Document: NUREG-0800
Document ID: d72c5a84-b363-4a7d-9df3-5570a5eceb2c
Document Type: srp
Title: SOLID WASTE MANAGEMENT SYSTEMS
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0523/ML052350108.pdf
Revision Date: 2023-06
Chapter: 11
Section ID: 11.4
CFR Part: 
CFR Title: 

Content:
containers in which excess water is detected, in accordance with Branch Technical Position (BTP) ETSB 11-3 (Ref. 1). 4. Solid waste containers, shipping casks, and methods of packaging meet applicable Federal regulations, e.g., 10 CFR Part 71 (Ref. 7), and wastes are to be shipped to a licensed burial site in accordance with applicable Commission, Department of Transportation, and State regulations. 5. Processing equipment is sized to handle the design SWS inputs, i.e., the. solid waste generation rates reviewed under item I.1 of this SRP section. 6. Onsite waste storage facilities provide sufficient storage capacity to allow time for short-lived radionuclides to decay prior to shipping in accordance with Branch Technical Position (BTP) ETSB 11-3 (Ref. 1). (The bases for the storage time chosen should be given in the safety analysis report). 7. SWS components and piping systems, and structures housing SWS components, are designed in accordance with the provisions of Regulatory Guide 1.143 (Ref. 2), and Branch Technical Position (BTP) ETSB.11-3 (Ref. 1). 8. The SWS contains provisions to reduce leakage and facilitate operations and maintenance in accordance with the provisions of Regulatory Guide 1.143 (Ref. 2) and Branch Technical Position (BTP) ETSB 11-3 (Ref. 1). 11.4-3 Rev. 2 - July 1981 9. For longer term onsite storage (several years, but significantly less than the life of the plant) the storage facility should be designed to the guidelines of Appendix A to this SRP Section (Ref. 3). III. REVIEW PROCEDURES The ETSB reviewer will select and-emphasize material from this SRP section as may be appropriate for a particular caste. 1. ETSB reviews the P&IDs and the process flow diagrams to determine system design, methods of operation, and parameters used in the design, i.e., expected and design flow rates, radioactivity concentrations, radio- nuclide distribution, and waste categories. The system design and design criteria will be compared with the guide- lines of