interval' is established within which the MUF could be expected due only to measurement uncertainty. This confidence interval is defined by the "limits of error of the material unaccounted for" (LEMUF). It is the magnitude of this LEMUF value that determines, at a 95% confidence level, how well the total material balance can confirm that all SNM is present or detect whether some is missing. When the MUF quantity is equal to or smaller than the LEMUF, the indication is that MUF could have occurred by chance due to measurement variation. If the MUF is greater than the LEMUF in either a positive or negative direction, the indication is that the MUF could not have occurred by chance due to measurement variation but that some other mechanism has had an effect. This could be a loss or theft of material (positive MUF) or an error in the system causing an unaccounted for gain (negative MUF). If MUF is due solely to random variations in the measurement system, MUF values taken over time from a series of balances. around the same process or plapt should tend toward zero. If this is not the case, and MUF values tend to show a consistent difference from zero, factors other than random measurement variations are indicated. Consistently positive MUF values would indicate that there may be some biased measurements, consistent measurement or recording mistakes, unknown or unrecorded inventory, or some continual small losses or thefts of material. Consistently negative MUF values would indicate that there may be some biased measurements or consistent measurement or recording mistake MUF values that are not consistent with measurement system variations, i.e., are in excess of such variations within stated statistical probabilities, are considered statistically significant. The purpose of this guide is to provide guidance in assessing the significance of MUF values but not in the investigation of MUF values that are found to be statistically significan

C. REGULATORY POSITION

The concepts, principles, and methods discussed and referenced below are generally acceptable to the Regulatory staff for evaluating the significance of MUF values resulting from measured material balances as specified in paragraph 70.51(e) of 10 CFR Part 70. Individual MUF values (short-term MUF) that are statistically significant (i.e., those that exceed the LEMUF values specified in paragraph 70.51(eX5) and that exceed the minimum quantities specified in paragraph 70.51(eX5)) are required to be investigated and reported to the AEC. In addition, combinations or sequences of MUF values (long-term MUF) which show trends significantly different from zero should be investigated to determine and correct the cause lAs defined in Regulatory Guide 5.3, "Statistical Terminology and Notation for Special Nuclear Materials Control and Accountability," February 2, 1973.The evaluation of either short-term or long-term MUF should consist of testing whether the MUF quantity observed over a single material balance period or a cumulative period exceeds the LEMUF for that perio Specifically, the test criterion should be whether MUF +/- LEMUF contains zero, i.e.,0 e (MUF +/- LEMUF)Thus, an appropriate decision rule is that if observed MUF is greater than LEMUF, i.e.:MUF > LEMUF(4)then MUF should be declared significant and investigated. This 95% confidence interval test is equivalent to a two-sided hypothesisI test with a null hypothesis that MUF is zero at a 5% level of significanc Regulatory Guide 5.18, "Limit of Error Concepts and Principles of Calculation in Nuclear Materials Control," describes acceptable methods for calculation of limits of erro An example of how single, isolated observed MUF values should be evaluated is presented by John Jaech, Statistical Methods in Nuclear Material Control, TID-26298, December 1973, Section 7.1, specifically answers 7.A and 7.B of Section 7.1.3. However, the following specifications should be applied: 1. The value of M. should be set to zer . The limit of error is ccf . Absolute signs should be placed around x, the observed MUF, in order to indicate a two-sided test of significanc . A significance level of 5% should be assigne If the method of Section 7.1.3, question 7.B, is used, a confidence coefficient of 95% should be chose An example of how combinations and sequences of MUF values should be evaluated is given in Section 7.2 of the above reference, specifically answer 7.E of Section 7.2.2 with the following conditions specified: 1. Any related Mo shouldbe zer . Any test of significance should be two-side . Control charts in answer 7.F would be more appropriate as the correlation between successive MUF values increase . A 5% level of significance should be chose . The term denoted as a systematic-error variance in equation (7.9) and throughout TID-26298 is clearly defined on an applications basis in that reference. It should be noted in current practice that it may be determined by a mean square error or the variance of the estimated bias. Caution must be used in selecting which is appropriate for the process in question.5.33-2(3)