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Category:Report
MONTHYEARML24240A2462024-08-27027 August 2024
Submittal of the Reactor Vessel Material Surveillance Program Capsule Technical Report
ML23055A2842023-02-24024 February 2023
Proposed Alternative to the Requirements for Repair/Replacement of Saltwater (SW) System Buried Piping
NMP1L3469, Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits2022-06-30030 June 2022
Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits
ML22178A1722022-06-27027 June 2022
Long Term Coupon Surveillance Program
ML22147A1782022-05-27027 May 2022
Owners Activity Report (Form OAR-1) for the Calvert Cliffs Nuclear Power Plant Unit 1 Spring 2022 Refueling Outage
ML21263A1862021-09-20020 September 2021
Proposed Alternative Concerning Pressure Testing of ASME Section XI Class 2 Portions of the Auxiliary Feedwater System
RS-21-093, R. E. Ginna, Proposed Alternative for Examinations of Examination Category C-B Steam Generator Nozzle-to-Shell Welds and Nozzle Inside Radius Sections2021-09-0101 September 2021
R. E. Ginna, Proposed Alternative for Examinations of Examination Category C-B Steam Generator Nozzle-to-Shell Welds and Nozzle Inside Radius Sections
ML21210A3252021-07-30030 July 2021
Submittal of the Reactor Vessel Material Surveillance Program Capsule Technical Report
RS-21-056, Proposed Alternative for Examination of Pressurizer Circumferential and Longitudinal Shell-to-Head Welds and Nozzle-to-Vessel Weld2021-05-12012 May 2021
Proposed Alternative for Examination of Pressurizer Circumferential and Longitudinal Shell-to-Head Welds and Nozzle-to-Vessel Weld
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10 CFR 50.46 Annual Report and 30-day Report for Framatome'S Protect Enhanced Accident Tolerant Fuel (Eatf) Lead Test Assembly (LTA)
ML21013A5302021-01-13013 January 2021
Reactor Vessel Level Monitoring System Special Report
RS-21-001, Revised Proposed Alternative to Utilize Code Cases N-878 and N-880 for Carbon Steel Piping2021-01-0404 January 2021
Revised Proposed Alternative to Utilize Code Cases N-878 and N-880 for Carbon Steel Piping
ML20303A1752020-10-23023 October 2020
Proposed Relief Request from Section XI Repair/Replacement Documentation for Bolting Replacement of Pressure Retaining Bolting
ML20280A5082020-10-0606 October 2020
Submittal of Relief Request CISI-03-01 Concerning Containment Unbonded Post-Tensioning System Inservice Inspection Requirements
ML20034E3462020-02-0707 February 2020
Review of the Spring 2019 Steam Generator Tube Inspection Report
ML19347A7792019-12-12012 December 2019
License Amendment Request to Utilize Accident Tolerant Fuel Lead Test Assemblies
ML19228A0232019-08-15015 August 2019
Proposed Alternative to Utilize Code Case N-879
ML19072A0962019-03-11011 March 2019
Information Regarding Dissimilar Metal Weld 2-CV-2005-30 Flaw Characteristic and Repair Weld Overlay
ML17324B3692017-12-20020 December 2017
Flood Hazard Mitigation Strategies Assessment
RS-16-181, Mitigating Strategies Flood Hazard Assessment (Msfha) Submittal2016-11-0909 November 2016
Mitigating Strategies Flood Hazard Assessment (Msfha) Submittal
ML16061A0162016-02-26026 February 2016
ISFSI - Report of Changes, Tests, and Experiments - 10 CFR 50.59 and 10 CFR 72-48
ML16057A0022016-02-25025 February 2016
Report Concerning Dissimilar Metal Weld Flaw in Pressurizer Safety Relief Nozzle-to-Safe-End Weld
ML16076A3522016-02-24024 February 2016
Plants, Units 1 and 2 - E-mail Re. Draft Report Concerning Dissimilar Metal Weld Indication on Pressurizer Safety Relief Nozzel to Safe End Weld
ML15350A1082016-01-19019 January 2016
Review of the 2015 Steam Generator Tube Inspections
ML15281A2182015-10-21021 October 2015
Supplement to Staff Assessment of Response to 10 CFR 50.54(f) Information Request - Flood Causing Mechanism Reevaluation
RS-15-095, Report of Full Compliance with March 12, 2012 Commission Order Modifying Licenses with Regard to Reliable Spent Fuel Pool Instrumentation (Order Number EA-12-051)2015-04-30030 April 2015
Report of Full Compliance with March 12, 2012 Commission Order Modifying Licenses with Regard to Reliable Spent Fuel Pool Instrumentation (Order Number EA-12-051)
ML15077A1032015-04-16016 April 2015
Staff Assessment of Response to 10 CFR 50.54(f) Information Request - Flood-Causing Mechanism Reevaluation
ML15075A3392015-03-10010 March 2015
NUH32PHB-0101, Revision 4, Design Criteria Document (DCD) for the Nuhoms 32PHB System for Storage
ML15062A0432015-02-27027 February 2015
Report of Changes, Tests, and Experiments - 10 CFR 50.59 and 10 CFR 72.48
ML15042A1372015-02-0303 February 2015
Gesc, NAC International, Atlanta Corporate Headquarters, 655 Engineering Drive, Norcross, Georgia (Engineering Report #NS3-020, Effects of 1300F on Unfilled NS-3, While Bisco Products, Inc., 11/84), Enclosure 4
L-14-036, Response to NRC Request for Information Pursuant to 10 CFR 50.54(f) Regarding Recommendation 2.1 of the Near-Term Task Force Review of Insights from the Fukushima Dai-ichi Accident2014-12-17017 December 2014
Response to NRC Request for Information Pursuant to 10 CFR 50.54(f) Regarding Recommendation 2.1 of the Near-Term Task Force Review of Insights from the Fukushima Dai-ichi Accident
RS-14-277, Proposed Alternative to Utilize Code Case N-513-4, Evaluation Criteria for Temporary Acceptance of Flaws in Moderate Energy Class 2 or 3 Piping Section XI, Division 12014-09-24024 September 2014
Proposed Alternative to Utilize Code Case N-513-4, Evaluation Criteria for Temporary Acceptance of Flaws in Moderate Energy Class 2 or 3 Piping Section XI, Division 1
ML14212A3072014-07-25025 July 2014
NUH32PHB.0101, Rev. 2, Design Criteria Document (DCD) for Nuhoms 32PHB System for Storage.
ML14212A3082014-07-25025 July 2014
NUH32PHB-011, Rev 3, Design Report for 32PHB Dsc.
ML14170B0222014-06-26026 June 2014
Staff Assessment of Flooding Walkdown Reports Supporting Implementation of Near-Term Task Force Recommendation 2.3 Related to the Fukushima Accident
ML14206B0072014-05-19019 May 2014
Considerations for Using Marinite in Refined GSI-191 Chemical Effects Testing. CCNPP-CHLE-009, Revision 4
ML14206B0092014-05-12012 May 2014
Considerations for Using Zinc in Refined GSI-191 Chemical Effects Testing. CCNPP-CHLE-008, Revision 4
ML14099A1962014-03-31031 March 2014
Constellation Energy Nuclear Group, LLC - Seismic Hazard and Screening Report (CEUS Sites), Response to NRC Request for Information Pursuant to 10 CFR 50.54(f) Regarding Recommendation 2.1 of the Near-Term Task.
ML14071A4782014-02-21021 February 2014
Response to Nrc'S Request for Cashflow Statements Regarding Application for Order Approving Transfer of Operating Authority and Conforming License Amendments
ML13225A5662013-12-17017 December 2013
Interim Staff Evaluation Relating to Overall Integrated Plan in Response to Order EA-12-049(Mitigation Strategies)
ML13338A6462013-12-0909 December 2013
Mega-Tech Services, LLC Technical Evaluation Report Regarding the Overall Integrated Plan for Calvert Cliffs Nuclear Power Plant, Units 1 and 2, TAC Nos.: MF1142 and MF1143
ML13319B0802013-11-14014 November 2013
Proposed 10 CFR 50.55a Request for Repair of Saltwater Piping Leak (RR-ISI-04-09)
ML13319A9322013-11-11011 November 2013
CCNPP-BPPlan-002, Rev 0E, Small Scale Debris Bypass-Penetration Test Plan for Calvert Cliffs Nuclear Power Plant.
ML13319A6792013-10-31031 October 2013
CCNPP-CHLE-007, Appendix 1, Alkyd Coatings in Refined GSI-191 Chemical Effects Testing.
ML13319A6702013-10-18018 October 2013
CCNPP-CHLE-007, Rev. G, Coatings Bench-Top Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant.
ML13319A6212013-10-0404 October 2013
CCNPP-CHLE-003, Rev. 0d Chemical Effects Pirt Considerations for Calvert Cliffs Nuclear Power Plant.
ML13301A6742013-09-24024 September 2013
Enclosure 1 - Transition to 10 CFR 50.48(c) - NFPA 805 Performance-Based Standard for Fire Protection for Light Water Reactor Electric Generating Plants, 2001 Edition
ML13224A1032013-08-0808 August 2013
CCNPP-CHLE-007, Revision 0c, Coatings Bench-Top Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant.
ML13224A0942013-08-0606 August 2013
Chemical Effects Pirt Considerations for Calvert Cliffs Nuclear Power Plant, CCNPP-CHLE-003, Revision 0c
ML13149A4052013-05-23023 May 2013
Metals BENCH-TOP Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant, CCNPP-CHLE-006, Revision 0, May 23, 2013
2024-08-27
[Table view]
Category:Technical
MONTHYEARML24240A2462024-08-27027 August 2024
Submittal of the Reactor Vessel Material Surveillance Program Capsule Technical Report
ML23055A2842023-02-24024 February 2023
Proposed Alternative to the Requirements for Repair/Replacement of Saltwater (SW) System Buried Piping
NMP1L3469, Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits2022-06-30030 June 2022
Constellation Energy Company, LLC, Request for Use of Honeywell Mururoa V4F1 R Supplied Air Suits
ML22178A1722022-06-27027 June 2022
Long Term Coupon Surveillance Program
ML22147A1782022-05-27027 May 2022
Owners Activity Report (Form OAR-1) for the Calvert Cliffs Nuclear Power Plant Unit 1 Spring 2022 Refueling Outage
RS-21-093, R. E. Ginna, Proposed Alternative for Examinations of Examination Category C-B Steam Generator Nozzle-to-Shell Welds and Nozzle Inside Radius Sections2021-09-0101 September 2021
R. E. Ginna, Proposed Alternative for Examinations of Examination Category C-B Steam Generator Nozzle-to-Shell Welds and Nozzle Inside Radius Sections
ML21210A3252021-07-30030 July 2021
Submittal of the Reactor Vessel Material Surveillance Program Capsule Technical Report
RS-21-056, Proposed Alternative for Examination of Pressurizer Circumferential and Longitudinal Shell-to-Head Welds and Nozzle-to-Vessel Weld2021-05-12012 May 2021
Proposed Alternative for Examination of Pressurizer Circumferential and Longitudinal Shell-to-Head Welds and Nozzle-to-Vessel Weld
ML21077A1802021-03-18018 March 2021
10 CFR 50.46 Annual Report and 30-day Report for Framatome'S Protect Enhanced Accident Tolerant Fuel (Eatf) Lead Test Assembly (LTA)
RS-21-001, Revised Proposed Alternative to Utilize Code Cases N-878 and N-880 for Carbon Steel Piping2021-01-0404 January 2021
Revised Proposed Alternative to Utilize Code Cases N-878 and N-880 for Carbon Steel Piping
ML20280A5082020-10-0606 October 2020
Submittal of Relief Request CISI-03-01 Concerning Containment Unbonded Post-Tensioning System Inservice Inspection Requirements
ML20034E3462020-02-0707 February 2020
Review of the Spring 2019 Steam Generator Tube Inspection Report
ML19347A7792019-12-12012 December 2019
License Amendment Request to Utilize Accident Tolerant Fuel Lead Test Assemblies
ML19228A0232019-08-15015 August 2019
Proposed Alternative to Utilize Code Case N-879
ML19072A0962019-03-11011 March 2019
Information Regarding Dissimilar Metal Weld 2-CV-2005-30 Flaw Characteristic and Repair Weld Overlay
ML15077A1032015-04-16016 April 2015
Staff Assessment of Response to 10 CFR 50.54(f) Information Request - Flood-Causing Mechanism Reevaluation
ML15075A3392015-03-10010 March 2015
NUH32PHB-0101, Revision 4, Design Criteria Document (DCD) for the Nuhoms 32PHB System for Storage
ML15042A1372015-02-0303 February 2015
Gesc, NAC International, Atlanta Corporate Headquarters, 655 Engineering Drive, Norcross, Georgia (Engineering Report #NS3-020, Effects of 1300F on Unfilled NS-3, While Bisco Products, Inc., 11/84), Enclosure 4
RS-14-277, Proposed Alternative to Utilize Code Case N-513-4, Evaluation Criteria for Temporary Acceptance of Flaws in Moderate Energy Class 2 or 3 Piping Section XI, Division 12014-09-24024 September 2014
Proposed Alternative to Utilize Code Case N-513-4, Evaluation Criteria for Temporary Acceptance of Flaws in Moderate Energy Class 2 or 3 Piping Section XI, Division 1
ML14212A3072014-07-25025 July 2014
NUH32PHB.0101, Rev. 2, Design Criteria Document (DCD) for Nuhoms 32PHB System for Storage.
ML14212A3082014-07-25025 July 2014
NUH32PHB-011, Rev 3, Design Report for 32PHB Dsc.
ML14206B0072014-05-19019 May 2014
Considerations for Using Marinite in Refined GSI-191 Chemical Effects Testing. CCNPP-CHLE-009, Revision 4
ML14071A4782014-02-21021 February 2014
Response to Nrc'S Request for Cashflow Statements Regarding Application for Order Approving Transfer of Operating Authority and Conforming License Amendments
ML13338A6462013-12-0909 December 2013
Mega-Tech Services, LLC Technical Evaluation Report Regarding the Overall Integrated Plan for Calvert Cliffs Nuclear Power Plant, Units 1 and 2, TAC Nos.: MF1142 and MF1143
ML13319B0802013-11-14014 November 2013
Proposed 10 CFR 50.55a Request for Repair of Saltwater Piping Leak (RR-ISI-04-09)
ML13319A9322013-11-11011 November 2013
CCNPP-BPPlan-002, Rev 0E, Small Scale Debris Bypass-Penetration Test Plan for Calvert Cliffs Nuclear Power Plant.
ML13319A6792013-10-31031 October 2013
CCNPP-CHLE-007, Appendix 1, Alkyd Coatings in Refined GSI-191 Chemical Effects Testing.
ML13319A6702013-10-18018 October 2013
CCNPP-CHLE-007, Rev. G, Coatings Bench-Top Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant.
ML13319A6212013-10-0404 October 2013
CCNPP-CHLE-003, Rev. 0d Chemical Effects Pirt Considerations for Calvert Cliffs Nuclear Power Plant.
ML13301A6742013-09-24024 September 2013
Enclosure 1 - Transition to 10 CFR 50.48(c) - NFPA 805 Performance-Based Standard for Fire Protection for Light Water Reactor Electric Generating Plants, 2001 Edition
ML13224A0942013-08-0606 August 2013
Chemical Effects Pirt Considerations for Calvert Cliffs Nuclear Power Plant, CCNPP-CHLE-003, Revision 0c
ML13149A4052013-05-23023 May 2013
Metals BENCH-TOP Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant, CCNPP-CHLE-006, Revision 0, May 23, 2013
ML13149A3992013-05-20020 May 2013
Chemical Effects Autoclave Experiment Test Plan for Calvert Cliffs Nuclear Power Plant CCNPP-CHLE-005, Revision 2, May 20, 2013
ML13149A3942013-05-20020 May 2013
Chemical Effects Head Loss Experiment (Chle) Test Protocol for Calvert Cliffs Nuclear Power Plant, CCNPP-CHLE-002, Revision 0 May 20, 2013
ML13113A2332013-04-23023 April 2013
Technical Letter Report, PNNL Evaluation of Licensee'S Alternative for Volumetric Inspection of Dissimilar Metal Butt Welds at the Calvert Cliffs Plant
ML13088A2202013-03-18018 March 2013
MC4672 & MC4673 - CCNPP-CHLE-005, Rev 1 Chemical Effects Autoclave Experimental Plan with Respect to GL2004-02, GSI-1 91
ML13086A5502013-03-0101 March 2013
MC4672 & MC4673, CCNPP-CHLE-002, Rev 0e Chemical Effects Experimental Protocol with Respect to GL2004-02, GSI-191.
ML13086A5512013-01-24024 January 2013
MC4672 & MC4673 - CCNPP-CHLE-003, Rev 0c Chemical Effects Pirt Considerations Excerpts with Respect to GL2004-02, GSI-191
ML13038A5432013-01-24024 January 2013
Chemical Effects Head Loss Experiment (Chle) Test Protocol for Calvert Cliffs Nuclear Power Plant (CCNPP-CHLE-002, Revision 0d)
ML12339A3672012-11-27027 November 2012
Attachment (3 Cont.) Walkdown Checklists. Part 4 of 8
ML12339A3662012-11-27027 November 2012
Attachment (3 Cont.) Walkdown Checklists. Part 6 of 8
ML12339A3562012-11-27027 November 2012
Attachment (3 Cont.) Walkdown Checklists. Part 2 of 8
ML12339A3542012-11-27027 November 2012
Attachment (3 Cont.) Walkdown Checklists. Part 3 of 8
ML12339A3502012-11-27027 November 2012
Attachment (1) Seismic Walkdown Report, Attachment (2) Equipment Lists and Attachment (3) Walkdown Checklists. Part 1 of 8
ML12339A3682012-11-27027 November 2012
Attachment (3 Cont.) Walkdown Checklists. Part 5 of 8
ML12339A3692012-11-27027 November 2012
Attachment (4 Cont.) Area Walk-By Checklist, Attachment (5) Inaccessible Equipment and Peer Review and Attachment (6) Regulatory Commitments. Part 8 of 8
ML12339A3702012-11-27027 November 2012
Attachment (4) Area Walk-By Checklist. Part 7 of 8
ML12349A2822012-11-27027 November 2012
Seismic Walkdown Report - Cover Page, Table of Content - Page C-50
ML12349A2882012-11-0909 November 2012
Seismic Walkdown Checklists, 11 Containment Spray Pump - Page C-435 - Page C-504
ML12349A2932012-11-0909 November 2012
Area Walk-by Checklist, Page 91 - Page End
2024-08-27
[Table view] |
Text
CCNPPCHLE009, Rev. 4 May 19, 2014 Considerations for using Marinite in Chemical Effects (CE) Testing
Background
Marinite is used in the Calvert Cliffs Nuclear Power Plant (CCNPP) containment as a fire barrier on cable trays. Marinite is a generic term of a mixture of calcium silicate, calcium metasilicate (wollastonite), and reenforcing fibers (fiberglass, organic fibers such as cotton). The Marinite at CCNPP is made by BNZ Materials and comes in a variety of forms ranging from molded casts, boards, and flour. BNZ Materials Marinite I or M are the types of Marinite found in the CCNPP containment (Ref. 1, Attachment 13). BNZ Materials Marinite I or M boards have a nominal density of 46 lbs/cuft (Ref. 1, Att. 13, Page 6 of 13) and are promoted as having high strength and damage resistance.
Marinite debris historically has been modeled as 10 µm particulate spheres for hydraulic characteristics in debris bed head loss testing. The use of Marinite particulate in chemical effects testing is problematic as the Marinite particles are difficult to contain and tend to transport to the debris bed which increases debris bed differential pressure through mechanical influences thereby masking increases in debris bed differential pressure caused by chemical effects.
Approach Marinite particles produced during mechanical manufacturing processes (assumed pretty well formed spherical particles) as measured by BNZ Materials range from roughly 44 µm spheres to 250 plus µm spheres with 96% of the particles being larger than 44 µm in diameter (Ref. 3). Therefore determining the surface area based on claiming ALL are 44 µm spheres is conservative.
Marinite board of the appropriate total surface area equal to the 44 µm spheres is to be used in chemical effects tests. The boards have surface roughness, evaluated that to be about Ra = 6.3 µm. The surface roughness appeared to be mostly ridges like isosceles triangles that covered the surface. Therefore, the ridged surface area is computed per unit area of the Marinite board and found to be 2.3x that of the flat board. Assuming 2.0x was slightly conservative and bounding. (i.e., 401.6 square meters of 44 µm spheres would need 401.6 square meters of board [areas of top, bottom, and edges included] divided by the surface roughness effect of 2.0 results in 200.8 square meters of board). So now the amount of Marinite board exposed surface equal to the 44 µm spheres appropriate for the chemical effects tests is known.
Lastly, use of that area of board would put more mass of Marinite into the test that the same area of 44 µm spheres. That mass would be available to dissolve in the test; not that it will dissolve, just that it is present and could dissolve. As the surface dissolves away, more board is exposed. If the processes can dissolve all of the 44 µm spheres, it might be able to dissolve much of the board (and more mass than is available in the spheres). Potentially, the use of board could be significantly overconservative.
Page 1 of 4
CCNPPCHLE009, Rev. 4 May 19, 2014 Recommended Surrogate for Marinite The following are the responses and recommended surrogate for chemical effects testing of Marinite following a hypothetical LOCA:
Outside a HELB ZOI:
Marinite outside a HELB ZOI will not be source of debris fines. Marinite outside a HELB ZOI may be either exposed to sprays or submerged. Marinite in service at CCNPP is 1/2 thick (Ref. 1, Att. 10, Page 5 of 8).
Therefore, 1/2 thick pieces of BNZ Material Marinite I or M board are appropriate for CCNPP Chemical Effects tests.
Inside a HELB ZOI:
Marinite debris from a HELB ZOI will be small pieces (0.5%), large pieces (2.7%) and 95.5% will remain intact on the cable tray as intact pieces (Ref. 2, Table 3c12, Marinite Size Distribution, page 97). 1.3 %
of the Marinite inside a HELB ZOI is assumed to fail as fines (particulate) (Ref. 2, same table as above).
Marinite Small Pieces, Large Pieces, and Intact Pieces 1/2 thick pieces of Marinite I or M boards can be used as a surrogate for Marinite small pieces, large pieces, and intact pieces.
Marinite Fines:
Marinite fines can be used in Chemical Effects testing where the transport of particulate is not an issue, e.g. beaker bench top tests. Marinite particulate can be purchased from BNZ Materials as Marinite Fines, a manufacturing byproduct from sanding and cutting of Marinite I and M boards. Marinite Fines is an appropriate surrogate for Marinite particulate from a HELB ZOI since the breakup by sanding and cutting would be analogous to the breakup of the Marinite board within the ZOI. Attached is the BNZ Materials analysis of Marinite Fines (Ref 3).
1/2 thick pieces of Marinite I or M boards can be used as a surrogate for Marinite fines where the transport of particulate is problematic. The surface area of the Marinite board will be calculated assuming the Marinite particulate to be 44 µm in diameter as discussed above and presented below.
Surface Area of Marinite Board to Represent Fines in Chemical Effects Testing Reference 1 determined that 0.104 cubic feet (Ref. 1, Page 14, Section 8.0) of Marinite board would become particulate debris in a design basis LOCA at CCNPP. Using the above evaluation of 44 µm diameter, this volume of Marinite particulate would produce an exposed surface area of 4,323 square feet. Such scaling ignores the surface contours and roughness of the Marinite board.
Page 2 of 4
CCNPPCHLE009, Rev. 4 May 19, 2014 Computation of Particulate Parameters:
- 1. 0.104 cubic feet = 0.002945 cubic meters
- 2. Sphere volume
- a. 44 µm diameter = 4/3r3=4/3(44x106m/2)3=44.60x1015m3 per particle
- 3. Number of spheres that equals the above volume of Marinite blasted
- a. Number of 44 µm diameter spheres = Volume/Volume of one sphere=
2.945x103m3/44.60x1015m3per sphere = 66.03x109 spheres
- 4. Sphere surface area
- a. 44 µm diameter = 4r2=4(44x106m/2)2=6.082x109m2 per particle
- 5. Total Surface Area of Spheres
- a. 44 µm diameter = Number of spheres x sphere surface area =
66.03x109spheres x 6.082x109m2 per sphere = 401.6 m2 Recent evaluation of a sample of Marinite board from CCNPP determined the surface roughness to be Ra=6.3 µm. See Figure 2 for a photograph of a small piece of Marinite, approximately 1 inch long.
Assuming each surface feature is a 'ridge' 6.3 µm tall with base of 6.3 micrometers and the surface is completely covered by such features would yield an exposed surface of 2.23 times the apparent board surface assuming a perfectly smooth surface. Therefore, scaling particulate to surface area without considering surface roughness results in a greater than a 2 times over estimate of required surface area.
Figure 2: Marinite Board, ~3 centimeters long, Surface Roughness Ra=6.3 µm Page 3 of 4
CCNPPCHLE009, Rev. 4 May 19, 2014 Computation of Bulk Marinite Surface Area Parameters:
- 1. Area of Ridge (assumed to be isosceles triangle in cross section):
- a. 6.3 µm tall with 6.3 µm base x length of the sample = 2 x L x 3.15 6.3
= 2 x L x 7.044 µm per ridge
- 2. Number of ridges = width / 6.3 µm = W/6.3 µm
- 3. Total Ridge Area = W/6.3 µm x (2 x L x 7.044 µm per ridge) = W x L x 2.236 Therefore, the ridges increase the surface area by more than a factor of 2.3x.
Furthermore, use of a half inch thick board adds much more mass to the test, allowing any dissolution to proceed to far greater extent than could dissolution of 44 µm particles (not faster but to a potentially greater mass dissolved).
Conclusion Marinite board used as a surrogate for Marinite particulate will have total surface area 50% of the total surface area of the number of 44 µm spherical particles calculated to be produced for each break (50%
is based on the surface roughness computation above). For the example presented above, the surface area to be used in a chemical effects test would be 0.50 x 401.6 m2 = 200.8 m2 scaled to the volume of the test fluid.
References
- 1) CCNPP Calculation CA06940 Rev. 0001, Computation of Aluminum and Marinite Board Debris Loads, March 23, 2009.
- 2) Attachment 3 to AEPNRC: 805402, NRC Accession Number ML080770395.
- 3) Fax from Norman R. Scheffer, Product Development, BNZ Materials, to Gilbert Zigler, ENERCON, dated 09/13/2013 (Attached).
Page 4 of 4
Attachment Fax from Norman R. Scheffer, Product Development, BNZ Materials, to Gilbert Zigler, ENERCON, dated 09/13/2013
