ML20141H151
| ML20141H151 | |
| Person / Time | |
|---|---|
| Issue date: | 08/16/1985 |
| From: | Fraley R Advisory Committee on Reactor Safeguards |
| To: | Joseph Austin NRC COMMISSION (OCM) |
| Shared Package | |
| ML20140C992 | List:
|
| References | |
| FOIA-85-653 ACRS-GENERAL, NUDOCS 8601130449 | |
| Download: ML20141H151 (120) | |
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August 16, 1985 MEMORANDUM FO.R:. John Austin, Technical Assistant Office of Commissioner Asselstine FROM:
R. F. Fraley, Executive Director, ACRS
SUBJECT:
ADDITIONAL ACRS REVIEW 0F PROPOSED RULE 10 CFR PART 50,
" EMERGENCY PLANNING AND PREPAREDNESS FOR PRODUCTION AND UTILIZATION FACILITIES," 49 FR 49640, DATED DECEMBER 21, 1985 In the absence of a " Staff Requirements" memo for the requests made of the ACRS during its meeting with the Commissioners on July 11, 1985, we are proceeding to develop comments responsive to the questions asked by individual Commissioners during the subject meeting.
In the case of Commissioner Asselstine, it is our understanding that he was interested in having the Committee comment on the numerical values cited in the July 5, 1985 memorandum for the Commissioners from the Executive Director for Operations.
The Committee is proceeding in this direction.
At the present time, we are working on a subcommittee meeting to be held on October 9,1985 to evaluate this proposed rule, taking into account the request the Commissioners made during the July 11, 1985 meeting.
cc:
Chairman Palladino Commissioner Roberts Commissioner Bernthal Commissioner Zech S. Chilk, SECY D. A. Ward, ACRS D. W. Moeller, ACRS D. Okrent, ACRS C. P. Siess, ACRS
[Same memo sent to:
M. Clausen, TA to Commsr Zech J. Meyer, TA to Commsr Bernthal]
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The Commissioners
-From:
William J. Dircks Executive Director for Operations
Subject:
FINAL AMENDMENTS TO 10 CFR PART 50, APPENDIX E; CONSIDERATICN OF EARTHQUAKES IN EMERGENCY PLANNING
Purpose:
To obtain Commission approval for publication in the Federal Register of a final amendment to the regulations that would require limited consideration of the complicating effects of severe, low frequency natural phenomena, v. lch would include earthquakes, in emergency planning.
Categorv:
This paper covers a major policy matter.
Summary:
In the San Onofre and Diablo Canyon proceedings the Commission ruled that its regulations do not require the consideration of the potential complicating effects of earthquake on emergency planning. The Commission also asked the staff to initiate rule-making to determine on a generic basis whether the regulations should be changed to require such consideration. A proposed rule was published on December. 21, 1984. After evaluating all
'public comments on the proposed rule, past operating reactor and emergency preparedness experience and the ACRS comments, the staff recommends that a final regulation be promulgated which will:
1.
Clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assure tnat there exists..." reasonable assurance that appropriate protective actions can and will be taken..." to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
Contact:
Mike Jamgochian, RES 443-7615 l
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The Commissioners 2
3.
Require the ability by the licensee to assess damage to the plant and to translate this information into realistic pro-jections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommenda-tions for protective actions after severe, low-frequency, natural phenomena.
4.
Specify that offsite emergency plans should include consideration of alternative actions which could be taken if there were damage to the plant environs. This should be limited to knowing alternate routes of travel as well as establishing criteria for determining whether to shelter, relocate or to evacuate.
This staff recommendation would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of severe, low frequency natural phenomena. This is not being recommended because a natural phenomena beyond the design basis would cause such unpredictable disruption and devastation that the time estimates would probably be meaningless and in fact may be misleading.
2.
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, low frequency natural phenomena.
3.
A detailed, extensive study considering the complicating effects of earthquakes or other natural phenomena on offiste emergency response capabilities. The staff specifically considers that the " TERA" study completed for Diablo Canyon is well beyond the scope and intent of this rulemaking.
Background:
On December 8, 1981, the Commission ruled in a then pending adjudication that its emergency planning regulations do not require consideration of potential earthquake effects on emer-gency plans for nuclear power reactors. iouthern California Edison Company, et al.
(San Onofre Nuclear Generating Station, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
In so ruling the Commission stated:
The Commission will consider on a generic basis whether regulations should be changed to address the potential impacts of a. severe earthquake on emergency planning. For the interim, the proximate occurrence of an accidental radiological release and an earthquake that could disrupt normal emergency planning appears sufficiently unlikely that consideration in individual licensing proceedings pending generic consideration of the matter is not warranted. 14 NRC at 1092.
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The Commission affirmed this position in the Diablo Canyon proceeding. Pacific Gas and Electric Company (Diablo Canyon Nuclear Power Plant, Units 1 and 2), CLI-84-12, 20 NRC 249 (August 10, 1984).
In this decision the Commission stated that it would initiate rulemaking "to address whether the potential for seismic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amendment of the regulations to specifically consider those impacts."
20 NRC at 254. The focus of this rulemaking is to "obtain additional information to determine whether, in spite of current indications to the contrary, cost-effective reductions in overall risk may be obtained by the explicit consideration of severe earthquakes in emergency response planning."
Id. at 254-255.
Discussion:
On December 21, 1984, the Commission published a proposed amend-ment to portions of 10 CFR Part 50 relating to earthquakes and emergency planning (49 FR 49640). The proposed rule stated that neitner emergency response plans nor evacuation time analyses need consider the impact of earthquakes which cause or occur proximate in time with an accidental release of radioactive material frr a nuclear power reactor. These amendments to 10 CFR 50.4. and 10 CFR Part 50 Appendix E proposed to explicitly adopt by rule the Commission's interpretation of its existing' rules in the Commission San Onofre and Diablo Canyon decisions.
In the proposed rule, the Commission requested that commentors address the merits of three possible alternatives:
1.
Adoption of the proposed rule explicitly incorporating the Commission interpretation in San Onofre and Diablo Canyon, not to consioer the impacts of earthquakes in emergency planning.
2.
Leaving the issue open for adjudication on a case-by-case basis; or 3.
Requiring by rule that emergency plans specifically address the impacts of earthquakes.
The Commission was also coaxidering whether to include in this rulemaking tornadoes and other low-frequency natural events.
The proposed rule pkenitted a 30-day comment period. This period was extended until February 27, 1985. To date, 61 comment letters have been received. Twenty-five letters favored the promulgation of the proposed rule. The majority of these letters were from utilities and consulting firms representing utilities.
Two favorable comments were receivrei from private citizens and one from the Department of Energy.
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1 Thirty-four letters opposed promulgation of the proposed rule, many of which voiced strong displeasure, shock or disbelief regarding the wording of the proposed rule. The majority of these letters were from private citizens, intervenor groups and public interest groups. Nine of these letters were in signed petition form with approximately 94 signatures in total.
Further, in a letter to the Chairman, dated June 20, 1985, the ACRS stated that "we...see no technical reason for the exclusion of earthquakes from the natural phenomena considered in offsite emergency planning for nuclear power plants. However, we believe that only limited consideration...is appropriate." Additional input was obtained from the nuclear regulatory authorities in Japan, France, Sweden, Germany and Taiwan, all of which stated that the potential _ complicating effects of earthquakes were not specifically considered in their nuclear power reactor emergency planning.
No commentor took a position on the second alternative, i.e.,
leaving the issue open for adjudication on a case-by-case basis.
All of the commentors favoring promulgation of the proposed rule simply stated their agreer..ent with the rationale offered by the Commission, and provided little additional detailed information supporting the proposed rule. Commentors opposing the proposed rule questioned the validity of the Commission's rationale and raised a number of points which have been addressed by the staff in developing the proposed final rule.
(Enclosure 1)
Alternatives:
After review of the San Onofre and Diablo Canyon decisions and evaluation of issues raised by the public comments, the staff offers for Commission consideration three alternative approaches:
Alternative 1.
Adoption of the proposed rule into a final rule with minor but important word changes, for example, "no additional emergency preparedness measures need be established to account for severe, low frequency natural phenomena than is already required in 10 CFR 50.47 and Appendix E."
Pro: 1.
Narrows litigation of the issue in individual licensing-cases.
2.
Does not arbitrarily focus on earthquakes.
3.
Makes explicit the Commission's position that reason-able plans for coping with severe natural phenomena are already in place.
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Con: 1.
Significant public concerns may appear to be dismissed without due consideration.
2.
Can be perceived as inconsistent with the Commission's approach to severe accidents and the concept of defense in depth.
Alternative 2.
Leaving the issue open for adjudication on a case-by-case basis; accomplished by withdrawing the proposed rule or by requiring consideration of earthquakes.
Pro: Permits consideration of special plant or site factors.
Con: 1.
The litigation itself would have no bounds--e.g.,
strength of bridges and roads may be litigated.
2.
Prolorg the licensing process through adjudication.
Alternative 3: Promulgate a final rule which incorporates justi-fication previously used by the Commission and states that emer-gency response plans shall assure that the following capabilities exist relative to the complicating impacts of severe, low fre-quency natural phenomena characteristic of the site. In address-ing the following capabilities the licensee shall assume that the design basis event has been exceeded and that normal communica-tion and road networks have been disrupted.
1.
Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
2.
. Ability by the licensee to assess damage to the plant and to translate this information into projections of the expected or actual radiation hazard offsite, and be able to communi-cate this information to offsite authorities, so that this information will be available as a factor in the decision-making process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
In considering the complicating impacts of severe, low frequency natural phenomena, State and local governments should identify, in their emergency plans, alternate routes of travel and methods fo" determining whether to shelter or evacuate.
Pro: 1.
Such a rule would lend greater specificity to the Commissiom s original premise that emergency plans are sufficiently flexible to accommodate a spectrum of events, including the potential complicating impacts of severe, low frequency natural phenomena.
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2.
Defines scope of issues open to litigation.
3.
Includes all natural phenomena rather than focusing arbitrarily on earthquakes.
4.
This is consistent with the Commission's action in other areas dealing with possible accidents with low predicted return frequencies.
Con: 1.
Permit litigation in those areas covered in the rule.
This may extend the licensing process.
2.
May open litigation at operating reactors (through 10 CFR 2.206).
Having considered all of the above, as well as all comments received, past operating reactor and emergency preparedness experiences and the ACRS comments, the staff recommends that Alternative 3 be adopted.
In reaching this recommendation the staff has given consideration to the following arguments.
.Commenters raised the following issues concerning earthquakes and emergency preparedness:
Limited or no record exists concerning the flexibility of o
emergency plans to support the proposed rule; therefore, the Commission cannot make a generic finding that effects of earthquakes on emergency planning are always resolved by the general flexibility of emergency plans (see Issue 1, ),
Current emergency plans take into consideration plant o
accidents whose probability are in the range of 10E(-4) to 10E(-5). These plans should consider the complicating effects of severe, natural phenomena (2 to 4 times the SSE) whose return frequency is in the same range (see issue 3, ),
o Defects in seismic design and quality assurance in construc-tion can undermine the seismic strength cf plant systems and structures (see Issue 6 in Enclosure 1), and
.o There is limited existing information on the contribution of seismic events to overall core melt frequency (see Issues 5 and 12, Enclosure 1) in that only a few PRAs assess seismic risks and the treatment entails many uncertainties.
Additionally the Emergency Action Level scheme addressed in NUREG-0654 recommends that an emergency be declared in the event that a " Natural phenomenon is being experienced..." at the plant.
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As the intensity of the natural phenomenon increases so does the classification of the emergency. Many licensees have incorporated these recommendations into their emergency plans. Based on these emergency plans, licensee actions when the plant experiences a natural phenomenon beyond the design basis would include " augment--
ing resources by activating the on-site Technical Support Center, on-site operational support center and the near-site Emergency Operations Facility"; and " Dedicating an individual for plant status updates to offsite authorities..."; and "Providing meteor-ological and dose estimates to offsite authorities...".
These presently required licensee actions taken in conjunction with responsibilities of the State and local governmental authorities during an emergency, lead the staff to conclude that the clements in the proposed final regulation are logical and warranted.
In addition, the staff conducted a review of emergency exercises at nuclear power plants and licensee response to potential acci-dents as well as an analysis of 20 randomly selected, actual, non-nuclear, evacuations (see Issue 1, Enclosure 1 and Enclo--
sure 2).
This review demonstrated the validity of the Commis-sion's belief that emergency plans do have sufficient flexibility to assure that protective actions can and will be taken to miti-gate the consequences of a wide spectrum and combination of acci-dents. Thus, this information provides substantial support for the position that no additional emergency preparedness measures
.need be established to account'for severe natural phenomena.
In addition, the Federal Emergency Management Agency (FEMA),
which is responsible for reviewing and assuring effective offsite emergency preparedness and response has several programs in place or underway to assure that an integrated capability exists for protecting the public health and safety in the event of an emer-gency. These programs (see Issue 11) include: The Radiological Emergency Preparedness (REP) program and the Earthquake Hazard Reduction program. When-completed, the Earthquake Hazard Radia-tion Program will provide the basis for adequate Federal, State and local government response to protect the public in the very unlikely event of a coincident major earthquake and radiological emergency. The Radiological Emergency Preparedness program presently assures an integrated capability exists for State and local governments, together with utilities, to implement pro ~
tective measures in the event of an emergency. FEMA programs are carried out in a manner that the integration of common functions such as communication, alert and notification, protective actions and decisionmaking is addressed, while recognizing unique manage-ment requirements such as radiological measurements.
Considering'all of the above it can be argued that the inherent flexibility in the plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting from or occurring proximate to severe low frequency
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natural phenomena (e.g., earthquakes, tornadoes) which have the potential for complicating-the emergency response to these acci-dents. However, on balance, considering the points raised by many of the public comments and in view of the Emergency Action
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Level logic along with the potential magnitude of the uncertain-ties identified, the staff has decided that a more conservative approach is appropriate and recommend amending the regulations to explicitly require some limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning. This will provide added assurance that adequate protective actions can and will be taken in the event of a radio-logical emergency complicated by the effects of such natural phenomena.
The staff recommendation that only limited considera-tion be given is based on 3 things:
(1) inherent flexibility.and demonstrated effectiveness of off-site plans and preparations (local, State FEMA, etc.) to handle severe low frequency natural phenomena.
(2) residual risk from such phenomena complicating a nuclear emergency are small.
(3) devastation from the phenomena itself and other associated complications (e.g., release of chemicals, fires, rupturing of dams) will likely far exceed the incremental impact of the complicating effect of the natural phenomena on a nuclear emergency.
This final rule would:
1.
Clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assJre that there exist reasonable assurance that appropriate protective actions can and will be taken to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
3.
Require the ability by the licensee to assess damage to the plant and to translate this information into projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations _for protective actions after severe, low-frequency, natural phenomena.
4.
Specify that in considering the complicating impacts of severe, low frequency natural phenomena, State and local governments should identify, in their emergency plans,
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alternate routes of travel and methods for determining whether to shelter or evacuate.
This staff recommendation would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of severe, low frequency natural phenomena. This is not being recommended because a natural phenomena beyond the '
design basis would cause such unpredictable patterns of disruption and devastation that the time estimates would probably be meaningless and in fact may be misleading.
2.
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, low frequency natural phenomena.
3.
A detailed, extensive study considering the complicating effects of earthquakes or other natural phenomena on offsite emergency response capaDilities. For example, the staff specifically considers that the " TERA" study completed for Diablo Canyon is well beyond the scope and intent of what would be required by this rulemaking.
FEMA Coordination: Because FEMA is directly involved in the evaluation of offsite emergency preparedness and wou'd be affected by the promulgation of these amendments, the NRC staff has kept the FEMA staff advised on the development of this paper. FEMA concurs with this paper, with the caveat that at least 6 months of additional time is needed to further define and promulgate guidance for use of State and local governments in their efforts to comply with the language of
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the final rule change dealing with identifying alternate evacua-tion routes and methods for determining whether to shelter or evacuate. As a result we are requiring that compliance be completed within 18 months of_the effective date of the rule and that the site specific schedule of compliance be subject to negotiation between the licensee, State and local governments, FEMA and the NRC.
Cost Estimate:
The staff anticipates that promulgation of this final rule change which limits consideration of the complicating effects of severe natural phenomena will have minimal cost impact on licensees, or State and local governments. This is because (1) the considera-tions are limited and (2) offsite authorities already have an extensive program for dealing with an entire spectrum of natural and man-made emergencies.
Recommendations:
1.
Approve for publication in the Federal Register a notice of final _rulemaking (Enclosure 1) to 10 CFR Part 50, Appendix E to be effective 30 days after publication.
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Note:
(a) That appropriate Congressional committees will be notified of the rule change.
(b) That the ACRS is being informed of the rule change.
(c) That, pursuant to-10 CFR S 51.5(d)(3) of the Commission's regulations, an environmental impact statement, negative declaration, or environmental
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impact appraisal need not be prepared in connection
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with the subject final rule change because there is no substantive or significant environmental impact.
(d) That, pursuant to the Regulatory Flexibility Act of 1980, the Federal Register Notice contains a statement that the Commission certifies that this final rule will not have a significant economic impact on a substantial ~num-ber of small entities, and a copy of this certification will be forwarded to the Chief Counsel _for Advocacy, SBA, by the Division of Rules and Records, ADB.
(e) That the Federal Register Notice contains a statement that, purruant to the Paperwork Reduction Act of 1980, the NRC has made a determination that the rule change does not-impose new recordkeeping, information collec-tion, or reporting requirements.
(f) That the Federal Register Notice will be sent by TIDC, ADM, to affected applicants, licensees, and persons that commented on the proposed rule.
(g) That a public announcement of the final rule change will be made.
(h) That the staff recommends this Commission paper be placed in the PDR.
(i) That a Regulatory Analysis has been performed.
Sunshine Act:
Recommend consideration at an open meeting.
Scheduling:
For early consideration.
William J.-Dircks Executive Director for Operations
Enclosures:
1.
Federal Register Notice of Final Rule Change to 10 CFR, Part 50, Appendix E 2.
Listing of Public Evacuations 3.
-Regulatory Analysis for Final Rulemaking 2
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NUCLEAR REGULATORY COMMISSION 10 CFR Part 50
-Emergency Planning and Preparedness AGENCY: Nuclear Regulatory Commission.
ACTION: Final rule.
SUMMARY
- The Commission is amending its regulations in 10 CFR Part 50 in order to require limited consideration of the complicating impacts of severe, low frequency, natural phenomena on emergency preparedness. The Commiss' ion anticipates that this final regulation will not have significant impact on emergency preparedness requirements established by the August 1980 emergency planning requirements (45 FR 55402) but will provide clarification of the premise (that emergency plans have inherent flexibil-
-ity) which is an underlying factor in the Commission's San Onofre and Diablo Canyon decisions.
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.! -EFFECTIVE DATE: [I sert 30 days after publ'c.ation in the Federal kegister.]
FOR FURTHER INFORMATION CONTACT: Michael T. Jamgochian, Division of Risk Analysis and Operations, Office of Nuclear Regulatory Research, U.S.
Nuclear Regulatory Commission, Washington, DC 20555. Telephone (301)443-7615.
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IMPLEMENTATION: Compliance with this regulation shall be completed with-in 18 months of the effective date. The site specific schedule of com-pliance will be subject to negotiation between the licensee, State and local governments, FEMA and the NRC.
SUPPLEMENTARY INFORMATION: On December 21, 1984, the Commission published a proposed amendment to portions of 10 CFR Part 50 relating to earth-quakes and emergency planning (49 FR 49640). The proposed rule states that neither emergency response plans nor evacuation time analyses need consider the impact of earthquakes which cause an occur proximate in time with an accidental release of radioactive material from a nuclear power reactor. These amendments to 10 CFR 50.47 and 10 CFR Part 50, Appendix E proposed to explicitly adopt by rule the Commission's interpretation of its existing rules in the Commission's San Onofre and Diablo Canyon decisions.
On December 8, 1981, the Commission ruled in a then pending adjudica-tion that its emergency planning regulations do not require consideration of potential earthquake effects on emergency plans for nuclear power reactors. Southern California Edison Ccmoany, et al.
(San Onofre Nuclear Generating Station, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
In se ruling the Commission stated:
The Commission will consider on a generic basis whether regula-tions should be changed to address the potential impacts of a severe earthquake on emergency planning. For the interim, the proximate occurrence of an accidental radiological release and an earthquake that could disrupt normal emergency planning 2
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appears sufficiently unlikely that censideration in individual licensing proceedings pending generic consideration of the matter is not warranted. 14 NRC at 1092.
The Commission recently affirmed this position in the Diablo Canyon-proceeding. Pacific Gas and Electric Company (Diablo Canyon Nuclear Power Plant, Units 1 and 2), CLI-84-12, 20 NRC 249 (August 10, 1984),
San Luis Obisoo Mothers for Peace v. NRC, 751 F.2d 1287, (D.C. Cir. 1984);
vacated in part and rehearing en banc granted, 760 F.2d 1320 (1985).
In its decision the Commission stated that it would initiate rulemaking "to address whether the potential for seismic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amendment of the regulations to specifically consider those impacts. The chief focus of the rulemaking was to obtain additional information to determine whether, in spite of current indications to the 7
contrary, cost-effective reductions in overall risk may be obtained by.
the explicit consideration of severe earthquakes in emergency response planning."
Id. at 254-255.
The proposed rule permitted a 30-day comment period. This period was extended until February 27, 1985 (see 50 FR 3797, dated January 28, 1985).
In the proposed rule, the Commission requested that commenters address the merits of three possible alternative:
1.
Adoption of the proposed rule explicitly incorporating the Commission interpretation in San Onofre and Diablo Canyon, 3
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not to consider the impacts of earthquakes in emergency planning.
2.
Leaving the issue open for adjudication on a case-by-case basis; or' 3.
Requiring by rule that emergency plans specifically address the impacts of earthquakes.
The Commission was also considering whether to include in this rule-making tornadoes and other low-frequency natural events.
Sixty-one comment letters have been received. Twenty-five letters favored the promulgation of the proposed rule. The majority of these letters were from utilities, and consulting firms representing utilities.
-Two favorable comments were received from private citizens and one from y
the Department of Energy.
Thirty-four letters opposed promulgation of the proposed rule, many of which voiced strong displeasure, shock or disbelief regarding the Commission's favored alternative. The majority of these letters were from private citizens, intervenor groups and environmental groups. Nine of these letters were in signed petition form with apptoximately 94 signa-tures in total.
Further, in a letter to the NRC Chairman, dated June 20, 1985, the ACRS stated that "we...see no technical reason for the exclusion of earth-quakes from the natural phenomena considered in offsite emergency plann-ing for nuclear power plants. However, we believe that only limited con-sideration...is appropriate." Additional input was obtained from the r
..%ivar regulato uthority in Japan, France, Sweden, Germany and Taiwan, all of which stated e potential complicating effects of earthquakes 4
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was not specifically considered in their nuclear power reactor emergency planning.
No commentors or foreign countries took a position on the alter-native to leave the issue open for adjudication on a case-by-case basis.
All of the commentors favoring promulgation of the proposed rule simply stated their agreement with the rationale offered by the Commis-sion, and provided little additional detailed information supporting the proposed rule change. Commentors opposing the proposed rule questioned the' validity of the Commission's rationale and raised a number of points which have been considered by the Commission in developing the final regulation.
~A compilation of these issues with an accompany *ing Commission response follows:
Issue 1.
There exist limited or no' record concerning the flexibility of emergency plans to support the proposed rule, therefore, the Commission cannot make a generic finding that effects of earthquakes on emergency planning are always resolved by the general flexibility of emergency plans.
Commission Response:
In June of 1979, the Commission began a formal reconsideration of the role of emergency planning in ensuring the continued protection of
'the public health and safety in areas around nuclear power. facilities.
The Commission determined that it must have assurance that proper means and procedures will be in place to assess toe course of an accident and its potential severity, that NRC and other appropriate authorities and 5
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the public will be notified promptly, and'that adequate protective actions in_ response to actual or anticipated conditions can and will be taken.
On August 19, 1980, the Commission published its final rule on emergency planning. In developing the final rule the Commission established 16 planning standards (See 10 CFR 50.47(b)) as the basic and fundamental standards which must be met by both onsite and offsite emergency response plans for nuclear power facilities. The planning standards are addressed by specific evaluation criteria in NUREG-0654; FEMA-REP-1, Rev. 1.
To ensure that adequate plans exist and are maintained, the NRC reviews and evaluates the licensee's onsite emergency plans against the regulatory requirements of 10 CFR 50.47 and 10 CFR Part 50, Appendix E; and the.
guidance criteria in NUREG-0C54/ FEMA-REP-1, Rev. 1.
In a parallel manner, the Federal Emergency management Agency (FEMA) reviews and evaluates the state and local offsite plans against the criteria in NUREG-0654 and provides the NRC with its finding and determinations. Both agencies continue to review and evaluate changes to the respective plans and the results of drills and exercises, and ensure that necessary corrections are made based on those evaluations.
One of the major items that the Commission addressed in the develop-ment of the final rule was that no single accident scenario should form the basis for emergency planning. The Commission noted that, instead, emergency planning should consider a wide spect' rum of potential accidents.
~Thus, while the NRC's requirements are intended to coved radiological accidents at the licensee's facility, the emergency plans developed to meet the requirements of the NRC's regulations can and have been used to respond to both radiological and non-radiological types of actual events.
The general flexibility of these emergency plans has been demonstrated by 6
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response to'a wide spectrum of simulated accident conditions during emergency exercises, and by the actual response by licensees and offsite authorities to actual and potential events.
.The emergency planning and preparedness framework which is set forth Lin the emergency plans reflects the integration of a number of key elements including:. preestablished division of responsibilities and authorities; preestablished management controls; provisions for timely and informed decisionmaking;-coordination of response organizations; adequate primary and backup communications systems; adequate assessment capabilities;
' adequate notification capabilities; written procedures to guide emergency response personnel; and training for emergency response personnel. These key elements are basic and essential to the response to any type of an emergency (i.e., radiological, non-radiological, onsite, offsite). Emer-gency planning and preparedness also results in a heightened awareness by emergency workers of the complex nature of emergency response.
It fosters expertise within emergency organizations due to their increased under-standing not only of individual response tasks, but also of how the separate tasks combine to form diverse response capabilities. Further, 1
the emergency planning and preparedness process is a dynamic process incorporating improvements based on experience gained through plan implementation and as a result of exercises, drills and actual events.
A measure of the flexibility of emergency plans is the range of diverse emergency conditions which are used to exercise the provisions of the plan and the capability of the response personnel and equipment. An integral part of the emergency planning and preparedness process is the use of exercises and drills to test equipment and procedures and to give emergency workers an opportunity to demonstrate their individual skills 7
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and to develop the team work necessary to respond to a wide variety of potential accident conditions. Since August 1980, more than 200 emer-gency exercises have been conducted in the U.S. related to nuclear power plants. A review of 135 of the more recent exercises shows that 36 exercises-had natural disasters as events which either started the exercise; contributed directly to simulated damage to plant safety-systems / equipment; or contributed directly to other events which com-plicated the simulated degradation of the plant. These natural disasters included: earthquakes (10); tornados (5); lightning strikes (6 with one offsite fire); bomb threats (4, one with two simulated explosions); and plane crashes (5).
In the other 12 exercises, ammonia spills, ice storms, thunderstorms, truck crashes, hurricanes, high winds, hail, and fires were used as events which complicated the exercise s enario. While the NRC has issued no specific guidance to licensees or applicants on the use of these and other non-mechanistic events in exercises or drills, the staff, nonetheless, encourages such innovative exercises to fulfill the regula-tory requirements that full scale exercises test as much of the licensee, State, and local emergency plans as is reasonably achievable without
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mandatory public participation.
A further measure of the flexibility of existing emergency plans is demonstrated by the ability-of emergency response organizations to use these emergency plans to accommodate a wide spectrum of events, including events not specifically within the planning basis. The Commission's regulations require, in part, that licensees develop emergency classifica-tion schemes, with associated initiating conditions, to enable operators to quickly and accurately assess the potential severity of, and the appro-priate response to, a given emergency. These emergency classification 8
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schemes. include consideration of natural phenomena (e.g., earthouakes, ficods, tornados, and hurricanes) and other hazards 'e.g., aircraft crashes, train derailments, explosions, and toxic fumes). The Commission's regula-tions also require that licensees notify the NRC when t"he emergency plan is activated. Actual events have occurred which have caused the activa-tion of emergency response plans around U.S. nuclear power plant sites.
Between August 1982 and March 1985, the NRC's Incident Response Center recorded 29 notifications by licensees of activation of their emergency plans due to natural events including: seismic events (2), tornadoes (5),
hot weather (1), cold weather (3), hurricanes (2), lightning strikes (4),
offsite fires (2), flooding (2), high winds (1), and severe storms (2).
h In most cases, the licensee's decision to activate its emergency plans due to these natural events was based on the potential for, and not
-g.
y actual damage at the site. However, there were cases where the natural events did result in minor onsite impacts such as loss of offsite power j
for short periods of time, temporary loss of commercial telephone systems and loss of public alert siren systems.
In addition to natural events, mechanical problems at nuclear power plants have resulted in almost 600 activations of the licensee's emergency plans. Most of these activations o
were due to situations which resulted in emergency classifications of a
" Notification of Unusual Event," the lowest emergency classification.
ditionally, 20 non-nuclear ctual evacuations for which information was readily ava le ha en individually reviewed. This review focused on the number of persons being evacuated, the amount of time that the evacuation took, the number of injuries resulting from the evacuation, the cause of the evacuation and the common emergency planning elements that existed which enabled the evacuation to be conducted successfully.
9
[7590-01]
This analysis clearly showed that the most important elements common to
'all of the evacuations (even those conducted without emergency plans) were good communications and good emergency organizations. With these two elements in place, many persons were effectively evacuated for a wide spectrum of natural and man-made hazards.
In light of the overall adequacy determinations on the emergency plans with respect to reg'ulatory requirements and guidance, the results of exercises and drills, and the response to actual or potential adverse conditions, the Commission concludes that there does exist an adequate record to demonstrate that an_ emergency planning and preparedness frame-work exists around nuclear power plants that reflects inherent flexibility for responding to a sufficiently wide range of plant and offsite conditions.
Issue 2.
The proposed rule violates the NRC's emergency planning principle of planning for accidents ranging from design basis accidents to. core-melt accidents, with the capacity to reduce the consequences of even the most severe accidents.
Commission Resoonse:
'In the joint FEMA /NRC document entitled " Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants (NUREG-0654, FEMA-REP-1, Rev. 1), the Commission's philosophy of assuring both a broad and flexible prepared-ness in response to a wide spectrum of events is articulated.
In this Commission doc ant it is stated at pp. 6, 7:
"No single specific accident sequence should be isolated as the one for which to plan because each 10
r:
II h
[7590-01]
N
=
accident could have different consequences, both in nature and degree, k
Further, the range of possible selection for a planning basis is very large, starting with a zero point of requiring no planning at all because significant offsite radiological accident consequences are unlikely to l
occur, to planning for the worst possible accident, regardless of its extremely low likelihood. The NRC/ EPA Task Force did not attempt to define a single accident sequence or even a limited number of sequences.
Rather, it identified the bounds of the parameters for which planning is recommended...." The Commission finds that the promulgated amendment is totally consistent with the emergency planning principles and philosophy outlined in NUREG-0654, FEMA-REP-1, Rev. 1).
Issue 3.
Emergency planning must include the complicating effects of earthquakes up to and beyond Safe Shutdown Earthquake levels.
Commission Resconse:
The magnitude of the SSE and the adequacy of a plant's design to meet the SSE are reviewed by NRC and may be challenged in adjudicatory pro-ceedings, but, once settled, should not be reconsidered in reviewing or adjudicating emergency planning issues. Consistent with the Commission's regulations, if a larger earthquake were considered appropriate to provide reasonable assurance that a nuclear power plant can be constructed and operated at a given site without undue risk to the health and safety of the public, a larger SSE would be established. Nevertheless, the basis for emergency planning is not constrained by the design basis for a plant and emergency planning efforts recognize the possibility that events considered beyond the design basis can occur. This rule chance is 11
P
[7590-01]
~
designed to further assure that the complicating effects of low probability natural events including earthquakes above the SSE, are adequately addressed in emergency planning.
Issue 4.
The Commission's fundamental obligation is to determine whether " adequate protective measures can and will be taken in the event of a radiological' emergency." 10 CFR S 50.47(a).
If circumstances pre-vent the NRC from finding that emergency plans can provide that assurance, it must deny the license.
Commission Response:
The Commission agrees that if the NRC cannot make the finding that
"...there is reasonable assurance that adequate protective measures can and will be taken in the event of a radiological emergency" to mitigate the consequences of an accident, the operating license must be denied.
It is the objective of the NRC emergency preparedness regulations to reduce the risk to the public health and safety by planning in advance how to respond to nuclear power plant accidents.
The NRC would not license a plant if the radiological risk posed by possible accidents were not very small - even in the absence of emergency preparedness. Nevertheless, the NRC has chosen to require emergency pre-paredness as another level of " defense-in-depth," the principle that a variety of indepenaent and diverse level of protection should be afforded the public from the hazard of radiation exposure. The NRC believes that reasonable efforts to anticipate and plan for public protective actions in the vicinity of a commercial nuclear plant can substantially reduce, 12 e
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though not eliminate, the already small offsite radiological risk, and is,' therefore, a prudent requirement.
Issue 5.
Inasmuch as seismic PRA analysis has indicated that earth-quakes are among dominant causes of core melt accidents, it is irrational to ignore the effects that these same earthquakes can have on emergency response.
Commission Response:
Past seismic probabalistic risk analysis (PRA) studies have indicated that very large earthquakes (2 to 4 times SSE) may be among the important or dominant contributors to the probability of core-melt accidents or public risk. However, these PRA studies (including the NRC sponsored Seismic Safety Margins Research Program (SSMRP) which calculated the seismic risk at the Zion Nuclear Power Plant) found that the risk of a core-melt accident is caused only by very improbable earthquakes with ground motions (in terms of peak ground acceleration) several times the already severe design basis ground motions.
In addition, the failure levels used in seismic PRA studies for structures, components and equipment
(
are based, in general, on very conservative assumptions. For example, r
~
5 o
kj i many equipment failure levels were based on qualificatio tests and do 9
not reflect the true capacity to sustain vibratory motion beyond the de
\\
levels. It would be expected that when more realistic failure levels are
'g used the significance of the earthquake threat will diminish. NRC efforts 5
are currently underway to better define the needed failure data to provide more realistic inputs to seismic PRA studies.
It should be noted that most of the current seismic PRAs, with their generally conservative bias,
\\f'
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osure 1
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have not shown unacceptably high core-melt probabilities. For owmple, the PRA for the Zion plant shows a core melt frequency of 5.6 x 10 6 per-year due to the seismic hazard compared to a core melt frequency of about 4 x 10 5 per year due to all internally initiated accidents.
Issue 12 discusses this matter in further detail.
With these studies in mind, the Commission never intended to give the' perception that it was " ignoring" the complicating effects of earth-quakes on emergency response. The final rule is to clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assure that there exists reasonable assurance that appro-priate protective actions can and will be taken to mitigate the consequences of a radiological accident.
Issue 6.
Defects in seismic design and quality assurance in construc-tion have consistently undermined the seismic strength of plant systems
' and structures. It is thus irrational for the NRC to write off earthquakes
- as an emergency planning issue at the same time it is exhibiting growing Q
concern regarding the effects of earthquakes on nuclear power plant site.
h N
Commission Response
[
The assertion that there is a growing concern within the NRC about pc*
the ability of nuclear power plants to withstand the effects of large y
earthquake As a result of indications that earthquakes used for the design basis of eastern U.S. nuclear power plants may be understated, the NRC has underway an effort to define the seismic margins in operating plants. Preliminary results, based on evaluation of 14 L
[7590-01]
(
about 12 published and unpublished PRAs (including the NRC sponsored s
' Seismic Safety Margins Research Program), demonstrate that eastern U.
Y plants, in general, can sustain earthquake levels up to at least 0.3g peak ground acceleration compared to safe shutdown earthquakes (SSE)
/0 ranging from 0.10 to 0.25g peak ground acceleration. These relatively. WY high margins reflect an ability to accommodate moderate design and
.)-
4 %,
A construction errors.
In addition, the NRC is sponsoring research to 3
4g determine the capacity of concrete shear wall structures to sustain
\\
earthquake loads beyond their design basis. Results to date indicate that shear walls generally can sustain at least three to four times the SSE. The NRC has also recently completed a research program showing that the probability of an earthquake causing a complete rupture of the primary coolant piping of pressurized water reactors (PWR) is extremely small (about 10 8 per reactor year).
The results of this research have led the Commission to issue for public comment a proposed change to 10 CFR 50 Appendix A, General Design Criterion 4 that will permit the removal of pipe whip restraints for the primary coolant piping in PWRs. Recent work by the Seismic Qualification Utility Group (SQUG), based on actual behavior of industrial facilities and their equipment in large earthquakes, leads to the conclusion that more margin against earthquakes larger than the SSE exists than was previously thought.
Earthquakes simultaneously affect all plant safety systems and tend to " search out" design, construction and maintenance errors which could degrade plant safety. However, since the PRAs and margins analyses 4
performed to date indicate that nuclear power plants are capable of sustaining earthquakes much larger than their design basis, only gross 15
(7590-01]
design and construction errors are of concern.
It is reasonable to assume that gross design and construction errors would be detected and rectified as a result of normal inspections, preoperational tests and normal operational transients. For example, in our research on the probability of a pipe ruptures in primary coolant loops, sensitivity studies have shown that only very unlikely design and construction errors may substantially change the seismic risk.
Issue 7.
The use of unreliable seismic design bases is flawed and therefore its use as a basis for rulemaking is inappropriate.
Commission Response:
The safe shutdown earthquake, or SSE, for a nuclear plant is based upon an evaluation of the maximum earthquake potential for the specific site. The SSE is that earthquake which produces the maximum vibratory ground motion for which certain structures, systems, and components must be designed and constructed to remain functional. All structures, sys-tems and components necessary to achieve a safe shutdown are seismically qualified for the SSE and are expected, with high confidence, to function to bring the plant to a safe shutdown.
While uncertainties do exist in estimating the behavior of structures, systems and components subjected to seismic effects, these uncertainties are explicitly treated in the design process through the use of con-servatism.
In addition, as was pointed out in the response to Issue 6, NRC research on seismic design margins has shown, based on published and unpublished PRAs, as well as other NRC research mentioned above, that 16
[7590-01]
nuclear plants in the eastern U.S. are, in general, capable of with-standing earthquakes much larger than their design basis. These conclu-sfons'are based on a very-conservative apprcach that assigns failure levels for components, equipment and structures based on a high confidence of low probability of failure. This conservatism accounts for the uncertainties in response behavior and ability to perform the required safety function. Nonetheless, the final rule focuses on consideration of severe, low frequency natural phenomena and is not limited by the design bases for such phenomena.
Issue 8.
Even if a reactor is designed to withstand earthquakes of a certain magnitude, an earthquake can indirectly lead to an accident by causing operator error. Thuc caerators may react to the trauma of an earthquake and the distraction of fluctuating instruments by making mistakes that lead to serious accidents.
Commission Response:
.The NRC has conducted extensive research to determine if psychological sea stress induced by an emergency in a nuclear power plant have a significant adverse effect on operator decisionmaking performance. A report entitled,
" Operational Decisionmaking and Action Selection Under Psychological Stress in Nuclear Power Plants," NUREG/CR-4040, documented these findings:
(1) decisionmaking performance is affected by stress such that fewer correct action selections were made in the affected condition as compared with the l
non-stress condition; (2) operators under stress perform better under lower levels of workload; (3) the interactions of conflicting information with operating procedures and level of workload suggest a complex relationship I
17 i
[7590-01]-
between stress variables and decisionmaking performance; (4) specific operator personality characteristics were found to be related to enhanced decisionmaking under stress. A number of measures for decreasing the effects of stress on operators were identified in order to assist operators in making correct decisions during and after a severe natural phenomena.
Although it is considered highly unlikely that operator error caused by
.an earthquake could lead to a reactor accident which would threaten public health and safety, emergency plans are designed to deal with such an accident if it should occur. This rulemaking is designed to provide added assurance that the potential complicating effect of the. earthquake associated with an accident of this type will be properly addressed in
. emergency planning.
Issue 9.
Emergency plans are unique, for example, a rural and sparsely populated area may pose fewer evacuation problems, and thus require less flexibility, than an urban and densely populated plant site.
Thus, emergency plans cannot be found to possess the same degree of
" flexibility" in every case.
Commission Response:
The complexity of the emergency plan is tailored to the needs and characteristics of the site. However, the' basic. principles underlying the plan, including the inherent flexibility to accommodate the spectrum of accident conditions which might exist at that site, are common to all emergency plans. For additional discussion on flexibility of emergency plans, please see the Commission response to Issue #1.
18
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[7590-01]
Issue 10.
Earthquakes are distinct phenomena with the following
-distinct features:
--Sirens and broadcasting systems could be knocked down and roads tit
'could be severely obstructed in an earthquake.
--Although sheltering may be presumed to be available in almost any other type of natural event, it could be rendered useless by an earthquake.
--An earthquake is likely to disrupt the distribution of water, natural gas, and gasoline, thus causing fires and impeding the efforts of firefighters.
--An earthquake is likely to impair or destroy the ability to monitor potential radiation releases and meteorological conditions.
--An earthquake can damage transportation routes by collapse of bridges and overpasses, damage to roads, and landslides.
--An earthquake can cause the collapse of structures (including those housing personnel directing the emergency planning effort, relocation and decontamination facilities, and local agency services) or render sheltering useless due to damage.
--An earthquake is likely to cause a loss of offsite power, with its attendant effect on communications, as well as to potentially render useless other (backup) methods of communication such as radio transmissions.
--An earthquake is likely to cause physical and fright-induced (e.g., heart attack) injuries, thereby overloading medical facilities and ambulance and rescue services, l
l l
19 1
[7590-01]
Commission Response:
The Commission disagrees with the assertion that the effects of earthquakes are significantly different than the effects of other severe low frequency natural phenomena. All of the consequences listed above could also result from other severe, low frequency natural phenomena such as tornadoes, hurricanes, floods, etc. which are already addressed in emergency plans. All of these natural phenomena are similar in that (1) they occur without very much warning (2) they potentially devastate larger areas and (3) they are relatively of short duration. The principal difference between earthquakes and the other low frequency natural phenomena is that the other phenomena tend to be easier to predict and there may be slightly more advance warning for these phenomena.
Issue 11.
FEMA's emergency plans do not adequately provide for earthquake response in a radiological emergency.
Commission Response:
The Commission disagrees. FEMA conducts two planning programs, the Radiological Emergency Prepareaness (REP) program and the Earthquake Hazard Reduction program that, when corrpleted, tested and exercised for the areas around nuclear power plants, will provide the basis for adequate Federal, State and local governmental response to protect the public in the very unlikely event of a coincident major earthquake and radiological emergency.
The objective of FEMA's Radiological Emergency Preparedness (REP) program is to assure that an integrated capability exists for State and local governments, together with utilities, to implement protective 20 l-
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[7590-01]
measures to protect public health and safety in the event of an emer-
_gency. FEMA coordinates the activities of 10 Federal agencies in reviewing and evaluating State and local government planning and preparedness around nuclear power plants through its 10 Regional
~ Assistance Committees (RAC's). These evaluations are effected through assessment of emergency plans, and obec vation and evaluations of exercises' designed to test the capabilities of government entities.
Also, FEMA has developed and published the Federal Radiological Emergency Response Plan (49 FR 34896) for radiological emergencies including commercial nuclear power plant accidents on September 12, 1984.
FEMA has an active program of earthquake hazard reduction that coordinates Federal preparedness and mitigation activities and provides technical and financial assistance to States and local communities in all segments of emergency management. This includes hazard awareness, assessment, preparedness, mitigation, response, and recovery. The Federal response planning provides for the supplemental help and recovery to State and local governments required to save lives and provide for basic human needs after a major earthquake. FEMA expects to publish the National Plan for Federal Response to a catastrophic earthquake in
!j' December 1985. Drafts of the plan serve as an interim operating guide for Federal agencies to use in the event of an earthquake prior to comple-tion of the follow-on regional planning.
FEMA technical and financial assistance to State and local earth-kF quake hazard reduction pro ocus pon preparedness and response J
planning, and provides for implementation and training exercises. The planning includes such activities as: hazards identification, vulnerabil-ity analysis, casualty and property loss estimates, and potential impacts 21
[7590-01]
resulting from damage to critical and special facilities (such as nuclear power plants) and lifelines. FEMA estimates that sufficient earthquake response planning (annexes to State and local emergency operation plans) will be in place for the thirteen high-risk, high population areas currently being studied by the year 1996.
Both the earthquake and radiological preparedness programs are carried out in a manner that addresses the integration of common func-tions such as communication, alert and notification, protective actions and decisionmaking, while recognizing unique management requirements such as radiological measurements. The ultimate goal in both program efforts is to facilitate the development of management and operational capabil-ities to analyze the need for protective action, make protective action C
decisions and implement appropriate operations. They are mplimentary in that the capabilities developed under the radiological program provide the means for coping with the various hazards that might present themselves during a major earthquake.
Issue 12.
The Commission should evaluate the contribution of seismic events to overall core melt frequencies.
Commission Response:
An examination of recent probabilistic risk analyses indicates that seismic events have often been estimated to be one of the principal con-tributors to overall plant risk. Further, these estimates indicate that the significant seismic contributors to core damage or risk have been from earthquakes considerably larger than the safe shutdown earthquake I
(SSE).
22
[7590-01]
Earthquakes which have accelerations less than the safe shutdown earthquake have not been found to be significant contributors to overall plant risk. The susceptibility of a component or subsystem to seismic damage is measured in terms of its fragility. An example of this is the ceramic insulators in the switchyard.
It has been estimated (NUREG/
CR-2405) that there is a 50 percent likelihood that they would fail at an acceleration of 0.2 g, leading to a loss of offsite power. However, loss of offsite power alone will not lead to a severe accident. Cooling water can be provided to the core using steam-turbine-driven pumps or by elec-trical pumps powered by onsite emergency diesel generators. An examina-
. tion of the fragilities of the components of these emergency systems indi-cates that their failure likelihood at earthquakes less than the SSE will be governed by random system failures, rather than seismically induced scenarios. Thus, the accident would progress in a manner similar to a transient associated with a loss of offsite power. Since the likelihood of a loss of offsite power at a U.S. plant from all causes is considerably r
higher than that associated with seismic events less than or equal to the SSE, the contribution of below-SSE earthquakes to overall plant risk is minimal.
In contrast, as seismic intensity increases beyond the SSE, the esti-mated seismic contribution to risk increases. Large earthquakes would almost always be accompanied by a resultant loss of offsite power.
Seismically induced faults in electrical control systems become important as accelerations approach 0.7 g.
In addition, the estimated risk asso-ciated with severe earthquakes is usually associated with equipment fail-ures resulting from structural collapse or interactions between structures i
23 1.,
[7590-01]
which impose high stresses on piping systems. Absent structural interac-tions, most components (piping, cable trays, large pumps and compact valves) behave well even in earthquakes significantly above their design conditions. However, this is not universally true and improper location of motor drives or control devices can cause component failures in large earthquakes.
The analyses of seismic risk that have been performed have generally made several potentially conservative assumptions.
In most cases, struc-tural degradation has been assumed to disable all components within the
~
damaged structure in order to simplify the analysis. This assumption is clearly extremely conservative, but current analytical techniques permit only a subjective estimate of the degree of conservatism. Thus, a com-prehensive estimate of the degree of conservatism introduced must await improvements in analytical techniques.
Another area not usually considered is the ability of the operator to mitigate seismically induced risk. Depending on the types of failures which have occurred, alternate systems may be employed by the operator to ensure core cooling is maintained, or damaged components may be repaired.
It is generally assumed that most seismic damage cannot be repaired in a short period of time. However, some credit has been allowed for restora-tion of relays which have moved to an unintended state, when they are easily accessible and the misposition can be detected easily from the control room.
Seismically induced accident sGquences which take a long time (several hours) to develop provide time for the operator to provide alternate water sources. One hour after plant shutdown, the decay heat level reduces to about 1.5 percent of full power and a 1000 MW(e) 24 i
[7590-01]
reactor can be adequately cooled if a little as 300 gpm of water is provided to the core and allowed to boil. There are many potential sotrces of water which might be employed for core cooling but the avail-ability depends on the availability of support systems such as AC and DC power. Studies performed to date have not included a comprehensive evaluatisi of recovery actions following an accident and thus tend to be colservative.
Even in the fastest developing scenarios which have been found risk significant in previous PRAs, core melt does not occur simultaneously with the earthquake. Because of the normal heat capacity'of material within the reactor vessel and the need to boil whatever water is initially present in the reactor vessel, and considering the additional heat sink available in the steam generators.(PWR) or the suppression pool (BWR), at least 30 minutes will elapse between the initial shock and the release of fission products.
In most cases, several hours will be available before large releases occur.
Because of-the icw demand for cooling water flow which the plant requires after shutdown, seismic aftershocks may be less significant than the original shock even if further damage results. Because of the low heat generation rates involved, a temporary interruption of coolant addi-tion can occur without core damage. However, a detailed examination of
. the effects of after shocks has not been performed, and a conclusive evaluation of their significance cannot be provided at present.
Issue 13. What is the probability that other natural events (e.g.,
hurricanes, tornadoes, heavy snow) w',1ch are now considered in emergency planning would initiate or occur proximate to an accident resulting in a 25
i.
[7590-01]
radionuclide release from a nuclear power plant? How does this compare with earthquakes?
Commission Response:
Only a few probabilistic risk analyses have considered high winds
-(tornadoes or hurricanes) in the overall risk analysis and the current ability to conduct such analyses is modest. Thus, the results are highly uncertain. The likelihood of severe core damage from high wind speed
\\4 initiators has been estimated between 4 x 10 5/ year to 1 x 10.s/ year in
\\
the studies which have occurred. Obviously, the occurrence of high winds d [
is highly location dependent.
Thus this range, which represents the 5 b.
variation in reported results, is not typical of the range expected at a
any specific site
.-We are, unaware j study at specifically e
s the effects of heavy snowfall.
would normally be treated as one of the causes of a loss of offsite power and not treated separately.
External flooding events have been examined in a few PRAs with a resultant estimate of flood-induced severe core damage frequency in the range between
~
10 5 and 10.e per year. Again, these results are highly uncertain because is the current state of development of the methodology and are highly site specific.
The results of recent PRAs indicate that the estimated contribution of seismic events to plant risk is of the same order as that from flooding and high winds at certain sites. This is highly site specific, however, and is not applicable at all sites.
In areas where the frequency of high winds or flooding is relatively low, the seismic risk contribution will dominate.
26
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==
Conclusion:==
Having considered all of the above, as well as all comments received, past operating reactor and emergency preparedness experiences, and the ACRS comments, the Commission has determined that a final rule be promulgated that would:
1.
Clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assure that there exists
"... reasonable assurance that appropriate protective actions can and will be taken..." to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
3.
Require the ability by the licensee to assess damage to the plant and to translate thic information into projections of the expected or actual radiation hazard offsite, and be able to communicate this infor-mation to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
4.
Recommend that in considering the complicating impacts of severe, low frequency natural phenomena, State and local governments should iden-tify, in their emergency plans, alternate routes of travel and methods for determining whether to shelter or evacuate.
In reaching this decision, the Commission has weighed all of the above issues raised by the commentors. Addit'onally the Emergency Action Level scheme addressed in NUREG-0654 specifies that an emergency be declared in the event that a " Natural phenomenon is being experienced..."
27
[7590-01]
at the plant. As the intensity of the natural phenomenon increases so
'does the classification of the emergency. A few of the required licensee actions when the plant experiences a natural phenomenon beyond the design basis would be to " augment = resources by activating the on-site Technical Support Center, on-site operational support center and the near-site Emer-gency Operations Facility"; and to " Dedicate an individual for plant status updates to offsite authorities..."; and to " Provide meteorological and dose estimates to offsite authorities...".
These presently required licensee actions, taken in conjunction with responsibilities of the State and local governmental authorities during an emergency, lead the Commission to conclude that the elements in the proposed final regulation are logical and warranted.
In addition, the Commission conducted a review of emergency exer-cises at nuclear power plants and licensee response to potential acci-dents as well as an analysis of 20 randomly selected actual, non-nuclear evacuations (see Issue 1).
This review demonstrated the validity of the Commission's belief that emergency plans do have sufficient flexibility to assure that protective actions can and will be taken to mitigate the consequences of a wide spectrum and combination of accidents. Thus, this information taken in conjunction with the FEMA programs addressed in the Commission's response to Issue 11, provides substantial support for the position that no additional emergency preparedness measures need be estab-lished to account for severe natural phenomena.
-Considering all of the above, it can be argued that the inherent flexibility in emergency plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting 28 o-
[7590-01]
from or occurring proximate to severe low frequency natural phenomena (e.g., rarthquakes, tornadoes) which have the potential for complicating the emergency response to these accidents. However, on balance, consider-ing the points raised by many of the public commentors and in view of the Emergency Action Level logic along with the potential magnitude of the uncertainties identified the Commission has decided that a more conserva-tive approach is appropriate and amered its regLlations to explicitly require some limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning. This will provide added assurance that adequate protective actions can and will be taken in the event of a radiological emergency complicated by the effects of such natural phenomena. The staff recommendation that only limited considera-tion be given is based on three things:
(1) inherent flexibility and demonstrated effectiveness of offsite plans and preparations (local, State FEMA, etc.) to handle severe low frequency natural phenomena.
(2) residual risks from such phenomena complicating a nuclear emer-gency are small.
(3) devastation from the phenomena itself and other associated com-plications (e.g., release of chemicals, fires, rupturing of dams) will likely far exceed the incremental impact of the complicating effect of the natural phenomena on a nuclear emergency.
In spite of this the staff felt it necessary to specifically assure that provisions were in place to:
29 w.
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(1) get needed staff to the plant to bring the plant to to a safe shutdown =so as not to increase the risk of a radiological accident result-ing from the natural phenomena, (2) be able to provide needed information concerning the status of the plant to offsite authorities so that'these authorities would be able to take the status of the plant into account in formulating and carrying out emergency measures following the natural phenomena, and (3). that offsite plans should include consideration of alternative actions which could be taken if there were damage to the plant environs.
This final rule would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of severe, low frequency natural phenomena. This is not being recem-mended because a natural phenomenon beyond the design basis would cause such unpredictable patterns of disruption and devastation that the time estimates may be misleading.
2.
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, lov frequency natural phenomena.
3.
A detailed, extensive study conridering the complicating effects of earthquakes or other natural phenomena on offiste emergency response capabilities. For example, the Commission specifically considers that the " TERA" study completed for Diablo Canyon is well beyond the scope and intent of what would be required by this rulemaking.
Likewise, the Commission's intentions relative to each item in the rule are as follows:
30
[7590-01]
J Item 1.
Ability to transport necessary personnel to the plant-after the event in order to augment the origir.31 staff as necessary to cope with degraded modes of plant operation including emergencies.
This item means that a licensee's emergency plan must contain adequate consideration of the necessity of having at the plant or getting to the plant, adequate personnel to cope with the plant operations under adversa conditions. Thus, the plans must consider alternate methods for getting selected personnel to the plant if a severe, low frequency natural phenomenon, occurs and disrupts the normal transportation routes to the site.
The licensee's onshift operating crew is adequate to safely operate the plant and to initially respond to emergencies. However, operating crews and other plant personnel must be relieved after a reasonable time or special support skills may be required. Thus, this item requires the licensee to perform adequate planning (transportation arrangements) to ensure that they can get relief personnel and other necessary personnel to the plant in 12 to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after the start of the phenomenon. For those phenomena which are amenable to prediction (i.e., hurricanes, severe ice and snow stormJ, and floods) the licensee should consider contingency measures such as maintaining more than one operating shift on station if the phenomenon is anticipated.
This item does not mean that the staffing goals of Table B-1 of NUREG-0654 must be met in the event of an emergency at the plant and the simultaneous occurrence of unpredicted severe, low frequency natural phenomena which impede normal transportation routes.
31
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Item 2.
Ability by the licensee to assess damage to the plant and to translate this information into projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for pro-tective actions after severe, low-frequency, natural phenomena.
This item relates to the information available for transmission by the licensee (i.e., estimates of onsite damage) to the offsite authorities and the inclusion of such information by the licensee into the decisionmaking process for (1) developing recommendations to offsite authorities of protective actions, and (2) determining appropriate actions by the licensee to respond to the event and its impacts on plant operations, if any.
The existing regulations require that the licensee's emergency plans contain provisions for the gathering of information concerning damage sustained by the plant as a result of any accident, including the occur-rence of severe, low frequency natural phenomena. This information would be used by the licensee in its decisionmaking process regarding plant operations and protective action recommendations for the public. The implementation of this item recognizes the existence of the current diverse communications means (i.e., radios, direct link dedicated telephones, microwave telephane links and standard commercial telephone links) already in a place at nuclear power plants to communicate that information offsite. These systems are expected to be adequate to fulfill the provisions of this requirement.
~
32 l
l L
[7590-01]
'This item does not mean that equipment used to transmit information within the plant or from the plant to offsite authorities must meet any special seismic or environmental qualifications above those for which the equipment is presently designed. However, the licensee should assure g
that adequate communications are available to local offsite authorities f (e.g., mobile radios) to ensure that the means are available to transmit information between the license and local offsite authorities and to 7
discuss public protective actions, after a severe low frequency natural y phenomenon.
Item 3.
In considering the complicating impacts of severe, low
. frequency natural phenomena, State and local governments should identify, in their emergency plans, alternate routes of tr,avel and methods for determining whether to shelter or evacuate.
This item means that State and lccal offsite emergency response plans must contain adequate provision to assure that information regarding the damage sustained to the areas surrounding a plant, and the adverse impact of that damage to offsite responses to a radiological emergency at the plant, are (1) transmitted by the offsite authorities to the licensee and (2) appropriately considered by the licensee and offsite authorities in their decisionmaktag. Guidance for offsite authorities on the use of alternate evacuation routes and the balancing of public protective actions (i.e., evacuation, sheltering, relocation) should be included in the offsite plans.
Because FEMA is directly involved in the evaluation of offsite emer-gency preparedness exercises and is affected by the promulgation of these amendments, the NRC consulted extensively with FEMA during the development of this rule and as a result FEMA has concurred in the rule change.
33
[7590-01]
FINDING OF NO SIGNIFICANT ENVIRONMENT IMPACT The Commission has determined under the Natione.1 Environmental Policy Act of 1969, as amended, and the Commission's regulations in Subpart A of 10 CFR Part 51, that this rule, is not a major Federal action significantly affecting the quality of the hLman environment and therefore an environ-mental impact statement is not required. See 10 CFR 50.22(a)(1). More-over, the Commission has determined, pursuant to 10 CFR 51.32, that the
' final rule has no significantly environmental impact. This determination has been made because the Commission cannot identify any impact on the human environment associated with limited consideration of the complicating effects of severe, low frequencies natural phenomena on emergency preparedness.
The alternative approaches that were considered in this rulemaking
, proceedings were:
1.
Not to consider the complicating effects of earthquakes on emergency plans or evacuation time estimates.
2.
Not to require additional emergency preparedness measures to cope with the complicating effects of earthquakes.
3.
Leave the complicating effects of earthquakes on emergency planning open to consideration on a case-by-case basis.
-4.
Requiring _that State Earthquake Preparedness take into account all nuclear power plants within their boundaries.
5.
Promulgate a rule change which would require the full assess-ment of the complicating effects of severe, low frequency natural phenomena on emergency planning.
34
[7590-01]
PAPERWORK REDUCTION ACT STATEMENT The final rule contains no information collection requirements and therefore is not subject to the requirements of the Paperwork Reduction Act of 1980 (44 U.S.C. 3501 et seq.).
REGULATORY ANALYSIS The Commission has. prepared a regulatory analysis of this regulation.
The analysis examines the costs and benefits of the rule as considered by the_ Commission. A copy of the regulatory analysis is available for inspec-tion and copying, for a fee, at the NRC Public Document Room, 1717 H Street NW., Washington, DC.
Single copies of the analysis may be obtained from Michael T. Jamgochian, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, Washington, DC 20555, Telephone (301)443-7615.
REGULATORY FLEXIBILITY CERTIFICATION In accordance with the Regulatory Flexibility Act of 1980, 5 U.S.C.
S 605(b), the Commission hereby certifies that this final rule will not, if promulgated, have a significant economic impact on a substantial number of small entities. The final rule clarifies certain elements and findings necessary for the issuance of an operating license for a nuclear power plant licensed pursuant to Section 103 and 104b of the Atomic Energy Act of 1954, as amended, 42 U.S.C. 2133, 2134b. The electric utility companies which own and operate nuclear power plants are dominant in their service areas and do not fall within the definition of a small business found in 35 L:
e
[7590-01]
Section 3 of the Small Business Act, 15 U.S.C. 632, or within the Small Business Size Standards set forth in 13 CFR Part 121. Accordingly, there is no significant economic impact on a substantial number of small entities under the Regulatory Flexibility Act of 1980.
LIST OF SUBJECTS IN 10 CFR PART 50 Part 50 - Antitrust, Classified information, Fire prevention, Incorporation by reference, Intergovernmental relations, Nuclear power plants and reactors, Penalty, Radiation protection, Reactor siting criteria, Reporting and recordkeeping requirements.
Pursuant to the Atomic Energy Act of 1954, as amended, the Energy Reorganization Act of 1974, as amended, and Section 552 and 553 of
- Title 5 of the United States Code, notice is hereby given that the following amendments to Title 10, Chapter I, Code of Federal Regulations, Part 50 is published as a document subject to codification.
I PART 50 - DOMESTIC LICENSING OF PRODUCTION AND UTILIZATION FACILITIES 1.
The authority citation for Part 50 continues tc read as follows:
AUTHORITY: Sections 103, 104, 161, 182, 183, 186, 189, 68 Stat. 936, 937, 948, 953, 954, 955, 956, as amended, sec. 234, 83 Stat. 1244, as amended (42 U.S.C.-2133, 2134, 2201, 2232, 2233, 2236, 2239, 2282); secs. 201, 202, 206, 88 Stat. 1242, 1244, 1246, as amended (42 U.S.C. 5841, 5842, 5846), unless otherwise noted.
36 b_
~
[7590-01]
Section 50.7 also issued under Pub. L 95-601, sec. 10, 92 Stat. 2951 (42 U.S.C. 5851). Sections 50.57(d), 50.58, 50.91, and 50.92 also issued under Pub. L.97-415, 96 Stat. 2071, 2073 (42 U.S.C. 2133, 2239).
Section 50.78 also issued under sec. 122, 68 Stat. 939 (42 U.S.C. 2152).
Sections 50.80-50.81 also issued under sec. 184, 68 Stat. 954, as amended (42 U.S.C. 2234). Sections 50.100-50.102 also issued under sec. 186, 68 Stat. 955 (42 U.S.C. 2236)..
For the purposes of Sec. 223, 68 Stat. 958, as-amended (42 U.S.C.
2273), SS 50.10(a), (b), and (c), 50.44, 50.46, 50.48, and 50.80(a) are issued under 161b, 68 Stat. 948, as amended (42 U.S.C. 2201(b));
SS 50.10(b) and (c) and 50.54 are issued under sec. 1611, 68 Stat.-949, as amended (42 U.S.C. 2201(i)); and SS 50.55(e), 50.59(b), 50.70, 50.71, 50.72, 50.73, and 50.78 are issued under sec. 1610, 68 Stat. 950, as amended (42 U.S.C. 2201(o)).
In Appendix E,Section IV " Content of Emergency Plans" is revised to read as follows:
IV.
Content of Emergency Plans The applicant's emergency plans shall contain, but not necessarily be limited to, information needed to demonstrate compliance with the elements set forth below, i.e., organization for coping with radiation emergencies, assessment action, activation of emergency organization, notification procedures, emergency _ facilities and equipment, training, maintaining emergency preparedness, and recovery. In addition, the emergency response plans submitted by an applicant for a nuclear power reactor operating license shall contain information needed to demonstrate 37
-,~.
[7590-01]
compliance with the standards described in S 50.47(b), and they will be
~
evaluated against those standards. The nuclear power reactor operating license applicant shall also provide an analysis of the time required to evacuate and for taking other protective actions for various sectors and distances within the plume exposure-pathway EPZ for transient and permanent populations.
- The nuclear power reactor operating licensee and applicant emer-gency response plans shall assure that the following capabilities exist relative to the complicating impacts of severe, low frequency natural phenomena characteristic of the site.
In addressing the following capa-bilities the licensee shall assume that the design basis event has been exceeded and that normal communication and road networks have been disrupted.
1.
Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
2.
Ability by the licensee to assess damage to the plant and to translate this information into projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite' authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
- This rule change is typed in comparative text in order to assist review.
38 E
.[7590-01]
In considering the complicating impacts of severe, low frecuency,
' natural phenomena, State and local governments should identify, in their emergency plans, alternate routes of travel and methods for determining whether to shelter or evacuate.
Dated at this ___ day of
, 1985.
For the Nuclear Regulatory Commission.
Samuel J. Chilk Secretary of the Commission 39
Regulatory Analysis for Final Rulemaking to 10 CFR Part 50 Appendix E; Emergency Planning and Preparedness for Production and Utilization Facilities Statement of the Problem On December 8, 1981, the Commission ruled in a then pending adjudication that its emergency planning regulations do not require consideration of poten-tial' earthquake effects on emergency plans for nuclear power reactors. Southern California Edison Comoanv, et al.
(San Onofre Nuclear Generating Station, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
In so ruling the Commission stated:
The Commission will consider on a generic basis whether regula-tions should be changed to address the potential impacts of a severe earthquake on emergency planning. For the interim, the proximate occurrence of an accidental _ radiological release and an earthquake that could disrupt normal emergency planning appears sufficiently unlikely that consideration in individual licensing proceedings pending generic consideration of the matter is not warranted.
14 NRC at 1092.
The Commission affirmed this position in the Diablo Canyon proceeding.
Pacific Gas and Electric Company (Diablo Canyon Nuclear Power Plant, Units 1 and 2), CLI-84-12, 20 NRC 249 (August 10, 1984).
In this decision the Commis-sion stated that it would initiate rulemaking "to address whether the potential for seism'ic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amendment of the regulations to specifically consider those impact,." 20 NRC at 254. The focus of this rule-making is to "obtain additional information to determine whether, in spite of current indications to the contrary, cost-effective reductions in overall risk may be obtained by the explicit consideration of severe earthquakes in emer-gency response planning."
I_d. at 254-255.
1
Objective On December 21, 1984, the Commission published a proposed amendment to portions of 10 CFR Part 50 relating to earthquakes and emergency planning (49 FR 49640). The proposed rule stated that neither emergency response plans nor evacuation time analyses need consider the impact of earthquakes which cause or occur proximate in time with an accidental release of radioactive material from a nuclear power reactor. These amendments to 10 CFR 50.47 and 10 CFR Part 50 Appendix E proposed to explicitly adopt by rule the Commission's interpretation of its existing rules in the Commission San Onofre and Diablo Canyon decisions.
The overall objective of the proposed rule, was to obtain public input relative to the merits of three possible alternatives:
1.
Adoption of the proposed rule explicitly incorporating the Commission interpretation in San Onofre and Diablo Canyon, not to consider the impacts of earthquakes in emergency planning.
2.
Leaving the issue open for adjudication on a case-by-case basis; or 3.
Requiring by rule that emergency plans specifically address the impacts of earthquakes.
The Commission was also considering whether to include in this rulemaking tornadoes and other low-frequency natural events.
Alternatives After review of the San Onofre and Diablo Canyon decisions and all public comments, the staff considered three alternative approaches:
Alternative 1.
Adcption of the proposed rule into a final rule with minor but important word changes, for example, "no additional emergency preparedness measures need be established to account for severe, low frequency natural phenomena than is already required in 10 CFR 50.47 and Appendix E."
Pro: 1.
Narrows litigation of the issue in individual licensing cases.
- 2.
Does not arbitrarily focus on earthquakes.
3.
Makes explicit the Commission's position that reasonable plans for coping with severe natural phenomena are already in place.
2
EV4ct1AT 108tS 14tarbe r
~
Eme r-ta r gency Peccle Distance Deaths tasp to l Comments Location Date Cause(s)
Plan Ivac.
.Teme Decatur, Ill 7/19/71:
Tank car explosion No 30,000 3 het hone t'r e.tes rapid coerenecation and fire Madison County, Idaho 6/6/76 Teton Dam broke No 7,000 30 mins
=one
<r, miles wal e organ red; g-oo communics : s ons Freemont Co.,
Idaho 6/6/76 Teton Dam broke No
? $0c 1 - t - 3 / ~'
h.a *. =
5 m des 6.ies tt.e - refuse s to Mr*
eenve Jackson, Miss t
0.3 miles Well prepa ed but meet and Jackson (,ounty to/'r'79 Flood of Pearl Yes 6,500 12-16 Fra River resistar.cc rrom residents Witchita Falls TX 5/5/79 Tornado Yes 100,000 N/A No..
'ta t.e 8v/A Organi?cd tystem of thcItered commun.,ca t
- ons Mobile, Ala and 2 coasted counties 1979 Hurricane Yes 100,ru0 within Nore None 300 alles Prepa red 49 advar.**,
17 hrs ability to commuricate
>' Phoenix, AR 2/17/80 Flooding Yes 20,000 6 hrs Mone hone 3 miles Advance preparstleta mor.
stility to commue3arte Po rt Ja rvi s, NY 2/12/81 Flooding of the Yes 3,000 2 hrs None i
1 site Deatts involved a r e t a -ded Delaware River youth WD hecPsPe ranreisP9 sisccess due to o 4...< -
2.o9 a r.: communicatenn South San Fran., CA 8/22/81 inwic gas cloud No 3,000- 30 mins None None 1/7 miie People wre u.o ld..)
.eeve from chemical plant 5,000 s ras Ma rysville, WA 10/6/81 Chlorine gas cloud Yes 2,000 2 hrs None None is mi l4*
Occurred e";er meie. lent; v3nt cM r-t:.-doc.
Cameron, LA 9/10/82 Hurricane Yes 3,000 3 hrs None Mone 50 mlles Commartica t i% : te..er r.
Feders ; ned Sta te te.
local pstreshes Taft, LA 12/11/82 Chemical plant Yes 17,000 2.5 hrs None None l'
mller We l l p rege red accident to 3.5 hrs tes E
Denver, CO 84 / 3 / 8 3 Rail accident, Yes 9,000 3.5 hrs None Mone 10 miles Hed prepa a4 'o?
y nitric acid spill continger. ?ns a
C Jackson, MISS 5/21/83 Pearl River Flood Yes 3,100 12-18 None None 2.3 miles Moved
- o a t o* e.
g rmum.
N hrs wei1 2 eps reo for restart acteens PJ Moncks Corpor, SC 7/7/83 Leak in Pinopolls Yes 3,000 2.5 to None Mone 10 mites Ability to commor.;cate dam, Lake Moultrie 3 hrs
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s Con: 1.
Significant public concerns may appear to be dismissed without due consideration.
2.
Can be perceived as inconsistent with the Commission's approach to severe accidents and the concept of defense in depth.
Alternative 2.
Leaving the issue open for adjudication on a case-by-case basis; accomplished by withdrawing the proposed rule or by requiring considera-tion of earthquakes.
Pro: Permits consideration of special plaat or site factors.
Con: 1.
The litigation itself would have no bounds--e.g., strength of bridges and roads may be litigated.
2.
Prolong the licensing process througF. adjudication.
Alternative 3: Promulgate a final rule t n1ch incorporates justification previously used by the Commission and states that emergency response plans shall assure that the following capaailities exist relative to the complicating impacts of severe, low frequency natural phenomena characteristic of the site.
In addressing the following capabilities the licensee shall assume that the design basis event has been exceeded and that normal communication and road networks have been disrupted.
1.
Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
2.
Ability by the licensee to assess damage to the plant and to translate this information into projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
In considering the complicating impacts of severe, low frequency natural phenomena, state and local governments should icentify, in their emergency plans, alternate routes of travel and methods for determining whether to shelter or evacuate.
3 w
i; J F
N A
Pro: 1.
Such a rule would lend greater specificity to the Commission's original premise that emergency plans are sufficient 1y' flexible to accommodate
-a spectrum of events, including the potential complicating < impacts of severe,
. low frequency natural phenomena.
2.
Defines scope of issues open to litigation.
'3.
Includes-all: natural phenomena rather.than focusing arbitrarily,
. on earthquakes.
~ 4.
- This is consistent with the Commission's action in other areas dealing with possible accidents with low predicted return frequencies.
Con: 1.
Permits, litigation in those areas covered by the rule. This.
- may extend the licensing process.
2.
-May open litigation at operating reactors (through 10 CFR 2.206).
' Consequences EE.C
.The staff believes that the ' limited consideration of severe, low frequency naturalJphenomena will require the NRC staff to review the licensees' emergency plan amendments. This review might require a one time cost of up to 6 FTE-over two years.
Other Government Agencies
'The' proposed rule change will_have an' impact on FEMA because the modifica-
- tion _to State and local plans will be reviewed with-the annual updating of emergency plans.
' Industry The proposed amendment will affect the industry in that licensees will be required to' modify =their emergency plans in order to account for severe low
. frequency natural phenomena characteristic of the site and may result in the purchase of additional communications equipment and transportation services to
-support onsite and.offsite response organizations.
4 cc
Public The proposed amendment will effect the public only to the extent that it provides added assurance of acequate emergency preparedness at nuclear reactors in the event of a nuclear accident complicated by the effects of a severe, low
~
probability,. natural phenomenon.
Impact on Other Requirements The proposed rule change will require a Guidance Memorandum from FEMA and IE in order to provide guidance to Stats and local governments on acceptable means for implementing the regulation.
Constraints No constraints have been identified that affect the implementation of the proposed rule.
Decision Rationale Having considered all of the above, as well as all comments received, past operating reactor and emergency preparedness experiences and the ACRS comments, the staff recommends that Alternative 3 be adopted.
In reaching this recom-mendation the staff has given consideration to the following arguments.
On one hand raised the following issues concerning earthquakes and emer-gency preparedness:
Limited or no record exists concerning the flexibility of emergency o
plans to support the proposed rule; therefore, the Commission cannot make a generic finding tha+. effects of earthquakes on emergency planning are always resolved by the general flexibility of emergency plans (see Issue 1, Enclosure 1),
o Current emergency plans take into consideration plant accidents whose probability are in the range of 10E(-4) to 10E(-5). These plans should consider the complicating effects of severe, natural phenomena (2 to 4 times the SSE) whose return frequency is in the same range (see issue 3, Enclosure 1),
5
Defects in seismic design and quality assurance in construction can o
undermine the seismic strength of plant systems and structures (see Issue 6 in Enclosure 1), and There is-limited existing information on the contribution of seismic o
events to overall core melt frequency (see Issues 5 and 12, Enclo-sure 1) in that only a few PRAs assess seismic risks and the treatment entails many uncertainties.
Additionally the Emergency Action Level scheme addressed in NUREG-0654 specifies that an emergency be declared in the event that a " Natural phenomenon is being experienced..." at the plant. As the intensity of the natural phenomenon increases so does the classification of the emergency. A few of the required licensee actions for the Site Area and General Emergencies when the plant experiences a natural phenomenon beyond the design basis would be to " augment resources by activating the on-site Technical Support Center, on-site opera-tional support center and the near-site Emergency Operations Facility"; and to
" Dedicate an individual for plant status updates to offsite authorities...";
and to " Provide meteorological and dose estimates to offsite authorities...".
These presently required licensee actions, taken in conjunction with respon-sibilities of the State and local governmental authorities during an emergency leads the staff to conclude that the elements in the proposed final regulation are logical and warranted.
On the other hand, the staff conducted a review of emergency exercises at nuclear power plants and licensee response to potential accidents as well as an analysis of 20 randomly selected, actual, non-nuclear, evacuations (see Issue 1, and Enclosure 2).
This review demonstrated the validity of the Commission's belie.f that emergency plans do have sufficient flexibility to assure that protective actions can and will b'e taken to mitigate the consequences of a wide spectrum and combination of accidents. Thus, this information provides substantial support for the position that no additional emergency preparedness measures need be established to account for severe natural phenomena.
In addition, the Federal Emergency Management Agency (FEMA), which is responsible for reviewing and assuring effective offsite emergency preparedness and response has several programs in place or underway to assure that an integrated capability exists for protecting the public health and safety in the 6
f 1
event of an emergency. These programs (see Issue 11) include: The Radiological Emergency Preparedness (REP) program and the Earthquake Hazard Reduction program.
When completed, the Earthquake Hazard Radiation Program will provide the basis for adequate Federal, State and local government response to protect the public in the very unlikely event of a coincident major earthouake and radiological emergency. The Radiological Emergency Preparedness program presently assures an integrated capability exists for State and local governments, together with utilities', to implement protective measures in the event of an emergency. FEMA programs are carried out in a manner that the integration of common functions such as communication, alert and notification, protective actions and decision-making is addressed, while recognizing unique management requirements such as radiological measurements.
Considering all of the above it can be argued that the inherent flexibility in the plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting from or occurring proximate to severe low frequency natural phenomena (e.g., earthquakes, tornadoes) which have the potential for complicating the emergency response to these accidents.
However, on balance, considering the points raised by many of the public comments and in view of the Emergency Action Level logic along with the potential magnitude of the uncertainties identified, the staff has decided that a more conservative approach is appropriate and recommend amending the regulations to explicitly require some limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning. This will provide added assurance that adequate protective actions can and will be taken in the event of a radiological emergency complicated by the effects of such natural phenomena.
The staff recommendation that only limited consideration be given is based on 3 things:
(1) inherent flexibility and demonstrated effectiveness of offsite plans and preparations (local, State FEMA, etc.) to handle severe low frequency natural phenomena.
(2) residual risk from such phenomena complicating a nuclear emergency are small.
(3) devastation from the phenomena itself and other associated complica-tions (e.g., release of chemicals, fires, rupturing of dams) will likely far exceed the incremental impact of the complicating effect of the natural phenomena on a nuclear emergency.
7 o
In spite of this the staff felt it necessary to specifically assure that provisions were in place to:
(1) get needed staff tothe plant to bring the plant to a safe shutdown so as not to increase the risk of a radiological accident resulting from the nal. ural phenomena.
(2) be able to provide needed information concerning the status of the plant to offsite authorities so that these authorities would be able to take the status of the plant into account in formulating and carrying out emergency measures following the natural phenomena, and (3) that offsite plans should include consideration of alternative actions which could be taken if there were damage to the plant environs.
This final rule would:
1.
Clarify and articulate the Commission's original premise that emer-gency plans have inherent flexibility to assure that there exist reasonable assurance that appropriate protective actions can and will be taken to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes-of plant operation.
3.
Require the ability by the licenseeEto assess damage to the plant and to translate this information into projections of the expected or actual radia-tion hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
4.
Specify that in considering the complicating impacts of severe, low frequency natural phenomena, State and local governments should identify, in their i
emergency plans, alternate routes of travel and methods for determining whether to shelter or evacuate.
This staff recommendation would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of severe, low frequency natural phenomena. This is not being recommended because a natural phenomena beyond the design basis would cause such unpredictable patterns of disruption and devastation that the time estimates would probably be meaniaqless and in fact may be misleading.
8 e
r_
b 2.~
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, low frequency natural phenomena.
3.
A detailed, extensive study considering the complicating ef'ects of f
earthquakes or other natural phenomena on offsite emergency response capabil-ities. For example, the staff specifically considers that the " TERA" study completed for Diablo Canyon is well beyond the scope and intent of what would be. required by this rulemaking.
Implementation In order to be responsive to Commission direction, the staff has estab-
~11shed the following schedule for publication of the proposed rule change.
Proposed Rule Published in Federal Register - 12/21/84 60-Day Comment Period - 2/85 Final Rule Published in Federal Register - 9/85 l
l 9
c
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4a.nk 6y %b *k I
P 3
,/x/er The attached table was derived from a report entitled " Seismic Hazard Characterization of the Eastern United States, Volume 1: Methodology and
'Results for Ten Sites" by b.L. Bernreuter and others from LLNL (UCID-20421 Vol. 1). The probability values shown were read off the Hazard Curves for the individual NPP sites; figure and page numbers are noted. The probabilities in the table are to be interpreted as follows: Braidwood -
8x10-4, at the SSE acceleration of 0.20 "g" 85% of the hazard curves have probability values.less than 8x10-4 per year or 7x10-8, at the 4 times SSE acceleration of 0.80 "g" 15% of the hazard curves have probability values less than 7x10-8 per year.
I C -3L M
n..
F
\\
y y
v,
~Braidwood.
SSE = 0.20"g" 85%
50%
15%
SSE 8x10-4 1x10-4 1x10-5 2xSSE' 1x10-4 1x10-5 9x10-7 4xSSE 1.5x10-5 8x10-7 7x10-8 Fig. 5.2.3.
- p. 5-9 Shearonl Harris SSE = 0.1"g"
-85%
50%-
15%
SSE 2.5x10-3 3x10-4 4x10 2xSSE 4x10-4 5x10-5 4x10-6 4xSSE 5x10-5 4x10-6 2.5x10-7 Fig. 5.3.3
- p. 5-21 River Bend-SSE = 0.10"g" 85%
50%
15%
-Ix10-3 2x10-4 3x10-5 2xSSE 2x10-4 3.5x10-5 4x10-6 4xSSE 3x10-5 4x10-6 4x10-7 Fig. 5.4.3
- p. 5-33
' Millstone SSE = 0.11-0.18"g" 85%
50%-
15%
SSE 3x10-3 4x10-4 5x10-5 2xSSE 4x10-4 5x10-5 4.5x10-6 4xSSE 7x10-5 6x10-6 3x10-7 Fig. 5.5.3
- p. 5-45 Limerick SSE = 0.15"g" 85%
50%
15%
-2xSSE 8x10-4 1x10-4 9x10-6 4xSSE 1x10-4 1x10-5 5x10-7 Fig. 5.6.3
- p. 5-57 2
y t
.o.
--;; c t, La Crosse.
-.SSE = 0.12"g"
~
85%
50%
15%
6x10-6 2x5SE
6x10-5 5x10-Fig. 5.7.3
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t UNITED STATES NUCLEAR REGULATORY COMMISSION
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WASHINGTON, D. C. 20565 MEMORA'. 00M FOR:
William J. Dircks Executive Director for Operations FROM:
Robert B. Minogue, Director Office of Nuclear Regulatory Research
SUBJECT:
FINAL AMENDMENTS TO 10 CFR PART 50, APPENDIX E:
CONSIDERATION OF EARTHQUAKES IN EMERGENCY PLANNING The attached Comission paper contains a final amendment to 10 CFR Part 50, Appendix E.
The purposes of the paper are:
1.
To establish a requirement for the limited consideration of the poten-tial complicating effects of severe, low frequency natural phenomena
-(including earthquakes) on emergency planning.
2.
To obtain Comission approval for the publication of the final amer.dment in the Federal Register.
On December 8, 1981, the Commission ruled in a then pending adjudication that its emergency planning regulations do not require the consideration of potential earthquake effects on emergency plans for nuclear power reactors.
Southern California Edison Company, et al.
(San Onofre Nuclear Generating 5tation, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
The Comission affirined this position in the Diablo Canyon proceeding.
Pacific Gas and Electric Company (Diablo Canyon Nuclear Power Plant, Units 1 and 2), 20 NRC 249 (August 1), 1984).
In this decision the Comission stated that it would initiate rulemaking "to address whether the potential for seismic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amendment.
On December 21, 1984, the Commission published for public comment, a proposed amendment to portions of 10 CFR Part 50 relating to earthquakes. The proposed rule states that neither emergency response plans nor evacuation time analyses need consider the impact of earthquakes which cause or occur proximate in time with an accidental release of radioactive material from a nuclear power reactor.
2 i
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2 Sixty one comment letters were received from the public. Those commentors that opposed promulgation of the proposed rule pointed out the following
- uncertainties involving earthquakes and emergency preparedness:
4 o
Limited or no data exists concerning the flexibility of emergency plans to support the proposed rule.
o Current emergency plans take into consideration plant accidents whose probability are in the range of 10E(4) to 10E(-5). These plans should therefore consider the complicating effects of severe, natural phenomena (beyond the SSE) whose return frequency is in the same range.
o Defects in seismic design and quality assurance in construction can un-dermine the seismic strength of plant systems and structures, and o
There is limited existing information on the contribution of seismic events to overall core melt frequency in that only a few PRAs assess j
seismic risks and the treatment entails many uncertainties.
Additionally, the Emergency Action Level scheme addressed in NUREG 0654 spec-ifies that an emergency be declared when a natural phenomenon is being experienced at the plant. As the intensity of the natural phenomenon increase so does the classification of the emergency. A few of the required licensee actions for the Site Area and General b rgencies for natural phenomenon beyond the design basis would be to " Augment resources by activating the.on-site Technical Support Center, on-site operational support center and the near-site Emergency Operations Facility," to " Dedicate an individual for plant status updates to offsite authorities..." and to j
" Provide meteorological and dose estimate to offsite authorities...".
These required Emergency Action Levels (EAL) licensee actions, taken in sonjunction with responsibilities of the State and local governmental authorities during an emergency lead the staff to conclude that the elements in the proposed final regu' ation is logical and warranted.
In evaluating the rationale for promulgating the proposed rule the staff conducted a review of emergency exercises at nuclear power plants and licensee response to potential accidents, as well as an analysis of 20 actual evacuations not associated with nuclear energencies.
This review demonstrated that emergency plans do have sufficient flexibility to assure that protective actions can and will be taken to mitigate the consequences of a wide spectrum and combination of accidents. This informaiton provides substantial support for the position that no additional emergency preparedness measures need be estabished to account for severe natural phenomena.
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In addition, the Federal Emergency Management Agency (FEMA), which is respon-sible for reviewing and assuring effective offsite emergency preparedness and response, has several programs in place or underway to assure that an.inte-grated capability exists for protecting the public health and safety in the event of an emergency. These programs include: The Radiological Emergency Preparedness program and the Earthquake Hazard Reduction program. When i
completed, the Earthquake Hazard Reduction program will provide the basis for adequate Federal, State and local government response to protect the public in the very unlikely event of a coincident major earthquake and radiological emergency. The Radiological Emergency Preparedness program presently assures an integrated capability exists for State and local governments, together with utilities, to implement protective measures in the event of an emergency.
Considering all of the above, it can be argued that the inherent flexibility in the plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting from or occurring proximate to severe, low frequency natural phenomena which have the potential for complicating the emergency response to these accidents. However, on balance, after evaluating the EAL logic along with the potential magnitude of the uncertainties identified by public comentors, the staff has decided to and recomend arending the regulations to explicitly require some, limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning. This will provide added assurance that i
adequate protective actions can and will be taken in the event of a radiological emergency complicated by the effects of such natural phenomena.
The staff is recomending only limited consideration of the complicating effects of natural phenomena on emergency planning because of the realization i
that if a natural phenomenon beyond the design basis occurred in the environs l
of a nuclear power plant the dominant risk to the public would be from the I
natural phenomena and the incremental increase in risk from a radiological emergency would be minimal and of limited concern compared to the devastation
_from the natural phenomena.
This final rule would:
1.
Clarify and articulate the Comission's original premise that emergency t
plans have inherent flexibility to assure that there exists..." reason-able assurance that appropriate protective actions can and will be tak-en..."to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transpcrt necessary personnel to the plant after the event, in order to augment the original staff as necessary to cope with degraded modes of plant operation.
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3.
Bequire the ability by the licensee to assess damage to the plant and to translate this information into realistic projections of the expected or actual radiation hazard offsite, and be able to connunicate this infonnation to offsite authorities, so that this infomation will be available as a factor in the decision-making process, including recommendations for protective actions after severe, low-frequency natural phenomena.
1 4.
That offsite emergency plans should include consideration of alternative actions which could be taken if there were damage to the plant environs.
This shall be limited to knowing alternate routes of travel as well as establishing criteria for detemining whether to shelter, relocate or to evacuate.
This staff reconnendation would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of se-t vere, low frequency natural phenomena. This is not being reconnended i
because a natural phenomena beyond the design basis would cause such unpredictable disruption and devastation that the time estimates would probably be meaningless and in fact may be misleading during an emergency.
2.
That roads, bridges, buildings and other strutures be reinforced to withstand the effects of severe, low frequency natural phenomena.
Because FEMA is directly involved in the evaluation of offsite emergency pre-paredness and would be affected by the promulgation of this amendment, the NRC staff has kept the FEMA staff advised on the development of this paper.
I Presently, IE and FEMA are continuing to interact on this paper. FEMA concurrence is anticipated prior to Connission consideration. The Office of Inspection and Enforcement and the Office of Nuclear Reactor Regulation
~
concur in this Commission paper. The CRGR and Regional Offices connented and concurred in the proposed rule change; however, due to the limited amount of 1
time that was available for developing the final amendment, the CRGR and the Regional Offices were not involved,in the final concurrence process.
The ACRS considered the final amendment in May 1985 and essentially concurs with the staff reconnendation (See Enclosured letter).
Robert B. Minogue Director Office of Nuclear Regulatory Research :
1 Attachments:
As stated l
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l Fer:
The Commissioners From:
William J. Dircks Executive Director for Operations
Subject:
FINAL AMENDMENTS TO 10 CFR PART 50, APPENDIX E; CONSIDERATION 0F EARTHQUAKES IN EMERGENCY PLANNING
Purpose:
To obtain Commission approval for publication in the Federdi Register of a final amendment to the regulations that would require limited consideration of the complicating effects of low frequency natural phenomena which would include earth-quakes in emergency planning.
Cntecory:
This paper covers a major policy matter.
B ckaround:
On December 8, 1981, the Commission ruled in a then pending adjudication that its emergency planning regulations do not require consideration of potential earthquake effects on emer-gency plans for nuclear power reactors.
Southern California Edison Company, et al.
(San Onofre Nuclear Generating Station, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
In so ruling the Commission stated:
The Commission will consider on a generic basis whether regulations should be changed to address the potential impacts of a severe earthquake on emergency planning.
For the interim, the proximate occurrence of an accidental radiological release and an earthquake that could disrupt normal emergency planning appears sufficiently unlikely that consideration in individual licensing proceedings pending generic consideration of the matter is not warranted.
14 NRC at 1092.
The Commission affirmed this position in the Diablo Canyon proceeding.
Pacific Gas and Electric Company (Diablo Canyon Nuclear Power Plant, Units 1 and 2), CLI-84-12, 20 NRC 249 (August 10, 1984).
In this decision the Commission stated that it would initiate rulemaking "to address whether the potential for seismic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amenduent
Contact:
Mike Jangochian, RES 443-7615
The Commissioners 2
of the regulations to specifically consider those impacts."
20 NRC at 254.
The focus of this rulemaking is to "obtain additional information to determine whether, in spite of current indications to the contrary, cost-effective reductions in overall risk may be obtained by the explicit consideration of severe earthquakes in emergency response planning."
Id. at 254-255.
Discussion:
On December 21, 1984, the Commission published a proposed amend-ment to portions of 10 CFR Part 50 relating to emergency planning and preparedness at production and utilization facilities for power reactors (49 FR 49640).
The proposed rule stated that neither emergency response plans nor evacuation time analyses need consider the impact of earthquakes which cause or occur' proximate in time with an accidental release of radioactiv.e material from a nuclear power reactor.
These amendments to 10 CFR 50.47 and 10 CFR Part 50 Appendix E proposed to explicitly adopt by rule the Commission's interpretation of its existing rules in the Commission San Onofre and Diablo Canyon decisions.
In the proposed rule, the Commission requested that commentors t
i address the merits of three possible alternatives:
1.
Adoption of the proposed rule explicitly incorporating the Commission interpretation in San Onofre and Diablo Canyon, not to consider the impacts of earthquakes in emergency planning.
2.
Leaving the issue open for adjudication on a case-by-case basis; or 3.
Requiring by rule that emargency plans specifically address the impacts of earthquakes.
l The Commission was also considering whether to include in this
~
rulemaking tornadoes and other low-frequency natural events.
I The proposed rule permitted a 30-day comment period. This period was extended until February 27, 1985.
To date, 61 comment letters have been received. Twenty-five letters-favored the promulgation of.the proposed rule. The majority of these letters were from utilities and consulting firms representing utilities.
Two favorable comments were received from private citizens and one from the Department of Energy.
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Thirty-four letters opposed promulgation of the proposed rule, many of which, voiced strong displeasure, shock or disbelief regarding the wording of the proposed rule.
The majority of these letters were from private citizens, intervenor groups 2
and public interest groups.
Nine of these letters were in the signed petition form with approximately 94 signatures in total.
Likewise, in a letter to the Chairman, dated June 20, 1985, the ACRS stated that "we...see no technical reason for the exclusion of earthquakes from the natural phenomena considered in offsite emergency planning for nuclear power plants.
However, we believe that only limited consideration...is appropriate." Additional input was requested by the ACRS from j
Japan, France, Sweden, Germany and Taiwan, all of which stated that the potential complicating effects of earthquakes were not specifically considered in their nuclear power reactor emergency planning.
No commentor took a position on the second alternative, i.e.,
leaving the issue open for adjudication on a case-by-case basis.
All of the commentors favoring promulgation of the proposed rule agreed with the rationale offered by the Commission, and provided little additional support for the proposed rule.
Commentors opposing the proposed rule questioned the validity of the Commission's rationale and focused on additional issues addressed in the proposed final rule by the staff.
(Enclosure 1) j Alternatives:
After review of the San Onofre and Diablo Canyon decisions and all public comments the staff offers for Commission considera-tion three alternative approaches:
Alternative 1.
Adoption of the proposed rule into a final rule with minor but important word changes, for example, "no additional emergency preparedness measures need be established i -
to account for severe', low frequency natural phenomena than is already required in 10 CFR 50.47 and Appendix E."
Pro: 1.
Narrows litigation of.the issue in individual licensing i
cases.
l 2.
Does not arbitrarily focus on earthquakes.
3.
Makes explicit the Commission's position that reason-l able plans for coping with severe natural phenomena are l
already in place.
Con: 1.
Significant public concerns will appear to be dismissed without due consideration.
2.
Inconsistent with the Commission's approach to severe accidents and the concept of defense in depth.
r 4
4 The Commissioners I
Alternative 2.
Leaving the issue open for adjudication on a case-by-case basis; accomplished ~by withdrawing the proposed rule or by requiring consideration of earthquakes.
Pro: No apparent advantages.
a Con: 1.
The litigation itself would have no bounds--e.g.,
strength of bridges and roads may be litigated.
2.
Prolong the licensing process through adjudication.
g.
Alternative 3:
Promulgate a final rule which incorporates justification previously used by the Commission and states that emergency response plans shall assure that the following i
i.
capabilities exist relative to the complicating impacts of.
severe, low frequency natural phenomena characteristic of the site.
In addressing the following capabilities the licensee shall assume that the design basis event has been exceeded and that normal communication and road networks have been sub-stantially disrupted.
1.
Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
2.
Ability by the licensee to assess damage to the plant and to translate this information into realistic projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
3.
Offsite emergency plans should include consideration of alternative actions which could be taken if there were damage to the plant environs.
This shall be limited to knowing alternate routes of travel as well as establishing criteria for determining whether to shelter, relocate or to evacuate.
Pro: 1.
Such a rule would lend greater specificity to the Commission's original premise that emergency plans are sufficiently flexible to accommodate a spectrum of events, including the potential complicating impacts of severe, low frequency nature phenomena, e
Defines scope of issues open to litigation.'
l 2.
Includes all natural phenomena rather than focusing 3.
arbitrarily on earthquakes.
0 The Commissioners 5
4.
This is consistent with the Commission's action in other areas dealing with possible accidents with low predicted return frequencies.
Con: 1.
Extend the licensing process by permitting limited litigation of the adequacy of assessment performed.
2.
May open litigation at operating reactors (through 10 CFR 2.206).
Having considered all of the above, as well as all comments received, past operating reactor and emergency preparedness experiences and the ACRS comments, the staff recommends that Alternative 3 be adopted.
In reaching this recommendation the staff has given consideration to the following arguements.
On one hand the issues raised by the commentors pointed out these uncertainties involving earthquakes and emergency preparedness:
Limited or no data exists concerning the flexibility of o
emergency plans to support the proposed rule; therefore, the Commission cannot make a generic finding that effects of below-SSE earthquakes on emergency planning are always resolved by the general flexibility of emergency plans (see Issue 3, inclosure 1),
Current emergency plans take into consideration plant o
accidents whose probability are in the range of 10E(-4) to 10E(-5).
These plans should consider the complicating effects of severe, natural phenomena (2 to 4 times the SSE) whose return frequency is in the same range (see issue 3, ),
Defects in seismic design and quality assurance in construc-o tion can undermine the seismic strength of plant systems and structures (see Issue 6 in Enclosure 1), and o
There is limited existing information on the contribution of seismic events to overall core melt frequency (see Issues 5 and 12, Enclosure 1) in that only a few PRAs assess seismic risks and the treatment entails many uncertainties.
Additionally the Emergency Action Level scheme addressed in NUREG-0654 specifies that an emergency be declared in the event 4
that a " Natural phenomenon is being experienced..." at the plant.
As the intensity of the natural phenomenon increases so does the classification of the emergency.
A few of tne required licensee actions for the Site Area and General Emergencies when the plant experiences a natural phenomenon beyond the design basis would be to " augment resources by activating the on-site Technical Sup-port Center,~ on-site operational support center and the near-site
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The Commissicnars 6
Emergency Operations Facility"; and to " Dedicate an individual for plant status updates to offsite authorities..."; and to " Provide meteorological and dose estimates to offsite authorities...".
These required licensee actions, taken in conjunction with respon-sibilities of the State and local governmental authorities during an emergency leads the staff to conclude that the elements in the proposed final regulation is logical and warranted.
On the other hand, the staff conducted a review of emergency exercises at nuclear power plants and licensee response to poten-tial accidents as well as an analysis of 20 actual evacuations (see Issue 1, Enclosure 1 and Enclosure 2).
This review demon-strated that emergency plans do have sufficient flexibility to assure that protective actions can and will be taken to mitigate the consequences of a wide spectrum and combination of accidents.
This information provides substantial support for the position that no additional emergency preparedness measures need be estab-lished to account for severe natural phenomena.
In addition, the Federal Emergency Management Agency (FEMA), which l
1s responsible for reviewing and assuring effective offsite emer-gency preparedness and response has several programs in place or underway to assure that an integrated capability exists for protecting the public health and safety in the event of an emer-l gency. These programs (see Issue 11) include:
The Radiological Emergency Preparedness (REP) program and the Earthquake Hazard Reduction program. When completed, the Earthquake Hazard Redoc-tion Program will provide the basis for adequate Federal, State and local government response to protect the public in the very unlikely event of a coincident major earthquake and radiological emergency.
The Radiological Emergency Preparedness program presently assures an integrated capability exists for State and local governments, together with utilities, to implement pro-tactive measures in the event of an emergency.
FEMA programs are carried out in a manner that the integration of common functions such as communication, alert and notification, protective actions and decisionmaking is addressed, while recognizing unique manage-ment requirements such as radiological measurements.
Considering all of the above it can be argued that the inherent flexibility in the plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting from or occurring proximate to severe low frequency natural phenomena (e.g., earthquakes, tornadoes) which have the potential for complicating the emergency response to these acci-dents. However, on balance, after evaluating the EAL logic alung with the potential magnitude of the uncertainties identified the staff has decided to take a more conservative approach *and recom-mend amending the regulations to explicitly require some, limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning.
This will provide added assurance that adequate protective actions can and will be taken
_ - -. s The Commissioners 7
in the event of a radiological emergency complicated by the effects of such natural phenomena.
The staff recommendation that only limited consideration be given should be based on 3 things:
(1) inherent flexibility and demonstrated effectiveness of offsite plans and preparations (local, State FEMA, etc.) to
. handle severe low frequency natural phenomena.
(2) residual risk from such phenomena complicating a nuclear emergency are samil (use figures from Limerich as an example).
(3) devastation from the phenomena itself and other associated complications (e.g., release of chemicals, fires, rupturing of dam) will likely far exceed the incremental impact'of the complicating effect of the natural phenomena on a nuclear emergency.
In spite of this the staff felt it necessary to specifically assure that provisions were in place to:
(1) get needed staff to the plant to bring the plant to to a safe shutdown so as not to increase the risk of a radiological accident resulting from the natural phenomena,
-(2) be able to provide needed information concerning the status of the plant to offsite authorities so that these authorities would be able to take the status of the plant L
into account in formulating and carrying out emergency measures following the natural phenomena, and (3) that offsite plans should include consideration of alternative actions which could be taken if there were l,
damage to the plant environs.
l This final rule would:'
1.
Clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assure that
. there exists..." reasonable assurance that appropriate protective actions can and will be taken..." to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the
" plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation.
2.tdst s ne Ma
- 3. 4 (hility by the licensee to assess damage to the plant and to translate this information into realistic projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities,
The Commissioners 8
so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
4.
Require that offsite emergency plans should include consideration of alternative actions which could be taken if there were damage to the plant environs. This sha,1l be limited to knowing alternate routes of travel as well 1
as establishing criteria for determining whether to shelter, relocate or to evacuate.
This staff recommendation would specifically not require:
1.
Evacuation time estimates that consider the complicating effects of severe, low frequency natural phenomena. This is not being recommended because a natural phenomena beyond the design basis would cause such unpredictable disruption and devastation that the time estimates would probably be meaningless and in fact may be misleading.
2.
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, low frequency natural phenomena.
3.
A detailed, extensive study considering the complicating effects cf earthquakes or other natural phenomena on offiste emergency response capabilities. The staff specifically considers that the " TERA" ' study completed for Diablo Canyon is well beyond the scope and intent of this rulemaking.
FEMA Coordination:
Because FEMA is directly involved in the evaluation of offsite emergency preparedness and would be affected by the promulgation l-
~
of these amendments, the NRC staff has kept the FEMA staff advised on the development of this paper.
Presently, the Office of Inspection and Enforcement and FEMA are continuing to interact on this paper.
FEMA concurrence is anticipated prior j
to Commission consideration.
Cost Estimate:
The staff anticipates that promulgation of this final rule change which limits consideration of the complicating effects of severe natural phenomena will have minimal cost impact on licensees, or State and local governments.
This is because (1) the considera-tions are limited and (2) offsite authorities already have an extensive program for dealing with an entire spectrum of natural l'
and man-made emergencies.
Recomment ; cions:
1.
Approve for publication in the Federal Register a notice of final rulemaking (Enclosure 1) to 10 CFR Part 50, Appendix E to be effective 30 days after publication.
.. ~ - _ _ _ -. _,. -.
n The Commissioners 9
2.
Note:
(a) That appropriate Congressional committees will be notified of the rule change.
(b)- That the ACRS is being informed of the rule change.
(c) That, pursuant to 10 CFR S 51.5(d)(3) of the Commission's regulations, an environmental impact statement, negative declaration, or environmental impact appraisal need not
'be prepared in connection with the subject final rule change because there is no substantive or significant environmental impact.
(d) That, pursuant to the Regulatory Flexibility Act of 1980, the Federal Register Notice contains a statement that the Commission certifies that this final rule will not have a significant economic impact on a substantial number of small entities, and a copy of this certifica-tion will be forwarded to the Chief Counsel for Advocacy, SBA, by the Division of Rules and Records, AD8.
(e) That the Federal Register Notice contains a statement that, pursuant to the Paperwork Reduction Act of 1980, the NRC has made a determination that the rule change does not impose new recordkeeping, information collec-tion, or reporting requirements.
(f) That the Federal Register Notice will be sent by TIDC, ADM, to affected appl.icants, licensees, and persons that commented on the proposed rule.
(g) That a public announcement of the final rule change will be made.
(h) That the staff recommends this Commission paper be placed in the PDR.
(1) That a Regulatory Analysis has been performed.
Sunshine Act:
Recommend consideration at an open meeting.
Schedulina:
For early consideration.
William J. Dircks Executive Director for Operations
Enclosures:
1.
Federal Register Notice of Final Rule Change to 10 CFR, Part 50, Appendix E 2.
Listing of Public Evacuations
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[7590-01]
i NUCLEAR REGULATORY COMMISSION 10 CFR Part 50 Emergency Planning and Preparedness AGENCY:
Nuclear Regulatory Commission.
ACTION:
Final rule.
SUMMARY
The Commission is amending its regulations in 10 CFR Part 50 in order to require limited consideration of the complicating impacts of severe, low frequency, natural phenomena on emergency preparedness.
The Commission anticipates that this final regulation will not have significant impact on emergency preparedness requirements established by the August 1980 emergency planning requirements (45 FR 55402) but will provide clarification of the premise (that emergency plans have inherent flexibil-ity) which is an underlying factor in the Commission's San Onofre and Diablo Canyon decisions.
EFFECTIVE DATE:
[ Insert 30 days after publication in the Federal Register.]
FOR FURTHER INFORMATION CONTACT: Michael T. Jamgochian, Division of Risk Analysis and Operations, Office of Nuclear Regulatory Research, U.S.
Nuclear Regulatory Commission, Washington, DC 20555, Telephone (301)443-7615.
1
[7590-01]
SUPPLEMENTARY INFORMATION:
On December 21, 1984, the Commission published a proposed amendment to portions of 10 CFR Part 50 relating to emergency planning and preparedness at production and utilities facilities for power reactors (49 FR 49640).
The proposed rule states that neither emer-gency response plans nor evacuation time analyses need consider the impact of earthquakes which cause an occur proximate in time with an accidental release of radioactive material from a nuclear power reactor.
These amend-ments to 10 CFR 50.47 and 10 CFR Part 50, Appendix E proposed to explicitly adopt by rule the Commission's interpretation of its existing rules in the Commission's San Onofre and Diablo Canyon decisions.
On December 8, 1981, the Commission ruled in a then pending adjudica-tion that its emergency planning regulations do not require consideration of potential earthquake effects on emergency plans for nuclear power reactors.
Southern California Edison Company, et al.
San Onofre Nuclear Generating Station, Units 2 and 3), CLI-81-33, 14 NRC 1091 (1981).
In so ruling the Commission stated:
The Commission will consider on a generic basis whether regulations
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should be changed to address the potential impacts of a severe earthquake on emergency planning.
For the interim, the proximate occurrence of an accidental radiological release and an earth-quake that could disrupt normal emergency planning appears sufficiently unlikely that consideration in individual licensing proceedings pending generic consideration of the matter is not warranted.
14 NRC at 1092.
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The Commission recently affirmed this position in the Diablo Canyon I
proceeding.
Pacific Gas and Electric Company (Diablo Canyon Nuclear PowerPlant, Units 1and2),C(I-84-12,20NRC249(August 10, 1984),
San Luis Obispo Mothers for Peace v. NRC 751 F.2d 1287, (D.C. Cir. 1984);
v_acated in part and rehearina en banc granted, 760 F.2d 1320 (1985).
In its decision the Commission stated that it would initiate rulemaking "to address whether the potential for seismic impacts on emergency planning is a significant enough concern for large portions of the nation to warrant the amendment of the regulations to specifically consider those impacts. The chief focus of the rulemaking was to obtain additional information to determine whether, in spite of current indications to the contrary, cost-effective reductions in overal. risk may be obtained by l
the explicit consideration of severe earthquakes in emergency response planning." Id. at 254-255.
The proposed rule permitted a 30-day comment period.
This period was extended until February 27, 1962 (see 50 FR 3797, dated January 28, 1985).
In the proposed rule, the Commission requested that commentors address
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the merits of three possible alternative:
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1.
Adoption of the proposed rule explicitly incorporating the Commission interpretation in San Onofre and Diablo Canyon, not to consider the impacts of earthquakes in emergency
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2.
Leaving the issue open for adjudication on a case-by-case basis; or 3
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3.
Requiring by rule that emergency plans specifically address the impacts of earthquakes.
The Commission was also considering whether to include in this rulemaking tornadoes and other low-frequency natural events.
To date,-61 comment letters have been received.
Twenty-five letters favored the promulgation of the proposed rule.
The majority of these letters were from utilities, and consulting firms representing utilities.
Two favorable comments were received from private citizens and one from the Department of Energy.
Thirty-four letters opposed promulgation of the proposed rule, many of which, voiced strong displeasure, shock or disbelief regarding the Commission's favored alternative.
The majority of these letters were from private citizens, intervenor groups and environmental groups.
Nine of these letters were in the signed petition form with approximately 94 signatures in total.
Likewise, in a letter to the NRC Chairman, dated June 20, 1985, the ACRS stated that "we...see no technical reason for the exclusion of earthquakes from the natural phenomena considered in offsite emergency
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l planning for nuclear power plants.
However, we believe that only l
limited consideration...is appropriate." Additional input was requested L
by the ACRS from Japan, France, Sweden, Germany and Taiwan, al' of which stated that the ootential complicating effects of earthquakes was not specifically considered in their nuclear power reactor emergency planning.
i No commentors or foreign countries took a position on the alter-l l
native to leave the issue open for adjudication on a case-by-case basis.
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All of the commentors favoring promulgation of the proposed 1
rule agreed with the rationale offered by the Commission, and provided little additional support for the proposed rule change.
Commentors opposing the proposed rule questioned the validity of the Commission's 2.
f rationale and focused on the following additional issues.
i A compilation of these issues with an accompanying Commission response follows:
i Issue 1.
There exist limited or no data concerning the flexi,bility of emergency plans to support the proposed rule, therefore, the Commission i
cannot make a generic finding that effects of below-SSE earthquakes on emergency planning are always resolved by the general flexibility of emergency plans.
Commission Response:
In June of 1979, the Commission began a formal reconsideration of the role of emergency planning in ensuring the continued protection of the public health and safety in areas around nuclear power facilities.
The Commission determined that it must have assurance that proper means and procedures will be in place to assess the course of an accident and its potential severity, that NRC and other appropriate authorities and the public will be notified promptly, and that adequate protective actions in response to actual or anticipated conditions can and will be taken.
On August 19, 1980, the Commission published its final rule on emergency planning. In developing the final rule the Commission established 16 planning standards (See 10 CFR 50.47(b)) as the basic and fundamental standards which must be met by both onsite and offsite emergency response 5
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plans for nuclear power facilities.
The planning standards are addressed by specific evaluation criteria in NUREG-0654; FEMA-REP-1, Rev. 1.
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ensure that adequate plans exist and are maintained, the NRC reviews and evaluates the licensee's onsite emergency plans against the regulatory requirements of 10 CFR 50.47 and 10 CFR Part 50, Appendix E; and the 4
guidance 0,riteria in NUREG-0654/ FEMA-REP-1, Rev. 1.
In a parallel manner, the Federal Emergency management Agency (FEMA) reviews t.d evaluates the l
state and local offsite plans against the crite.ia in NUREG-0654 and provides the NRC with its finding and determinations.
Both agencies I
continue to review and evaluate changes to the respective plans and the results of drills and exercises, and ensure that necessary corrections are made based on those evaluations.
One of the major items that the Commission addressed in the develop-ment of the final rule was that no single accident scenario should form the basis for emergency planning.
The Commission noted that, instead, emergency planning should consider a wide spectrum of potential accidents.
Thus, while the NRC's requirements are intended to cover radiological accidents at the licensee's facility, the emergency plans developed to
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meet the requirements of the NRC's regulations can and have been used to respond to both radiological and non-radiological types of actual events.
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The general flexibility of these emergency plans has been demonstrated by response to a wide spectrum of simulated accident conditions during emargency exercises, and by the actual response by licensees and offsite i
authorities to actual and potential events.
The emergency planning and preparedness framework, which is set forth in the emergency plans reflects the integration of a number of' key elements including: preestablished division of responsibilities and authorities; 6
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preestablished management contrals; provisions for timely and informed decisionmaking; coordination of response organizations; adequate primary and backup communications systems; adequate assessment capabilities; adequate notification capabilities; written procedures to guide emergency response personnel; and training for emergency response personnel.
These key elements are basic and essential to the response to any type of an emergency (i.e., radiological, non-radiological, onsite, offsite).
Emer-gency planning and preparedness also results in a heightened awareness by emergency workers to the complex nature of emergency rasponse.
It. fosters expertise within emergency organizations due to their increased under-standing not only of individual response tasks, but also of how the separate tasks combine to form diverse response capabilities.
- Further, the emergency planning and preparedness process is a dynamic process incorporating improvements based on experience gained through plan implementation and as a result of exercises, drills and actual events.
A measure of the flexibility of emergency plans is the range of diverse emergency conditions which are used to exercise the provisions of the plan and the capability of the response personnel and equipment.
An integral part of the emergency planning and preparedness process is the use of exercises and drills to test equipment and procedures and to give emergency workers an opportunity to demonstrate their individual skills and to develop the team work necessary to respond to a wide variety of potential accident conditions.
Since.$ugust 1980, more than 200 emer-gency exercises have been conducted in the U.S. related to nuclear power plants. 'A review of 135 of the more recent exercises shows that 36 i
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exercises had natural disasters as events which either started the exercise; contributed directly to simulated damage to plant safety 7
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systems / equipment; or cor.tributed directly to other events which com-plicated the simulated degradation of the plant.
These natural disasters included:
earthquakes (10); tornados (5); lightning strikes (6 with one offsite fire); bomb threats (4, one with two simulated explosions); and plane crashes (5).
In the other 12 exercises, ammonia spills, ice storms, thunderstorms, truck crashes, hurricanes, high winds, hail, and fires were used as events which complicated the exercise scenario. While the NRC has issued no specific guidance to licensees or applicants on the use of these and other non mechanistic events in exercises or drills, the staff, nonetheless, encourages such innovative exercises to fulfill the regula-tory requirements that full scale exercises test as much of the licensee, State, and local emergency plans as is reasonably achievable without mandatory public participation.
A further measure of the flexibility of existing emergency plans is demonstrated by the ability of emergency response organizations to use these emergency plans to accommodate a wide spectrum of events, including events not specifically within the planning basis.
The Commission's regulations require, in part, that licensees develop emergency classifica-
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tion schemes, with associated initiating conditions, to enable operators to quickly and accurately assess the potential severity of, and the appro-priate response to, a given emergency.
These emergency classification schemes include consideration of natural phenomena (e.g., earthquakes, floods, tornados, and hurricanes) and other hazards (e.g., aircraft crashes, train derailments, explosions, and toxic fumes).
The Commission's regula-
'tionsalsorequirethatlicenseesnotifytheNRCwhentheemerhencyplan is activated.
Actual events have occurred which h cse caused t.he activa-tion of emergency response plans around U.S. nuclear power plant sites.
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Between August 1982 and March 1985, the NRC's Incident Response Center recorded 29 notifications by licensees of activation of their emergency f
plans due to natural events including: seismic events (2), tornadoes (5),
hot weather (1), cold weather (3), hurricanes (2), lightening strikes (4),
offsite fires (2), flooding (2), high winds (1), and severe storms (2).
In most cases, the licensee's decision to activate its emerg'ency plans i
due to these natural events was based on the potential for, and not 1
actual damage at the site.
However, there were cases where the natural events did result in minor onsite impacts such as loss of offsite power for short periods of time, temporary loss of commercial telephone systems and loss of public alert siren systems.
In addition to natural events, mechanical problems at nuclear power plants have resulted in almost 600
' activations of the licensee's emergency plans.
Most of these activations were due to situations which resulted in emergency classifications of a l
" Notification of Unusual Event," the lowest emergency classification.
Additionally, 20, non-nuclear actual evacuations have been indi-vidually reviewed.
This review focused on the number of persons being evacuated, the amount of time that the evacuation took, the number of i
injuries resulting from the evacuation, the cause of the evacuation and the common emergency planning' elements that existed which enabled the evacuation to be conducted successfully (see Enclosure 2). This analysis clearly showed that the most important elements common to all of the I
evacuations (even those conducted without emergency plans) were good communications and good emergency organizations. With these two elements in place, many persons were effectively evacuated for a wide spectrum of natural and man made hazards.
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In light of the overall adequacy determinations on the emergency plans with respect to regulatory requirements and guidance, the results of exercises and drills, and the response to actual or potential adverse conditions, the Commission concludes that there does exist an adequate record to demonstrate that an emergency planning and preparedness frame-work exists around nuclear power plants that reflects inherent flexibility for responding to a sufficiently wide range of plant and offsite conditions.
Issue 2.
The proposed rule violates the NRC's emergency planning principle of planning for accidents ranging from design basis accidents to core-melt accidents, with the capacity to reduce the consequences of even the most severe accidents.
Commission Response:
In the joint FEMA /NRC document entitled " Criteria for Preparation i
and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants (NUREG-0654, FEMA-REP-1, Rev. 1), the Commission's philosophy of assuring both a broad and flexible prepared-
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ness in response to a wide spectrum of events is articulated.
In this Commission document it is stated at pp. 6, 7:
"No single specific accident 3
i sequence should be isolated as the one for which to plan because each accident could have different consequences, both in nature and degree.
i Further, the range of possible selection for a planning basis is very large, starting with a zero point of requiring no planning at all because l
l significant offsite radiological accident consequence: are unlikely to occur, to planning for the worst possible accident, regard'less of its extremely low likelihood. The NRC/ EPA Task Force did not attempt to i
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define a single accident sequence or even a limited number of sequences.
Rather, it identified the bounds of the parameters for which planning is recommended...." The Commission finds that the promulgated amendment is totally consistent with the emergency planning principles and philosophy outlined in NUREG-0654, FEMA-REP-1, Rev. 1).
Issue 3.
Emergency planning must include the complicating effects of earthquakes up to and beyond SSE levels.
Commission Response:
The magnitude of the SSE and the adequacy of a plant's design to meet the SSE are reviewed by NRC and may be challenged in adjudicatory pro-ceedings, but, once settled, should not be reconsidered in reviewing or adjudicating emergency planning issues.
Consistent with the Commission's regulations, if a larger earthquake were considered appropriate to provide reasonable assurance that a nuclear power plant can be constructed and operated at a given site without undue risk to the health and safety of the public, a larger SSE would be estabitshed.
Nevertheless, the basis for emergency planning is not constrained by the design basis for a plant and emergency planning efforts recognize the possibility that events considered beyond the design basis can occur.
This rule change is designed to further assure that the complicating effects of low probability natural events including earthquakes above the SSE, are adequately addressed in emergency planning.
Issue 4.
The Commission's fundamental obligation is to determine whether " adequate protective measures can and will be taken in the event f
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of a radiological emergency." 10 CFR $ 50.47(a).
If circumstances pre-vent the NRC trom finding that emergency plans can provide that assurance, it must deny the license.
Commission Response:
The Commission agrees that if the NRC cannot make the finding that
...there is reasonable assurance that adequate protective measures can and will be taken in the event of a radiological emergency" to mitigate the consequences of an accident,'the operating license must be denied.
It is the objective of the NRC emergency preparedness regulations 'to reduce the risk to the public health and safety by planning in advance l
how to respond to nuclear power plant accidents.
The NRC would not license a plant if the radiological risk posed by possible accidents were not very small - even in the absence of emergency preparedness.
Nevertheless, the NRC has chosen to require emergency pre-paredness as anothJr level of " defense-in-depth," the principle that a variety of independent and diverse level of protection should be afforded the public from the hazard of radiation axposure. The NRC believes that
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reasonable efforts to anticipate and plan for public protective actions in the vicinity of a comercial nuclear plant can substantially reduce, though not eliminate, the already small offsite radiological risk, and is, therefore, a prudent requirement.
Issue 5.
Inasmuch as seismic PRA analysis has indicated that earth-quakes are among dominant causes of core melt accidents, it is irrational toignoretheeffectsthatthesesameearthquakescanhaveonleergency response.
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Commission Response:
Past seismic PRA analyses have indicated that very large earthquakes (2 to 4 times SSE) may be among the important or dominant contributors to the probability of core-melt accidents or public risk.
However, these PRA studies (including the NRC sponsored Seismic Safety Margins Research Program (SSMRP) which calculated the seismic risk at the Zion Nuclear Power Plant) found that the risk of a core-melt accident is caused only by very improbable earthquakes with ground motions (in terms of peak ground acceleration) several times the already severe design basis ground motions.
In addition, the failure levels used in seismic PRA studies for structures, components and equipment are based, in general, on very con-servative assumptions.
For example, many equipment failure levels were 3
based on qualification tests and do not reflect the true capacity to sustain vibratory motion beyond the design levels.
It would be expected that wheri more realistic failure levels are used the significance of the earthquake threat will diminish. NRC efforts are currently undenway to better define the needed failure data to provide more realistic inputs to seismic PRA studies.
It should be noted that most of the current seismic PRAs, with their generally conserva*.ive bias, have not shown unacceptably high core-melt probabilities.' For e nsple, the PRA for the Zion plant shows a core melt frequency of 5.6 x 10.s per year due to the seismic hazard compared to a core melt frequency of about 4 x 10.s per year due to all internally initiated accidents.
Issue 12 discusses this matter in further detail.
l With these studies in mind, the Commission never intended to give l
the perception that it was " ignoring" the complicating effects of earth-quakes on emergency response.
The final rule is to clarify and articulate r
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the Commission's original premise that emergency plans have inherent flexibility to assure that there exists reasonable assurance that appro-priate protective actions can and will be taken to mitigate the consequences I
of a radiological accident.
Issue 6.
Defects in seismic design and quality assura.nce in construc-tion nave consistently undermined the seismic strength of plant systems i
and structures.
It is thus irrational for the NRC to write off earthquakes as an emergency planning issue at the same time it is exhibiting growing concern regarding the effects of earthquakes on nuclear power plan't site.
Commission Response The assertion that there is a growing concern within the NRC about t5e ability of nuclear power plants to withstand the effects of large earthquakes-is incorrect.
As a result of indications that earthquakes used for the design basis of eastern U.S. nuclear power plants may be understated, the NRC has underway an effort to define the seismic margins in operating plants. Preliminary results, based on evaluation of about 12 published and unpublished PRAs (including the NRC sponsored Seismic Safety Margins Research Program), demonstrate that eastern U.S.
plants, in general, can sustain earthquake levels up to at least 0.3g peak ground acceleration compared to design basis earthquakes (SSE) ranging from 0.10 to 0.25g peak ground acceleration.
These relatively l
high margins reflect an ability to accommodate moderate design and i
construction errcrs.
In addition, the NRC is sponsoring research to determine the capacity of concrete shear wall structures to sustain i
earthquake loads beyond their design basis.
Results to date indicate 14 i
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that shear walls generally can sustain at least three to four times the design level earthquake (SSE). The NRC has also recently completed a research program showing that the probability of an earthquake causing a cglete rupture of the primary coolant piping of pressurized water reactors (PWR) is extremely small (about 10.s per reactor year).
The results of this research have led the Commission to issue for public comment a proposed change to 10 CFR 50 Appendix A, General Design Criterion 4 that will permit the removal of pipe whip restraints for the primary coolant' piping in PWRs.
Recent work by the Seismic Qualification Utility Group (SQUG), based on actual behavior of industrial facilities and their equipment in large earthquakes, leads to the conclusion that more margin against earthquakes larger than the SSE exists than was previously thought.
Earthquakes simultaneously affect all plant safety systems and do tend to " search out" design, construction and maintenance errors which could degrade plant safety.
However, since the PRhs and margins analyses performed to date indicate that nuclear power plants era capable of sustaining earthquakes much larger than their desig'i basis, only gross design and construction errors are of concern.
It is reasonable to assume that gross design and construction errors would be detected and rectified as a result of normal inspections, preoperational tests and normal operational transients.
For example, in our research on the probability of a pipe ruptures in primary coolant loops, sensitivity studies have shown that only very unlikely design and construction errors of implausible magnitude may substantially change the seismic risk.
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Issue 7.
The use of unreliable seismic design bases is flawed and therefore its use as a basis for rulemaking is inappropriate.
Commission Response:
The safe shutdown earthquake, or SSE, for a nuclear plant is based upon an evaluation of the maximum earthquake potential for the specific site. The SSE is that earthquake which produces the maximum vibratory ground motion for which certain structures, systems, and components must be designed and constructed to remain functional.
All structures, sys-tems and components necessary to achieve a safe shutdown are seismically qualified for the SSE and are expected, with high confidence, to function to bring the plant to a safe shutdown.
While uncert.ainties do exist in estimating the behavior of structures, systems and components subjected to seismic effects, these uncertainties are explicitly treated in the design process through the use of con-r servatism.
In addition, as was pointed out in the response to Issue 6, NRC research on seismic design margins has shown, based on published and
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unpublished PRAs, as well as other NRC research mentioned above, that nuclear plants in the eastern U.S. are, in general, capable of with-standing earthquakes much larger than their design basis.
These conclu-l sions are based on a very conservative approach that assigns failure levels for, components, equipment and structures based on a high confidence of low probability of failure.
This conservatism accounts for the uncertainties in response behavior and ability to perform the required l
safety function.
Nonetheless, the final rule focuses on consideration of I
severe, low frequency natural phenomena and is not limited by the design bases for such phenomena.
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Issue 8.
Even if a reactor is designed to withstand earthquakes i
of a certain magnitude, an earthquake can indirectly lead to an accident i
by causing operator error. Thus, operators may react to the trauma of an earthquake and the distraction of fluctuating instruments by making mistakes that lead to serious accidents.
Commission Response:
The NRC has conducted extensive research to determine if psychological
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stress induced by an emergency in a nuclear power plant have a significant adverse effect on operator decisionmaking performance. A report entitled,
" Operational Decisionmaking and Action Selection Under Psychological Stress in Nuclear Power Plants," NUREG/CR-4040, documented these findings:
(1) decisionmaking performance is affected by stress such that fewer correct action selections were made in the affected condition as compared with the non-stress condition; (2) operators under stress perform better under lower F
levels of workload; (3) the interactions of conflicting information with operating procedures and level of workload suggest a complex relationship
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between stress variables and decisionmaking performance; (4) specific operator personality characteristics were found to be related to enhanced decisionmaking under stress.
'A number of measures for decreasing the effects of stress on operators were identified in order to assist operators in making correct decisions during and after a severe natural phenomena.
f Although it is considered highly unlikely that operator error caused by an earthquake could lead to a reactor accident which would threaten l
public health and safety, emergency plans are designed to deal with such i
an accident if it should occur.
This rulemaking is designed to provide
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added assurance that the potential complicating effect of the earthquake associated with an accident of this type will be properly addressed in emergency planning.
Issue 9.
Emergincy plans are unique, for example, a rural and sparsely populated area may pose fewer evacuation problems, and thus require less flexibility, than an urban and densely populated plant site.
Thus, emergency plans cannot te found to possess the same degree of
" flexibility" in every case.
Commission Response:
The complexity of the emergency plan is tailored to the needs and characteristics of the site. However, the basic principles underlying the plan, including the inherent flexibility to accommodate the spectrum of accident conditions which might exist at that site, are common to all emergency plans.
For additional discussion on flexibility of emerg.ency plans, please see the Commission response to Issue #1.
Issue 10.
Earthquakes are distinct phenomena with the following distinct features:
--Sirens and broadcasting systems could be knocked down and roads could be severely obstructed in an earthquake.
--Although sheltering may be presumed to be available in almost any other type of natural event, it could be rendered useless by an earthquake.
--An earthquake is likely to disrupt the distribution of water, t
natural gas, and gasoline, thus causing fires and impeding the efforts of firefighters.
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--An earthquake is likely to impair or destroy the ability to monitor potential radiation releases and meteorological conditions.
--An earthquake can damage transportation routes by collapse of bridges and overpasses, liquefaction of roads, and landslides.
--An earthquake can cause the collapse of structures (including those housing personnel directing the emergency planning effort, relocation and decontamination facilities, and local agency services) or render sheltering useless due to damage.
--An earthquake is likely to cause a loss of offsite power, w.ith its attendant effect on communications, as well as to potentially render uselass other (backup) methods of communication such as radio transmissions.
--An earthquake is likely to cause physical and fright-induced (e.g., heart attack) injuries, thereby overloading medical facilities and ambul'ance and rescue services.
Commission Respanse:
The Commission disagrees with the assertion that the effects of earthquakes are significantly different than the effects of other severe low frequency natural phenomena.
All of the consequences listed above could also result from other severe, low frequency natural phenomena such as tornadoes, hurricanes, floods, etc. which are already addressed in emergency plans.
All of these natural phenomena are similar in that (1) they occur without very much warning (2) they potentially deva, state larger areas and (3) they are relatively of short duration.
The principal difference between earthquakes and the other low frequency natural phenomena is that the other phenomena tend to be easier to predict and there may be slightly more advance warning for these pher.omena.
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Issue 11.
FEM's emergency plans do not adequately provide for earthquake response in a radiological emergency.
Commission Response:
The Commission disagrees.
FEM conducts two planning programs, the Radiological Emergency Preparedness (REP) program and the Earthquake Hazard Reduction program that, when completed, tested and exercised for the areas around nuclear power plants, will provide the basis for adequate Federal, State and local governmental response to protect the public in the very unlikely event of a coincident major earthquake and radiological emergency.
The objective of FEM's Radiological Emergency Preparedness (REP) program is to assure that an integrated capability exists for State and local governments, together with utilities, to implement protective measures to protect public health and safety in the event of an emer-gency.
FEM coordinates the activities of 10 Federal agencies in reviewing and evaluating State and local government planning and preparedness around nuclear power plants through its 10 Regional Assistance Committees (RAC's).
These evaluations are effected through assessment of emergency plans', and observation and evaluations of exercises designed to test the capabilities of government entities.
Also, FEM has developed and published the Federal Radiological Emergency Response Plan (49 FR 34896) for radiological emergencies including commercial nuclear power plant accidents on September 12, 1984.
FEMA has an active program of earthquake hazard reduction that coordinates Federal preparedness and mitigation activities and provides technical and financial assistance to States and local communities in all 20
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segments of emergency management.
This includes hazard awareness, assessment, preparedness, mitigation, response, and recovery.
The i
Federal response planning provides for the supplemental help and recovery to State and local governments required to save lives and provide for basic human needs after a major earthquake. FEMA expects to publish the National Plan for Federal Response to a catastrophic earthquake in December 1985.
Drafts of the plan serve as an interim operating guide for Federal agencies to use in the event of an earthquake prior to comple-tion of the follow-on regional planning.
FEMA technical and financial assistance to State and local earth-quake hazard reduction programs focus upon preparedness and response planning, and provides for implementation and training exercises.
The planning includes such activities as:
hazards identification, vulnerabil-ity analysis, casualty and property loss estimates, and potential impacts resulting' from damage to critical and special facilities (such as nuclear power plants) and lifelines.
FEMA estimates that sufficient earthquake response planning (annexas to State and local emergency operation plans) will be in place for the thirteen high-risk, high population areas currently being studied by the year 1996.
Both the earthquake and radiological preparedness programs are carried out in a manner that addresses the integration of common func-tions such as communication, alert and notification, protective actions and decisionmaking, while recognizing unique management requirements such as radiological measurements. The ultimate goal in both program efforts is to facilitate the development of management and operational capabil-ities to analyze the need for protective action, make protective action 21
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decisions and implement appropriate operations.
They are complimentary I
in that the capabilities developed under the radiological program provide i
the means for coping with the various hazards that might present themselves during a major earthquake.
Issue 12.
The Commission should evaluate the contribution of seismic events to overall core melt frequencies.
Commission Response:
An examination of recent 1robabilistic risk analyses indicates that seismic events have often been estimated to be one of the principal con-tributors to overall plant risk.
Further, these estimates indicate that the significant seismic contributors to core damage or risk have been from earthquakes considerably larger than the safe shutdown earthquake I
(SSE).
Earthquakes which have accelerations less than the safe shutdown earthquake have not been found to be significant contributors to overall
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plant risk.
The susceptibility of a component or subsystem to seismic damage is measured in terms of its fragility.
The weakest portion of a nuclear plant which influences seismic risk is the ceramic insulators in the switchyard.
It has been estimated (NUREG/CR-2405) that there is a j.
50 percent, likelihood that they would fail at an acceleration of 0.2 g, leading to a loss of offsite po*,er.
However, loss of offsite power alone will not lead to a severe a.cident.
Cooling water can be provided to the core using steam-turbine-driven pumps or by electrical pumps powered by l
onsite emergency diesel generators. An examination of the fragilities of the components of these emergency systems indicates that their failure 22 Erm osure 1
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likelihood at earthquakes less than the SSE will be governed by random system failures, rather than seismically induced scenarios.
Thus, the accident would progress in a manner similar to a transient associated with a loss of offsite power.
Since the likelihood of a loss of offsite power at a U.S. plant from all causes is considerably higher then that associated with seismic events less than or equal to the SSE, the 4
contribution of below-SSE earthquakes to overall plant risk is minimal.
In contrast, as seismic intensity increases beyond the SSE, the estimated seismic contribution to risk increases.
Large earthquakes are almost always accompanied by a resultant loss of offsite power.
Seismically induced faults in electrical control systems become important as accelerations approach 0.7 g.
In addition, the estimated risk asso-ciatect with severe earthquakes is usually' associated with equipment failures resulting from structural collapse or interactions between structures which impose high stresses on piping systems. Absent structural interactions, most components (piping, cable trays, large pumps and compact valves) behave well even in earthquakes significantly
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above their design conditions.
However, this is not universally true and improper location of motor drives or control devices can cause component failures in large earthquakes.
The analyses of seismic risk that have been performed have generally made several potentially conservative assumptions.
In most cases, structural degradation has been assumed to disable all components within the damaged structure in order to simplify the analysis.
This assumption is clearly conservative, but current analytical techniques permit only a subjective estimate of the degree of conservatism. Thus, a comprehensive estimate of the degree of conservatism introduced must await improvements in analytical techniques.
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[7590-01]
Another area not usually considered is the ability of the operator to mitigate seismically induced risk.
Depending on the types of failures which have occurred, alternate systems may be employed by the operator to ensure core cooling is maintained, or damaged components may be repaired.
It is generally assumed that most seismic damage cannot be repaired in a short period of time.
However, some credit has been allowe'd for restora-tion of relays which have moved to an unintended state, when they are easily accessible and the misposition can be detected easily from the control room.
Seismically induced accident sequences which take a long time (several hours) to develop provide time for the operator to provide alternate water sources. One hour after plant shutdown, the decay heat
' level reduces to about 1.5 percent of full power.
Assuming a 1000 MW(e) reactor This can be adequately cooled if a little as 300 gpm of water is provided~to the core and allowed to boil.
There are many potential sources of water which might be employed for core cooling but the avail-ability depends on the availability of support systems such as AC and DC power.
Studies performed to date have not included a comprehensive evaluation of recovery actions following an accident and thus tend to be conservative.
Even in the fastest developing scenarios which have been found risk significant in previous PRAs, core melt does not occur simultaneously with the earthquake.
Because of the normal heat capacity of material within the reactor vessel and the need to boil whatever water is initially present in the reactor vessel, and considering the additional heat sink available in the steam generators (PWR) or the suppression pool-(BWR), at least 30 minutes will elapse between the initial shock and the release of 24 Er, closure 1
0
[7590-01]
fission products.
In most cases, several hours will be available before large releases occur.
Because of the low demand for cooling water flow which the plant requires after shutdown, seismic aftershocks may be less significant than the original shock even if further damage results.
Because of the low heat generation rates involved, a temporary interruption of coolant addi-tion can occur without core damage. However, a detailed examination of the effects of after shocks has not been performed, and a conclusive evaluation of their significance cannot be provided at present.
Issue 13. What is the probability that other natural events (e.g.,
hurricanes, tornadoes, heavy snow)'which are now considered in emergency planning would initiate or occur proximate to an accident resulting in a radionuclide release from a nuclear power plant? How does this compare i
with earthquakes?
Commission Response:
Only a few probabilistic risk analyses have considered high winds l,
(tornadoes or hurricanes) in the overall risk analysis and the current i
ability to conduct such analyses is modest.
Thus, the results are highly uncertain. The likelihood of severe core damage from high wind speed I
initiators has been estimated between 4 x 10 s/ year to 1 x 10 s/ year in the studies which have occurred.
Obviously, the occurrence of high winds is highly location dependent. Thus this range, which represents the i
variation in reported results, is not typical of the range expected at 1
any specific site. We are unaware of any study that specifically i
includes the effects of heavy snowfall. This would normally be treated as one of the causes of a loss of offsite power and not treated separately.
25 i
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[7590-01]
External flooding events have been examined in a few PRAs with a resultant estimate of flood-induced severe core damage frequency in the range between 10.s and 10 s per year. Again, these results are highly uncertain because of the modest state of development of the methodology and are highly site specific.
The results of recent PRAs indicate that the estimated contribution of seismic events to plant risk is of the same order as that from flooding and high winds at certain sites. This is highly site specific, however, and is not applicable at all sites.
In areas where the frequency of high winds or flooding is relatively low, the seismic risk contribution will dominate.
==
Conclusion:==
Having considered all of the above, as well as all comments received, past operating reactor and emergency preparedness experiences, and the ACRS comments, the Commission has determined that a final rule be promulgated that would:
1.
Clarify and articulate the Commission's original premise that emergency plans have inherent flexibility to assure that there exists
... reasonable assurance that appropriate protective actions can and will be taken..." to mitigate (not eliminate) the consequences of a radiological accident.
2.
Require the ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cppe with degraded modes of plant operation.
Re ct us t2.c L
- 3. A Ability by the licensee to assess damage to the plant and to translate this information into realistic projections of the expected or 26
[7590-01]
actual radiation hazard offsite, and be able to communicate this informa-i tion to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recommendations for protective actions after severe, low-frequency, natural phenomena.
4.
Require that offsite emergency plans should include considera-tion of alternative actions which could be taken if there were damage to the plant environs.
This shall be limited to knowing alternate routes of travel as well as establishing criteria for determining whether to shelter, relocate or to evacuate.
In reaching this decision the Commission has weighed the following issues raised by commentors:
o Limited or no data exists concerning the flexibility of emer-gency plans to support the proposed rule; therefore, the Commission cannot make a generic finding that effects of below-SSE earthquakes on emergency planning are always resolved by the general flexibility of emergency plans (see Issue 1,
'~ ),
Current emergency plans take into consideration plant accidents o
whose probability are in the range of 10E(4) to 10E(-5). These plans should consider the complicating effects of severe, natural phenomena (2 to 4 times the SSE) whose retarn frequency is in the same range (see issue 3, Enclosure 1),
27
[7590-01]
o Defects in seismic design and quality assurance in construction can undormine the seismic strength of plant systems and struc-tures (see Issue 6 in Enclosure 1), and e
o There is limited existing information on the contribution of seismic events to overall core melt frequency (see Issues 5 and 12, Enclosure 1) in that only a few PRAs assess seismic risks and the treatment entails many uncertainties.
Additionally the Emergency Action Level scheme addressed in NUREG-0654 specifies that an emergency be declared in the event that a " Natural phenomenon is being experienced..." at the plant.
As the intensity of the natural phenomenon increases so does the classification of the emer-J gency.
A few of the required licensee actions for the Site Area and General Emergencies when the plant experiences a natural phenomenon beyond the design basis would be to " augment resources by activating the on-site Technical Support Center, on-site operational support center and the near-site Emergency Operations Facility"; and to " Dedicate an indi-vidual for plant status updates to offsite authorities..."; and to
" Provide meteorological and dose estimates to offsite authorities...".
I These required licensee actions, taken in conjunction with responsibil-ities of the State and local governmental authorities during an emergency leads the staff to conclude that the elements in the proposed final regulation is logical and warranted.
i On the other hand, the Commission conducted a review of, emergency i
exercises at nuclear power plants and licensee response to potential accidents as well as an analysis of 20 actual non-nuclear evacuations 1
i 28
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[7590-01]
(see Issue 1, Enclosure 1 and Enclosure ?).
This review demonstrated that emergency plans do have sufficient flexibility to assure that protective actions can and will be taken to mitigate the consequences of a wide spectrum and combination of accidents. This information provides sub-stantial support for the position that no additional emergency prepared-ness measures need be established to account for severe natural phenomena.
l In addition, the Federal Emergency Management Agency (FEMA), which is responsible for reviewing and assuring effective offsite emergent.y preparedness and response, has several programs in place or underway to i
assure that an integrated capability exists for protecting the public J-health and safety in the event of an emergency. These programs (see Issue 11) include: The Radiological Emergency Preparedness (REP) program and the Earthquake Hazard Reduction program. When completed, the Earth-quake Hazard Radiation Program will provide the basis for adequate Federal, State and local government response to protect the public in the very unlikely even to a coincident major earthquake and radiological emergency.
The Radiological Emergency Preparedness program presently assures an integrated capability exists for State and local governments, together with utilities, to implement protective measures in the event of an emergency. Moreover, both programs are carried out in a manner that the integration of common functions such as communication, alert and notification, protective actions and decisionmaking is addressed, while recognizing unique management requirements such as radiological measurements.
I Considering all of the above, it can be argued that the inherent flexibility in emergency plans outweighs the uncertainties concerning the expected frequency of occurrence of severe reactor accidents resulting 29
'[7590-01]
from or occurring proximate to severe low frequency natural phenomena t
(e.g., earthquakes, tornadoes) which have the potential for complicating the emergency response to these accidents.
However, on balance, after evaluating the EAL logic along with the potential magnitude of the uncertainties identified the Commission has decided to take a more con-servative approach and amend its regulations to explicitly require some limited consideration of the complicating effects of severe, low frequency natural phenomena on emergency planning.
This will provide added assurance.
that adequate protective actions can and will be taken in the event of a radiological emergency complicated by the effects of such natural ' phenomena.
The staff recommendation that only limited consideration be given should be based on 3 things:
(1) inherent flexibility and demonstrated effectiveness of offsite plans and. preparations (local, State FEMA, etc.) to handle severe low frequency natural phenomena.
(2) residual risk from such phenomena complicating a nuclear emer-
~ ~
gency are samil (use figures from Limerich as an example).
(3) devastation from the phenomena itself and other associated com-plications (e.g... release of chemicals, fires, rupturing of dam) will likely far exceed the incremental impact of the complicating effect of the natural phenomena on a nuclear emergency.
la spite of this the staff felt it necessary to specifically assure that prtvisions were in place to:
(1) get needed staff to the plant to bring the plant to to a safe j
shutdown so as not to increase the risk of a radiological accident resulting from the natural phenomena, l
30
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[7590-01]
(2) be able to provide needed information concerning the status of the plant to offsite authorities so that these authorities would be able to take the status of the plant into account in formulating and carrying out emergency measures following the natural phenomena; and (3) that offsite plans should include consideration of alternative actions which could be taken if there were damage to the plant environs.
This final rule would specifically not require:
1.
Evacuation time estimates that consider the complicating affects of severe, low frequency natural phenomena.
This is not being recommended because a natural phenomena beyond the design basis would cause such unpredictable disruption and devastation that the time estimates may be misleading.
2.
That roads, bridges, buildings and other structures be reinforced to withstand the effects of severe, low frequency natural phenomena.
3.
A detailed, extensive study considering the complicating effects of earthquakes or other natural phenomena on offiste emergency response capabilities. The staff specifically considers that the " TERA" study completed for Diablo Canyon is well beyond the scope and intent of this rulemaking.
Likewise, the Commission's intentions relative to each capability is as follows:
31
[7590-01]
Item 1.
" Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with degraded modes of plant operation including emergencies."
This item means that a licensee's emergency plan must contain adequate consideration of the necessity of having at the plant or getting to the plant, adequate personnel to cope with the plant operations under adverse conditions. Thus, the plans must consider alternate methods for
[
getting selected personnel to the plant if a severe, low frequency natural phenomenon, occurs and disrupts the normal transportation routes to the site.
The licensee's onshift operating crew is adequate to safely operate the plant and to initially respond to emergencies. However, operating crews and other plant personnel must be relieved after a reasonable time.
Thus, this item requires the licensee to perform adequate planning
-(transportation arrangements) to ensure that they can get relief personnel and other necessary personnel to the plant in 12 to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after the start of the phenomenon.
For those phenomena which are amenable to prediction (i.e., hurricanes, severe ice and snow storms, and floods)
' ~
the licensee should consider contingency measures such as maintaining more than one operating shift on station.
This item does not mean that the staffing goals of Table 8-1 of NUREG-0654 must be met in the event of an emergency at the plant and the simultaneous occurrence of unpredicted severe, low frequency natural phenomena which impede normal transportation routes.
Item 2.
Ability by the licensee to assess damage to the' plant and to translate this information into realistic projections of the expected i
1 32
~~
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[7590-01]
a or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be available as a factor in the decisionmaking process, including recom-mandations for protective actions after severe, low-frequency, natural phenomena.
This item relates to the information available for transmission by the licensee (i.e., estimates of onsite damage) to the offsite authorities and the inclusion of such information by the licensee into the decisionmaking process for (1) developing recommendations to offsite authorities of protective actions, and (2) determining appropriate
. actions by the licensee to respond to the event and its impacts on plant o9erations, if any.
The existing regulations require that the licensee's emergency plans contain provisions for the gathering of information concerning damage sustained by the plant as a result of any accident, including the occur-rence of severe, low frequency natural phenomena. This information would be used by the licensee in its decisionmaking process regarding plant,
operations and protective action recommendations for the public. The implementation of this item recognizes the existence of the current diverse communications means (i.e., radios, direct link dedicated telephones, microwave telephone links and standard commercial telephone links) already in a place at nuclear power plants to communicate that information offsite. These systems are expected to be adequate to fulfill the provisions of this requirement.
This item does not mean that equipment used to transmit information within the plant or from the plant to offsite authorities must meet any special seismic or environmental qualifications above those for which the 4
33 c
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[7590-01]
equipment is presently designed.
However, the licensee should assure that adequate communications are available to local offsite authorities (e.g., mobile radios) to ensure that the means are available to transmit information between the license and local offsite authorities and to discuss public protective actions, after a severe low frequency natural phenomenon.
Item 3.
"Offsite emergency plans should include consideration of alternative actions which could be taken if there were damage to t,he plant environs.
This shall be limited to knowing alternative routes of travel as well as establishing criteria for determining whether to shelter, relocate or to evacuate.".
This item means that State and local offsite emergency response plans must contain adequate provision to assure that information regarding the damage sustained to the areas surrounding a plant, and the adverse impact of that damage to offsite responses to a radiological emergency at the plant, ar6 (1) transmitted by the offsite authorities to the licensee and
~~
(2) appropriately considered by the licensee and offsite authorities in their decisionmaking.
Guidance for offsite authorities on the use of alternate evacuation routes and the balancing of public protettive actions (i.e., evacuation, sheltering, relocation) should be included in the offsite, plans.
Because FEMA is directly involved in the evaluation of offsite emer-gency preparedness exercises and is affected by the promulgation of these amendments, the NRC consulted extensively with FEMA during the development of this rule and as a result FEMA has concurred in the rule change.
34
.-a
[7590-011 FINDING OF NO SIGNIFICANT ENVIRONMENT IMPACT I
The Commission has determined under the National Environmental Policy Act of 1969, as amended, and the Commission's regulations in Subpart A of 10 CFR Part 51, that this rule, is not a major Federal action significantly affecting the quality of the human environment and therefore an environ-mental impact statement is not required.
See 10 CFR 50.22(a)(1). More-I over, the Commission has determined, pursuant to 10 CFR 51.32, that the final rule has no significantly environmental impact. This determination has been made because the Commission cannot identify any impact on the human environment associated with limited consideration of the complicating effects of severe, low frequencies natural phenomena on emergency preparedness.
The alternative approaches that were considered in this rulemaking proceedings were:
1.
Not to consider the complicating effects of earthquakes on emergency plans or evacuation time estimates.
2.
Not to require additional emergency preparedness measures to cope with the complicating effects of earthquakes.
3.
Leave the complicating effects of earthquakes on emergency planning open to consideration on a case-by-case basis.
4.
Requiring that State Earthquake Preparedness take into account all nuclear power plants within their boundaries.
5.
Promulgate a rule change which would require the full assess-f ment of the complicating effects of severe, low frequency natural f
phenomena on emergency planning.
l 35 r
l
=:.
[7590-01]
PAPERWORK REDUCTION ACT STATEMENT The final rule contains no information collection requirements and therefore is not subject to the requirements of the Paperwork Reduction Act of 1980 (44 U.S.C. 3501 et seq.).
REGULATORY ANALYSIS The Commission has prepared a regulatory analysis of this regulation.
The analysis examines the costs and benefits of the rule as considered by the Commission. A copy of th'e regulatory analysis is'available for inspec-tion and copying, for a fee, at the NRC Public Document Room, 1717 H Street' NW., Washington, DC.
Single copies of the analysis may be obtained from 4
Michael T. Jangochian, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, Washington, DC 20555, Telephone (301)443-7615.
REGULATORY FLEXIBILITY CERTIFICATION In accordance with the Regulatory Flexibility Act of 1980, 5 U.S.C.
S 605(b), the Commission hereby certifies that this final rule will not,
(
if promulgated, have a significant economic impact on a substantial number of small entities'. The final rule clarifies certain elements and findings necessary for the issuance of an operating license for a nuclear power plant licensed' pursuant to Section 103 and 104b of the Atomic Energy Act of 1954, as amended, 42 U.S.C. 2133, 2134b. The electric utility companies which own and operate nuclear power plants are dominant in their service l
areas and do not fall within the definition of a small busn.ess found in i
36 l
lL
[7590-01]
^
Section 3 of the Small Business Act, 15 U.S.C. 632, or within the Small Business Size Standards' set forth in 13 CFR Part 121. Accordingly, there is no significant economic impact on a substantial number of small entities under the Regulatory Flexibility Act of 1980.
LIST OF SUBJECTS IN 10 CFR PART 50 Part 50 - Antitrust, Classified information, Fire prevention, Incorporation by reference, Intergovernmental relations, Nuclear power plants and reactors, Penalty, Radiation protection, Reactor siting criteria, Reporting and recordkeeping requirements.
Pursuant to the Atomic Energy'Act of 1954, as amend (d, the Energy Reorganization Act of 1974, as amended, and Section 552 and 553 of Title 5 of the United States Code, notice is hereby given that the following' amendments to Title 10, Chapter I, Code of Federal Regulations, Part 50 is published as a document subject to cedi?ication.
PART 50 - DOMESTIC LICENSING OF PRODUCTION AND UTILIZATION FACILITIES 4
1.
The authority citation for Part 50 continues to read as follows:
AUTHORITY:
Sections 103, 104, 161, 182, 183, 186, 189, 68 Stat. 936, 937, 948, 953, 954, 955, 956, as amended, sec. 234, 83 Stat. 1244, as amended (42 U.S.C. 2133, 2134, 2201, 2232, 2233, 2236, 2239, 2282); secs. 201, 202, 206, 88 Stat. 1242, 1244, 1246, as amended (42 U.S.C. 5841, 5842, 5846), unless otherwise noted.
)
37
,_,,,e.
-._....y,--
e.,
c
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[7590-01]
Section 50.7 also issued under Pub. L 95-601, sec. 10, 92 Stat. 2951 (42 U.S.C. 5851).
Sections 50.57(d), 50.58, 50.91, and 50.92 also issued under Pub. L.97-415, 96 Stat. 2071, 2073 (42 U.S.C. 2133, 2239).
Section 50.78 also issued under sec. 122, 68 Stat. 939 (42 U.S.C. 2152).
Sections 50.80-50.81 also issued under sec. 184, 68 Stat. 954, as amended (42 U.S.C. 2234).
Sections 50.100-50.102 also issued under sec. 186, 68 Stat. 955 (42 U.S.C. 2236).
For the purposes of Sec. 223, 68 Stat. 958, as amended (42 U.S.C.
2273), 55 50.10(a), (b), and (c), 50.44, 50.46, 50.48, and 50.80(a) are issued under 161b, 68 Stat. 948, as amended (42 U.S.C. 2201(b));
$$ 50.10(b) and (c) and 50.54 are issued under sec. 1611, 68 Stat. 949, I
as amended (42 U.S.C. 2201(1)); and $$ 50.55(e), 50.59(b), 50.70, 50.71, 50.72, 50.73, and 50.78 are issued under sec. 161o, 68 Stat. 950, as amended (42 U.S.C. 2201(o)).
In Appendix E,Section IV " Content of Emergency Plans" is revised to read as'follows:
i IV.
Content of Emergency Plans
+
The applicant's emergency plans shall contain, but not necessarily be limited to, information needed to demonstrate compliance with the elements set forth below, i.e., organization for coping with radiation emergencies, assessment action, activation of emergency organization, notification procedures, emergency facilities and equipment, training, maintaining emergency preparedness, and recovery.
In addition, the emergency response plans submitted by an applicant for a nuclear power reactor operating license shall contain information needed to demonstrate 38
a
[7590'01]
compliance with the standards described in 5 50.47(b), and they will be evaluated against those standards. The nuclear power reactor operating license applicant shall also provide an analysis of the time required to evacuate and for taking other protective actions for various sectors and distances within the plume exposure pathway EPZ for transient and permanent populations.
- The nuclear power reactor ooerating licensee and applicant emer-ceney response plans shall assure that the following capabilities exist relative to the complicating impacts of severe, low frequency natural phenomena.
In addressing the following capabilities the licensee shall assume that the desian basis event has been exceeded and that normal
, communication and road networks have been substantially disrupted.
1.
Ability to transport necessary personnel to the plant after the event in order to augment the original staff as necessary to cope with
-degraded modes of plant operation.
2.
Ability by the licensee to assess damage to the plant and to translate this information into realistic projections of the expected or actual radiation hazard offsite, and be able to communicate this information to offsite authorities, so that this information will be l
available as a factor in the decisionmaking process, includina recom-mandations for protective actions after severe, low-frequency, natural phenomena.
1 "This rule change it typed in comparative text in order to astist review.
39
[7590-01]
3.
Offsite emergency plans should include consideration of alter-native actions that could be taken if there were damage damage to the plant environs.
This shall be limited to knowing alternate routes of travel as well as establishina criteria for determining whether to shelter, relocate or to evacuate.
a a
Dated at this day of
, 1985.
For the Nuclear Regulatory Commission.
Samuel J. Chilk Secretary of the Commission 40 l
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