NRC 2010-0164, License Amendment Request 261 Extended Power Uprate, Response to Clarification Request: Difference between revisions
StriderTol (talk | contribs) (Created page by program invented by StriderTol) |
StriderTol (talk | contribs) (StriderTol Bot change) |
||
| (One intermediate revision by the same user not shown) | |||
| Line 18: | Line 18: | ||
=Text= | =Text= | ||
{{#Wiki_filter:NE)cyera TM POINT BEACH | {{#Wiki_filter:October 12,2010 NE)cyera TM POINT BEACH NRC 201 0-01 64 10 CFR 50.90 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Point Beach Nuclear Plant, Units 1 and 2 Dockets 50-266 and 50-301 Renewed License Nos. DPR-24 and DPR-27 License Amendment Reauest 261 Extended Power U~rate Res~onse to Clarification Reauest | ||
==References:== | ==References:== | ||
(1) | (1) | ||
(2) | FPL Energy Point Beach, LLC letter to NRC, dated April 7, 2009, License Amendment Request 261, Extended Power Uprate (ML091250564) | ||
(3) | (2) | ||
NextEra Energy Point Beach, LLC (NextEra) submitted License Amendment Request (LAR) 261 (Reference I) | NextEra Energy Point Beach, LLC letter to NRC dated July 8, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional lnformation (MLI 01 940363) | ||
(3) | |||
NextEra Energy Point Beach, LLC letter to NRC dated July 27, 201 0, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional lnformation (MLI 021 601 63) | |||
NextEra Energy Point Beach, LLC (NextEra) submitted License Amendment Request (LAR) 261 (Reference I) to the NRC pursuant to 10 CFR 50.90. The proposed amendment would increase each unit's licensed thermal power level from 1540 megawatts thermal (MWt) to 1800 MWt, and revise the Technical Specifications to support operation at the increased thermal power level. | |||
During a telephone conference with the Containment and Ventilation Branch on September 29, 2010, the NRC staff requested clarification of information provided in References (2) and (3). Enclosure 1 provides the NextEra response to the NRC staff's request for clarification. | During a telephone conference with the Containment and Ventilation Branch on September 29, 2010, the NRC staff requested clarification of information provided in References (2) and (3). Enclosure 1 provides the NextEra response to the NRC staff's request for clarification. | ||
This letter contains no new Regulatory Commitments and no revisions to existing Regulatory Commitments. | This letter contains no new Regulatory Commitments and no revisions to existing Regulatory Commitments. | ||
NextEra Energy Point Beach, LLC, 6610 Nuclear Road, Two Rivers, WI 54241 | |||
NextEra Energy Point Beach, LLC, 6610 Nuclear Road, Two Rivers, WI 54241 | |||
Document Control Desk Page 2 The information contained in this letter does not alter the no significant hazards consideration contained in Reference (1) and continues to satisfy the criteria of 10 CFR 51.22 for categorical exclusion from the requirements of an environmental assessment. | Document Control Desk Page 2 The information contained in this letter does not alter the no significant hazards consideration contained in Reference (1) and continues to satisfy the criteria of 10 CFR 51.22 for categorical exclusion from the requirements of an environmental assessment. | ||
In accordance with 10 CFR 50.91, a copy of this letter is being provided to the designated Wisconsin Official. | In accordance with 10 CFR 50.91, a copy of this letter is being provided to the designated Wisconsin Official. | ||
I declare under penalty of perjury that the foregoing is true and correct. | I declare under penalty of perjury that the foregoing is true and correct. | ||
Executed on October 12, | Executed on October 12, 201 0. | ||
Very truly yours, NextEra Energy Point Beach, LLC Enclosure cc: | Very truly yours, NextEra Energy Point Beach, LLC Enclosure cc: | ||
Administrator, Region Ill, USNRC Project Manager, Point Beach Nuclear Plant, USNRC Resident Inspector, Point Beach Nuclear Plant, USNRC PSCW | |||
ENCLOSURE 1 NEXTERA ENERGY POINT BEACH, LLC POINT BEACH NUCLEAR PLANT, UNITS I AND 2 LICENSE AMENDMENT REQUEST 261 EXTENDED POWER UPRATE RESPONSE TO CLARIFICATION .REQUEST During a telephone conference on September 29, | ENCLOSURE 1 NEXTERA ENERGY POINT BEACH, LLC POINT BEACH NUCLEAR PLANT, UNITS I AND 2 LICENSE AMENDMENT REQUEST 261 EXTENDED POWER UPRATE RESPONSE TO CLARIFICATION.REQUEST During a telephone conference on September 29, 201 0, the NRC staff requested clarification of information provided in References (I) and (2) to enable the Containment and Ventilation Branch to complete the review of License Amendment Request (LAR) 261, Extended Power Uprate (EPU) (Reference 3). The requested clarification is described below. | ||
Request for Clarification In Attachment 14 to the July 8, 2010 letter from NextEra Energy Point Beach, LLC, to the NRC, Table A. 6, "Volume Initial Conditions,"the first sentence states the following: "The initial conditions in all control volumes are 14.375 psia pressure, 90°F temperature, and 37% relative humidity with the exception of the following volumes." This implies that the values of initial temperature and relative humidity in all volumes are 9OWF'and37%relative humidity, respectively, with the exception of the volumes listed in Table A. 6. | Request for Clarification In Attachment 14 to the {{letter dated|date=July 8, 2010|text=July 8, 2010 letter}} from NextEra Energy Point Beach, LLC, to the NRC, Table A. 6, "Volume Initial Conditions, "the first sentence states the following: "The initial conditions in all control volumes are 14.375 psia pressure, 90°F temperature, and 37% relative humidity with the exception of the following volumes." This implies that the values of initial temperature and relative humidity in all volumes are 9OWF'and37% relative humidity, respectively, with the exception of the volumes listed in Table A. 6. | ||
In the electronic file "pb-pab-base.gthJ' | In the electronic file "pb-pab-base.gthJ'provided in the response to Question 3 in Enclosure I to the {{letter dated|date=July 27, 2010|text=July 27, 2010 letter}} from NextEra Energy Point Beach, LLC to the NRC, the default values in the initial conditions menu for temperature and relative humidity are listed as 85°F and 50% | ||
respectively. | respectively. | ||
Please explain the apparent discrepancy. | Please explain the apparent discrepancy. | ||
Additionally, please provide the basis for the 37% relative humidity initial condition. | Additionally, please provide the basis for the 37% relative humidity initial condition. | ||
NextEra Response: | NextEra Response: | ||
The electronic file "pb-pab-base. | The electronic file "pb-pab-base.gthW provided in the response to Question 3 in Enclosure I of Reference (2) was the original GOTHICTM base model for the Point Beach Nuclear Plant (PBNP) primary auxiliary building (PAB). Subsequent high energy line break (HELB) analyses for PBNP considered the information presented in Table A.6 of Attachment 14 to Reference (1). | ||
Based on the September 29, 2010, conference call with the NRC staff, NextEra agreed to provide a revision to the PBNP PAB | Based on the September 29, 2010, conference call with the NRC staff, NextEra agreed to provide a revision to the PBNP PAB GOTHICTM model to be consistent with Table A.6 of 4 to Reference (1). | ||
NextEra has completed this revision and a disc accompanies this submittal which contains the electronic version of the "GTH" files requested by the NRC. The revised model is designated as pb-pab-base-a.gth. The "-a" addition to the file name is made to distinguish the revised model from the original model. | NextEra has completed this revision and a disc accompanies this submittal which contains the electronic version of the "GTH" files requested by the NRC. The revised model is designated as pb-pab-base-a.gth. The "-a" addition to the file name is made to distinguish the revised model from the original model. | ||
Page 1 of 3 | Page 1 of 3 | ||
Limiting pressure and temperature sensitivity cases were performed to determine the effect of the differing initial condition assumptions for temperature and humidity. Utilizing the data from Table A.6 of Attachment 14 to Reference (I), in lieu of the data in electronic file "pb-pab-base.gthn provided in the response to Question 3 in Enclosure 1 of Reference (2), | Limiting pressure and temperature sensitivity cases were performed to determine the effect of the differing initial condition assumptions for temperature and humidity. Utilizing the data from Table A.6 of Attachment 14 to Reference (I), in lieu of the data in electronic file "pb-pab-base.gthn provided in the response to Question 3 in Enclosure 1 of Reference (2), | ||
resulted in an insignificant maximum pressure decrease of 0.001 psi for the limiting pressure case, and an insignificant maximum temperature increase of O.lZ°F for the limiting temperature case. | resulted in an insignificant maximum pressure decrease of 0.001 psi for the limiting pressure case, and an insignificant maximum temperature increase of O.lZ°F for the limiting temperature case. | ||
The basis for the 37% relative humidity initial condition assumption is the Climatic Design Conditions for Manitowoc, Wisconsin in the hottest month of July. The weather data in Chapter 28 of the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) Handbook Fundamentals, 2005 Edition, contains the design dry bulb and mean coincident wet bulb temperatures for the hot days and also the design wet bulb and mean coincident dry bulb temperatures for the humid days. The humidity ratio of the outside air for these days was examined to determine a conservative value or relative humidity for the | The basis for the 37% relative humidity initial condition assumption is the Climatic Design Conditions for Manitowoc, Wisconsin in the hottest month of July. The weather data in Chapter 28 of the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) Handbook Fundamentals, 2005 Edition, contains the design dry bulb and mean coincident wet bulb temperatures for the hot days and also the design wet bulb and mean coincident dry bulb temperatures for the humid days. The humidity ratio of the outside air for these days was examined to determine a conservative value or relative humidity for the GOTHICTM model. | ||
The humidity ratio is determined by using the psychrometric chart in Figure 1 of Chapter 6 of the ASHRAE Handbook Fundamentals, 2005 Edition. The humidity ratios of the outside air, W, at the 0.4%, 1% and 2% design conditions on the hot days, in units of Ibm of water vapor per Ib of dry air (Ibw/lbd,) are as follows: | The humidity ratio is determined by using the psychrometric chart in Figure 1 of Chapter 6 of the ASHRAE Handbook Fundamentals, 2005 Edition. The humidity ratios of the outside air, W, at the 0.4%, 1% and 2% design conditions on the hot days, in units of Ibm of water vapor per Ib of dry air (Ibw/lbd,) are as follows: | ||
Design | Likewise, the humidity ratios of the outside air at the 0.4%, I | ||
% and 2% design conditions on the humid days are as follows: | |||
Design Condition | |||
[%I 0.4 1 | |||
2 When outside air is used as ventilation air, the moisture content in the room is directly related to the moisture content of the outside air. A lower moisture content in the outside air will result in lower moisture content in the room for room heatup calculations. A lower moisture content in the room will yield a quicker temperature rise and higher room temperature due to (1) lower heat capacity of the dryer air compared to moist air, and (2) lower radiative heat transfer from the water vapor in the warm air to the heat sinks in the room. Therefore, a conservative low value of relative humidity should be used in the GOTHICTM model. The above results show that the minimum humidity ratio is 0.01 30 Ibw/lbd, and that the humidity ratio is relatively constant for the hot days. Using this humidity ratio and a maximum outside air temperature of 95"F, the relative humidity is determined from the psychrometric chart to be 37%. | |||
Monthly Design Dry Bulb | |||
[" F] | |||
89.7 86.3 84 Design Condition | |||
[%I 0.4 1 | |||
2 Page 2 of 3 Mean Coincident Wet Bulb | |||
[" F] | |||
72.4 71.2 70.7 Monthly Design Dry Bulb | |||
[" Fl 85.6 84.1 81.2 W | |||
[lbwvllbda] | [lbwvllbda] | ||
0.01 32 0.01 30 0.01 31 Mean Coincident Wet Bulb | |||
[" Fl 77.6 75.8 74.1 W | |||
[lbwvllbda] | [lbwvllbda] | ||
0.01 87 0.01 74 0.0166 | |||
References (1) | References (1) | ||
(2) | NextEra Energy Point Beach, LLC letter to NRC dated July 8, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional Information (MLI 01 940363) | ||
(3) | (2) | ||
NextEra Energy Point Beach, LLC letter to NRC dated July 27, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional Information (ML102160163) | |||
(3) | |||
FPL Energy Point Beach, LLC letter to NRC, dated April 7, 2009, License Amendment Request 261, Extended Power Uprate (ML091250564) | |||
Page 3 of 3}} | Page 3 of 3}} | ||
Latest revision as of 02:34, 14 January 2025
| ML102860455 | |
| Person / Time | |
|---|---|
| Site: | Point Beach  |
| Issue date: | 10/12/2010 |
| From: | Meyer L Point Beach |
| To: | Office of Nuclear Reactor Regulation, Document Control Desk |
| References | |
| NRC 2010-0164 | |
| Download: ML102860455 (5) | |
Text
October 12,2010 NE)cyera TM POINT BEACH NRC 201 0-01 64 10 CFR 50.90 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Point Beach Nuclear Plant, Units 1 and 2 Dockets 50-266 and 50-301 Renewed License Nos. DPR-24 and DPR-27 License Amendment Reauest 261 Extended Power U~rate Res~onse to Clarification Reauest
References:
(1)
FPL Energy Point Beach, LLC letter to NRC, dated April 7, 2009, License Amendment Request 261, Extended Power Uprate (ML091250564)
(2)
NextEra Energy Point Beach, LLC letter to NRC dated July 8, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional lnformation (MLI 01 940363)
(3)
NextEra Energy Point Beach, LLC letter to NRC dated July 27, 201 0, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional lnformation (MLI 021 601 63)
NextEra Energy Point Beach, LLC (NextEra) submitted License Amendment Request (LAR) 261 (Reference I) to the NRC pursuant to 10 CFR 50.90. The proposed amendment would increase each unit's licensed thermal power level from 1540 megawatts thermal (MWt) to 1800 MWt, and revise the Technical Specifications to support operation at the increased thermal power level.
During a telephone conference with the Containment and Ventilation Branch on September 29, 2010, the NRC staff requested clarification of information provided in References (2) and (3). Enclosure 1 provides the NextEra response to the NRC staff's request for clarification.
This letter contains no new Regulatory Commitments and no revisions to existing Regulatory Commitments.
NextEra Energy Point Beach, LLC, 6610 Nuclear Road, Two Rivers, WI 54241
Document Control Desk Page 2 The information contained in this letter does not alter the no significant hazards consideration contained in Reference (1) and continues to satisfy the criteria of 10 CFR 51.22 for categorical exclusion from the requirements of an environmental assessment.
In accordance with 10 CFR 50.91, a copy of this letter is being provided to the designated Wisconsin Official.
I declare under penalty of perjury that the foregoing is true and correct.
Executed on October 12, 201 0.
Very truly yours, NextEra Energy Point Beach, LLC Enclosure cc:
Administrator, Region Ill, USNRC Project Manager, Point Beach Nuclear Plant, USNRC Resident Inspector, Point Beach Nuclear Plant, USNRC PSCW
ENCLOSURE 1 NEXTERA ENERGY POINT BEACH, LLC POINT BEACH NUCLEAR PLANT, UNITS I AND 2 LICENSE AMENDMENT REQUEST 261 EXTENDED POWER UPRATE RESPONSE TO CLARIFICATION.REQUEST During a telephone conference on September 29, 201 0, the NRC staff requested clarification of information provided in References (I) and (2) to enable the Containment and Ventilation Branch to complete the review of License Amendment Request (LAR) 261, Extended Power Uprate (EPU) (Reference 3). The requested clarification is described below.
Request for Clarification In Attachment 14 to the July 8, 2010 letter from NextEra Energy Point Beach, LLC, to the NRC, Table A. 6, "Volume Initial Conditions, "the first sentence states the following: "The initial conditions in all control volumes are 14.375 psia pressure, 90°F temperature, and 37% relative humidity with the exception of the following volumes." This implies that the values of initial temperature and relative humidity in all volumes are 9OWF'and37% relative humidity, respectively, with the exception of the volumes listed in Table A. 6.
In the electronic file "pb-pab-base.gthJ'provided in the response to Question 3 in Enclosure I to the July 27, 2010 letter from NextEra Energy Point Beach, LLC to the NRC, the default values in the initial conditions menu for temperature and relative humidity are listed as 85°F and 50%
respectively.
Please explain the apparent discrepancy.
Additionally, please provide the basis for the 37% relative humidity initial condition.
NextEra Response:
The electronic file "pb-pab-base.gthW provided in the response to Question 3 in Enclosure I of Reference (2) was the original GOTHICTM base model for the Point Beach Nuclear Plant (PBNP) primary auxiliary building (PAB). Subsequent high energy line break (HELB) analyses for PBNP considered the information presented in Table A.6 of Attachment 14 to Reference (1).
Based on the September 29, 2010, conference call with the NRC staff, NextEra agreed to provide a revision to the PBNP PAB GOTHICTM model to be consistent with Table A.6 of 4 to Reference (1).
NextEra has completed this revision and a disc accompanies this submittal which contains the electronic version of the "GTH" files requested by the NRC. The revised model is designated as pb-pab-base-a.gth. The "-a" addition to the file name is made to distinguish the revised model from the original model.
Page 1 of 3
Limiting pressure and temperature sensitivity cases were performed to determine the effect of the differing initial condition assumptions for temperature and humidity. Utilizing the data from Table A.6 of Attachment 14 to Reference (I), in lieu of the data in electronic file "pb-pab-base.gthn provided in the response to Question 3 in Enclosure 1 of Reference (2),
resulted in an insignificant maximum pressure decrease of 0.001 psi for the limiting pressure case, and an insignificant maximum temperature increase of O.lZ°F for the limiting temperature case.
The basis for the 37% relative humidity initial condition assumption is the Climatic Design Conditions for Manitowoc, Wisconsin in the hottest month of July. The weather data in Chapter 28 of the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) Handbook Fundamentals, 2005 Edition, contains the design dry bulb and mean coincident wet bulb temperatures for the hot days and also the design wet bulb and mean coincident dry bulb temperatures for the humid days. The humidity ratio of the outside air for these days was examined to determine a conservative value or relative humidity for the GOTHICTM model.
The humidity ratio is determined by using the psychrometric chart in Figure 1 of Chapter 6 of the ASHRAE Handbook Fundamentals, 2005 Edition. The humidity ratios of the outside air, W, at the 0.4%, 1% and 2% design conditions on the hot days, in units of Ibm of water vapor per Ib of dry air (Ibw/lbd,) are as follows:
Likewise, the humidity ratios of the outside air at the 0.4%, I
% and 2% design conditions on the humid days are as follows:
Design Condition
[%I 0.4 1
2 When outside air is used as ventilation air, the moisture content in the room is directly related to the moisture content of the outside air. A lower moisture content in the outside air will result in lower moisture content in the room for room heatup calculations. A lower moisture content in the room will yield a quicker temperature rise and higher room temperature due to (1) lower heat capacity of the dryer air compared to moist air, and (2) lower radiative heat transfer from the water vapor in the warm air to the heat sinks in the room. Therefore, a conservative low value of relative humidity should be used in the GOTHICTM model. The above results show that the minimum humidity ratio is 0.01 30 Ibw/lbd, and that the humidity ratio is relatively constant for the hot days. Using this humidity ratio and a maximum outside air temperature of 95"F, the relative humidity is determined from the psychrometric chart to be 37%.
Monthly Design Dry Bulb
[" F]
89.7 86.3 84 Design Condition
[%I 0.4 1
2 Page 2 of 3 Mean Coincident Wet Bulb
[" F]
72.4 71.2 70.7 Monthly Design Dry Bulb
[" Fl 85.6 84.1 81.2 W
[lbwvllbda]
0.01 32 0.01 30 0.01 31 Mean Coincident Wet Bulb
[" Fl 77.6 75.8 74.1 W
[lbwvllbda]
0.01 87 0.01 74 0.0166
References (1)
NextEra Energy Point Beach, LLC letter to NRC dated July 8, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional Information (MLI 01 940363)
(2)
NextEra Energy Point Beach, LLC letter to NRC dated July 27, 2010, License Amendment Request 261, Extended Power Uprate, Response to Request for Additional Information (ML102160163)
(3)
FPL Energy Point Beach, LLC letter to NRC, dated April 7, 2009, License Amendment Request 261, Extended Power Uprate (ML091250564)
Page 3 of 3