ML20055C907
| ML20055C907 | |
| Person / Time | |
|---|---|
| Site: | 07105971 |
| Issue date: | 06/21/1990 |
| From: | Cunningham G GENERAL ELECTRIC CO. |
| To: | Macdonald C NRC OFFICE OF NUCLEAR MATERIAL SAFETY & SAFEGUARDS (NMSS) |
| Shared Package | |
| ML20055C908 | List: |
| References | |
| NUDOCS 9006280357 | |
| Download: ML20055C907 (27) | |
Text
{{#Wiki_filter:- 3 ( ~ _ - GE Nuclear Encrgy aenew nae cen,,- Weaus htw Center ID Butra ww:vs%M Pk:uwi:m, CA 94%b June 21, 1990 1 C. E. MacDonald, Chief Transportation Branch Office of Nuclear Material Safety & Safeguards - U.S. Nuclear Regulatory Commission Washington, D.C. 20555
Reference:
Certificate of Compliance No. 5971, Docket 71-5971.
Dear Mr. MacDonald:
e General Electric requests that Certificate of Compliance No. 5971 for the Model IP0-200 shipping container be renewed. Enclosed in support of this request is an updated version of our consolidated application for the previous renewal (May 30,1985). Only editorial changes were required. They are noted with vertical lines in the right-hand margin. d, No acceptance testing program is included as GE-does not plan to obtain any additional Model IP-200's. A check for $150.00 is enclosed. Sincerely, f [_ G. E. Cunningham Senior Licensing Engineer (415) 862-4330 /ca f Enclosures [CU & lN l' t,(Obbl p40 9006280307 900621 7 ) DR ADOCK 0710 }1 ()l
- -a - a' i APPLICATION FOR RENEWAL l 3 MODEL IP0-200 SHIPPING CONTAINER d 5 t,-- s I J
.e c. ,s L GENERAL ELECTRIC SHIELDED CONTAINER - MODEL IP0-200 L ~ -1.0. PACKAGE DESCRIPTION - PACKAGING-(a) General All dimensions referenced in the descriptive section are nominal dimensions. Actual dimensional' tolerances are contained in'the simplified certification drawings. All lifting and/or tiedown devices for additional containers I of this model if different from the lifting and/or tiedown devices described in this application will satisfy the requiroments of 10CFR71.45. This container is detailed in GE. 'l Drawings 12904756, Rev. 1; 12904757, Rev. 0; j 12904758, Revs. I and 2; and 129D4759, Rev. O, l attached.. l Shape: An upright circular cylinder shielded cask and { i an upright circular cylinder protective jacket g. l .with attached square base. \\ l Size: The shielded cask is 20.25 inches in diameter by 53.88 inches high. The protective jacket is i 65.38 inches high by 37.62 inches across the box j section. The base is.47.50 inches square. ) 3 Construction: The cask is a lead-filled carbon and stainless steel weldment. The protective jacket is a y double-walled structure of 0.38-inch carbon steel plate and surrounds the cask during transport. The square base is 0.50-inch carbon steel with four I-beams attached. E ~ 3 "o .e Weight: The cask weighs 6300 pounds. The protective jacket and base weigh 2500 pounds. The cask liners weigh 525 :nd 650 pounds. The maximum packaging weight is approximately 10,000 pounds, t (b) Cask Body-Outer Shell: 0.38 inch thick steel plate, 53 inches high by 20.25 inches in diameter with a 0.38 inch ^- bottom plate and a 1.13 inch top flange. I Cavity: 0.15 inch stainless steel wall and bottom plate, 7.62 inch inner diameter by 37 inches deep. l Shielding Thickness:- 5.84 inches of lead on sides, 7.94 inches of' lead beneath cavity. Penetration: One, 0.50 inch outer diameter by 0.125. inch wall stainless. steel tube gravity drain line from the side of the cavity bottom to the side of the cask outer shell near the cask bottom closed with a fusible lead cored 1-NPT hex head pipe plug which protrudes 0.50 inch outside of shell surface or equivalent plug. General Electric may, at its discretion, permanently close and seal the drain line for this container model with no interference to other structural properties of the cask. Filters: None. Lifting Devices: Two diametrically opposed ears welded to sides of cask, covered by protective jacket during transport. i
~ i V, Primary Coolant: Air. (c) Cask Lid Shape: A cylinder of decreasing diameter attached i to flat plates. ( Size: The top plate is 20.25 inches in diameter by 0.75 inch thick. The bottom plate is 10.44 inches in diameter by 0.13 inch thick. The cylinder is 14.88 inches in diameter at the j top by 10.44 inches in diameter at the bottom by_7.50 inches high. I Construction: Lead filled steel clad cylinders welded to circular steel plates. 1 Closure: Six 1-inch 8-UNC-2A steel bolts equally spaced 60' apart on a 17.30 inch diameter bolt circle. Closure Seal: Molded silicone rubber seal bonded to an aluminum back-up plate; or 0.25 thick flat j silicone rubber gasket. Penetrations: None. Shield Expansion Void: None. l i Lifting Device: Single steel loop 1.25 inch diameter steel l rod located in center of-lid top. Covered by protective jacket during transport. I (d) Protective Jacket Body i Shape: Basically a right circular cylinder with open bottom and with a protruding box l section diametrically across top and vertically down sides. .t1 4 .s-L' Size: 65.33 inches high by 37.60 inches wide across the box section. The outer cylindrical diameter is 26.75 inches. The inner diameter is 23.25 inches. A 5.68 inch wide by 0.38 inch thick steel flange is welded to the outer wall of the open bottom. Construction: Carbon steel throughout. Double walled construction. The walls are 0.38 inch e thick. One and one-half inch air gap between cask shell and inner jacket wall and a 1-inch air gap between inner and' outer jacket walls throughout. Six, 12-inch high by 0.38 inch thick gussets are welded to the outer cylindrical wall and flange. Including'the two box sections, the gussets are spaced 40' apart. s
Attachment:
Four, 2-inch bolts connect the protective jacket body, through the flange to the pallet. Lifting Devices: Two rectangular, 1.13 inch thick steel loops located on top of the box section at the corners. The steel is 7 inches long by 3 inches high by 3-1/2 inches wide. Tiedown Devices: Two diametrically opposed 2-inch thick steel ears welded.o sides of box section, each ear has a 1.50 inch hole to accept clevis or cable. Penetrations: Slots along periphery of the protective jacket at the bottom, slots in box section under lifting loops, allows natural air circulation for cooling. -...... d
e. ( (3) Protective Jacket Base i Shape: Hollow cylindrical weldment with square bottom plate. Four I-beams are welded to square bottom of plate. l Size: Bottom plate is 47.50 inches square and 0.50 inch thick _The cylindrical collar is 22 inches in outer diameter by 3 inches high. The bottom plate attached to four 3 x 1 x 47.50 bars. Three 4 inch I-beams are attached across the bars. Construction: The cylindrical collar houses two sets of 1.25 inch by 1.25 inch by 0.25 inch stee1~ energy absorbing angles separated by a 0.38 inch thick carbon steel mid-plate. The cask rests on this assembly. The collar is welded to the 0.50 inch thick carbon steel base piste. Four I-beams are welded in parallel to the base plate. 2.0 PACKAGE DESCRIPTION - CONTENTS '(a) General Radioactive material as the metal or metal oxide (but.specificallynotloosepowders);. [ orothernon-decomposable (at650'F) solid materials. (b) Form Byproduct, source, and special nuclear material in the form of fuel rods or plates, fuel assemblies, or meeting the requirements of special fonn radioactive material; or solid non-fissile irradiated l-metal hardware, reactor control rods (blades), and reactor start-up sources..
,a (c) Fissile Content Not to exceed 500 grams of U-235, 300 grams-of U-233, 300 grams of Pu, or a prorated quantity of each such that the sum of the ratios does not exceed unity. (d) Radioactivity That quantity of any radioactive material ~ 3 which does not generate spontaneously more than 780 thermalwatts by radioactive decay and which meets the requirements of 49CFR173.467, i L (e) heat Total maximum internally generated heat load not to exceed 780 thermal watts. An analytical determination, described in. l Exhibit B to the Application-for the GE Model 700 container, of the container temperature profile and heat load resulted in the following: l,> L L 1 ~ l l 1. -5A-
mm. c l. 4 c Cask Surface 175'F Inner Shield 119'F-l Outer Shield 93'F-Ambient 80'F -Heat Load 780 watts I General Electric will analyze by test or other-assessment each container heat loading prior to shipments to verify that the requirements of 10CFR71,.71 will be satisfied. ' Reference is made 3 to the GE-Model 100 Application, Exhibit B, for l a method of internal heat load analysis and heat dissipation. -3.0- PACKAGE EVALUATION (a) General There are no components of the packaging or its 1 d contents which are subject to chemical or galvanic reaction; no coolant is used during transport. j The protective-jacket is bolted closed during transport. A lock wire and seal of a type that -E must be broken if the package is opened is affixed to the cask closure. If that portion of the protective jacket which is used in the tiedown system or that portion which constitutes the principal lifting device failed in such a manner to allow the protective' jacket to separate from-the tiedown and/or lifting devices, the basic-protective features of the protective-jacket and the enclosed cask would be retained. The package (contents, cask and protective jacket) regarded as a simple beam support at its ends along its major axis, is capable of withstanding a static load, normal to and distributed along its entire length equal to five times its fully loaded weight, without generating stress in any material of the packaging in ext s of its yield strength. The l packaging is adeq, te to retain all contents J ~J
A ! J '3 u m i when subjected to an external pressure of 25 pounds per square inch gauge. Refarence is made to the GE Model 100 Application, Exhibit C, for a method of determining static loads. The calculative methods employed in the design of the protective jacket are based on strain rate studies and calculations and on a literature search
- of the effects on materials under impact conditions. The intent was to design a protective jacket that would not only satisfy the requirements of the U. S. Nuclear Regulatory Commission and the Department of Transportation prescribing the procedures and standards of packaging and shipping and the requirements governing such packaging and shipping but would protect the shielded cask froni significant deformation in the event of an
- accident, in the event that the package was involved in an accident, a new protective jacket could be readily supp" 9d and the shipment continued with minimal time delay.
The effectiveness of the strain rate calculations and engineering intuitiveness in the design and construction of protective jackets was demonstrated with General Electric Shielded Container - Model 100 (Ref.: Model 100 Application, Section 3.0). The protective jacket design for the Model IP0 200 will be scaled from the design of the Model 100 in accordance with the cask weight and dimensions, maintaining static load safety factors greater than or equal to unity, and in accordance t:ith the intent to protect the shielded cask from any deformation in the event of an accident.
- T10-7651, SE-RR 65-98 7
]
o f 4 (b) Normal Transoort Conditions Thermal: Packaging components, i.e., steel shells and lead, uranium and/or tungsten shielding, are unaffected by temperature extremes of -40'T and 130'F. Package contents, at least singly encapsulated or contained in inner containers, but not limited to special form, will not be affected by these temperature extrem:s. Pressure: The package will withstand an external pressure e of 0.5 times standard atmospheric pressure. Vibration: Inspection of the Model IFO 200 casks used since 1958 reveals no evidence of damage of significance to transp9rt safety. Water Spray Since the container is constructed of metal, and Free Drop: there is no damage to containment resulting from dropping the container through the standard drop heights after being subjected to water spray. Penetration: There is no effect on containment or overall spacing from dropping a thirteen pound by 1-1/4-inch-diameter bar from four feet onto the most vulecrable exposed surface of the packaging. Compression: The loaded container is capable of withstanding a compressive load equal to five times its 1 weight with no change in spacing, i Summary and The tests or assessments set forth above provide
== Conclusions:== assurance that the product contents are contained in the Shiefdod Cor.tciner - Model IPO 200 during transport and there is no l reduction in effectiveness of the package, f c i (c) )]yoothetical Accident Conditions General: The effectiveness of the strain rate calculations and engineering intuitiveness in the design and construction of protective jackets was demonstrated with the GE Shielded Container - Model 100 (Ref.: Model 100 Application, Section 3.0). Extrapolations of the Model 100 data were used in the design and construction of the Model IP0 200 protective l jacket. Orop Test: The design and construction of the Model IPO 200 protective jacket were based on an extrapolation of the proven data generated during the design and construction of the GE Model 100 and on the results of the cask drop experiments by C. B. Clifford(l)(2) and H. G. Clarke, Jr.(3) The laws of similitude were used in an analytical evaluation (3)(4) to determine the protective jacket wall thickness that would withstand the test conditions of 10CFR71.73 without breaching the integrity of the Model IP0 200 cask. The evaluation, described in GE l Model 100 Application, Exhibit A, indicated a protective jacket wall thickness of 3/8-inch. The intent of the design for the Model IPO 200 l is, during accident conditions, to sustain damage to the packaging not greater than the damage sustained by the GE Model 100 during its TI) C. B. Clifford, The Desion. Fabrication and Testing of a Ouarter Scale of the Demonstration Uranium Fuel Element Shinoina Cask, KY 56 (June 10, 1968). (2) C. B. Clifford, Demonstration Fuel Element Shinoina Cask from Laminated branium Metal-Testino Proaram, Proceedings of the Second International Symposium on Packaging and Transportation of Radioactive Materials; October 14 18, 1968; pp. 521-556. (3) H. G. Clarke, Jr., Some Studies of Structural Resoonse of Casks to im_pjtq1, Proceedings of the Second International Symposium on Packaging and Transportation of Radioactive Materials; October 14-18, 1968, y pp. 373-398. (4) J. K. Vennard, Elementary Fluid Mechanics, Wiley and Sons, New York, 1962, pp. 256-259. l b
o .i accident condition tests (Ref.: Model 100 Application, Section 3.0). It is expected that damage not exceeding that suffered by the GE Model 100 will result if the Model IPO 200 is subjected to the 30-foot drop test. Puncture Test: The intent of the design for the Model IPO-200 is to sustain less or equal damage to the packaging during accident conditions than the deformation suffered by the GE Model 100. It is expected that deformation not greater than that sustained by the GE Model 100 will be received by the Model IPO-200 in the event that the package is sub4ected to the puncture test. Thermal Test: A fire transient using the THTD Code was not run on this container. However, reference is made to the shielded containers Models 100, 700, and 1500 which demonstrate the effectiveness of the double-walled steel jacket as a fire as well as crash shield. General Electric will analyze by test or other assessment each container heat load to verify that the loaded container will withstand the 30-minute,1475'F fire without significant lead melting in the cask. Water Since optimum moderation of product material is immersion: assumed in evaluations of criticality safety under accident condition, the water immersion test was not necessary. Summary and The accident tests or assessments described
== Conclusions:== above demonstrated that the package is adequate to retain the product contents and that there i .i
r e 1 is no change in spacing. Therefore, it is concluded that the Model IP0-200 is adequate as packaging for the contents specified in this Application. 4.0 PROCEDURAL CONTROLS Vallecitos Site Safety Standards have been established and implemented to assure that shipments leaving the Vallecitos Nuclear Center (VNC) comply with the certificates issued for the various shipping container models utilized by the VNC in the normal conduct of its business. Each cask is inspected and radiographed prior to first use to 6scertain that there are no cracks, pinholes, uncontrolled voids or other defects which could significantly reduce the effectiveness of the packaging. After appropriate U.S. Nuclear Regulatory Commission approval, each package will be identified with a welded on steel plate in accordance with the labeling requirements of 10CFR71 and any other information as required by the Department of Transportation. 5.0 FISSILE CLASS - CLASS II An analysis has indicated that no greater than the following amount of fissile material may be shipped in any single container: l Grams U-235 Grams-233 Grams Pu (fissile) 500 300 300 1 1.0 + The density analog method was used to determine the number of containers which may be shipped as Class 11. Each container was assumed to hold 500 grams U-235, or 300 grams U-233, or 300 grams of fissile Pu (Pu 239). No credit was taken for Pu-240 content. Critical data used in the calculations were taken from TID-7028 water-metal curves, Figures 8, 27 and 34. The container was assumed to be filled with water, (1) for the accident condition, and (2) to allow for container wet loading. The fissile material t "
...n ,-..as... .I i' was assured to be homogenized with the water. In all cases, this resulted in nearly optimum moderation. Physically, there is little difference between the accident and non-accident cases except for the addition of water. Both cases were calculated for the ,Pu loading. The " wet" case was limiting. The density analog method is described in $NM License Application for VNC, Docket 70 754, Section 5.4.4, dated April 18, 1966. As the shipment will be Class II, the transport index for each loading was calculated, allowing a maximum number of fifty for each shipment. The full results for the calculations are shown below: Fissile Content Safe Number Transoort Index 300gramsFu(wet) 22 2.3 300gramsU-233(wet) 120 0.5 i 300gramsU-235(wet) 54 1.0 In all cases, regardless of fissile mixtures involved, the loadings will be assumed to be exclusively Pu. The contents will be shipped dry. E
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