interim risk reduction measures
DESCRIPTION
José Hernández , P.E. Regional Geotechnical Engineer U.S. Army Corps of Engineers South Atlantic Division [email protected] Dam Safety Workshop Brasília, Brazil 20-24 May 2013. Interim Risk Reduction Measures. Risk Assessment Analytically based. Risk Management - PowerPoint PPT PresentationTRANSCRIPT
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Corps of EngineersBUILDING STRONG®
Interim Risk Reduction MeasuresJosé Hernández, P.E.Regional Geotechnical EngineerU.S. Army Corps of EngineersSouth Atlantic Division [email protected]
Dam Safety WorkshopBrasília, Brazil20-24 May 2013
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(1) IRRMs are a short-term approach to reduce Dam Safety risks while long-term solutions are being pursued.
(2) IRRMs should lower the probability of failure and associated consequences to the maximum extent reasonably.
Risk Management Policy and preference
based
Risk AssessmentAnalytically based
Risk CommunicationInteractive exchange of information, opinions,
and preferences concerning risks
TolerableRisk
Guidelines
IRRMs include and align with USACE’s Dam Safety
Risk Policy
Objective
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Risk DefinitionRisk = Load Probability x Failure Probability Given a Specific Load x
Consequences of Failure
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USACE Dam Safety Portfolio Risk Management
Process
DevelopIRRMP
Modify IRRMP (if necessary)
Modify IRRMP (if necessary)
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Screening Portfolio Risk Analysis (SPRA) FY05-09
Dams identified to have unacceptable risk, “Develop Interim Risk Reduction Measures Plan”
National queue for “Issue Evaluation Study (IES)”
Complete Dam Safety Modification Study (DSMS) (if justified based on IES)
Generalized Risk Management Process
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IRRMPRequired
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Principles
It is not appropriate to refer to balancing or trading off public safety with other project benefits.
Instead, it is after public safety tolerable risk guidelines are met that other project purposes and objectives will be considered.
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Principles
The principle of “Do No Harm” should underpin all actions intended to reduce dam safety risk.
Applying this principle will ensure that proposed IRRM implementation would not result in the dam safety being compromised at any point in time or during IRRM implementation.
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Principles
Decisions are risk-informed and not risk-based.
Risk-informed decisions integrate traditional engineering analyses and judgment.
General public safety responsibility requires USACE to assure our projects are adequately safe from catastrophic failure that results in uncontrolled release of the water in the reservoir.
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IRRMs should be tied to a documented area of concern or a potential failure mode.
IRRMs should not be a continued standard maintenance action, or following an established procedure.
IRRMs need to specifically state how a plan reduces the overall risk by decreasing loading, consequences or likelihood of failure.
A study by itself is not an IRRM, and does nothing to reduce risk. If a study is referenced in an IRRM, there needs to be information on how it is to be used to lower the risk.
IRRMs
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IRRMs
Non-Structural IRRMs are just as important as Structural IRRMs.
Local agencies and the public should be informed and have a chance to be involved or made aware of project decisions that could impact them.
Remember that the risk presented by a system can change because an IRRM is implemented, and it will not always go down.
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IRRMs
Pool restrictions must be given serious consideration and explain why (very specific reasons) they are not being implemented.
Water Control Plans (WCPs) need to support IRRMs.
National Environmental Policy Act (NEPA) should be involved early and often in the process and should be discussed as part of the IRRM.
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If the system operations change, pool restrictions are altered, or there are impacts up/downstream of the project outside of the project boundaries, the WCP may need to be revised or an Interim Operations Plan (IOP) should be developed.
IOPs can be used to supplement WCPs for guidance on system operations.
Having an IOP does not relieve the burden of updating the project’s WCP.
IRRMs and WCPs
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Overall IRRM Impacts
Consider changes to the overall project risk when developing an IRRM. Need to make sure that lowering the risk for a
specific failure mode does not increase the overall risk of the project.
Are you introducing new risk to the project by implementing a IRRM?
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What is an IRRM? IRRMs are not intended to be the process for
permanently remediating dam safety concerns. The following factors are used to determine if an IRRM is
appropriate: Timely – Can it be implemented in a timely manner? If
significant time and money is needed to investigate and design, it is not likely an IRRM.
Cost effective – Is the cost within the threshold of a major maintenance (O&M funds) project? If it exceeds the threshold, it is not likely an IRRM.
Risk – Does the measure reduce the overall risk to downstream public? IRRMs should not incur in new risk. Thus may need to do preliminary analysis as a check.
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IRRM Plan (IRRMP) Guidance Chapter 7, “Interim Risk Reduction Measures For Dam
Safety,” and Appendices M and N in USACE ER 1110-2-1156, “Safety of Dams – Policy and Procedures”
To provide guidance and procedures for developing and implementing IRRMs required for all DSAC I, II and III
Funding for preparation and implementation of the IRRMP comes out from the O&M funds for the project
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Use existing project data (studies, analysis, performance data). Use SPRA findings as a 1st cut on development of IRRM. Follow-on with Potential Failure Mode Analysis (PFMA) to capture
additional significant PFMs. Refine IRRMP based on PFMA findings and new project data. Ensure the Emergency Action Plan (EAP) is current. Engage Public Affairs Officer (PAO) for Risk Communication Plan
development. Train and test internal staff and site personnel on IRRM strategy. Functionally conduct an Emergency Exercise for an initiating
event with state and local officials.
IRRMP Basic Steps
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• Overall project description and purposes.
• Overview of identified “risk-driver” potential failure modes; attach PFMA Report.
• Summary of known consequences associated with each identified PFM to include: loss of life, economic and environmental damages .
• List structural and non-structural IRRM alternatives considered to reduce the probability of failure and/or consequences associated with the failure modes.
IRRMP Contents
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• For each considered IRRM, document general discussion of ability to reduce the likelihood of failure and associated consequences, potential impact on project purposes, environmental impacts, and economic impact to the region associated; both positive and negative.
• Final IRRM recommendations to be implemented for each PFM.
• Schedule to implement and cost to USACE (dam owner) and others (stakeholders) for each IRRM recommendation.
IRRMP Contents
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• DQC/ATR comments and comment resolutions.
• Updated EAP reflecting site-specific risks and emergency exercises for DSAC I, II, and III dams conducted in manners that are appropriate for the risk involved .
• Risk Communication Plan (both internal and external).
IRRMP Appendices
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IRRMPs
Are Living Documents. They should be revised… when conditions change new information is acquired studies are performed after completion of remediation phase
Should focus on “significant” risks when identified in a PFMA as part of a PA, IES, and DSMS.
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Potential Reasons for Rejection of IRRMPs
Inadequate consideration for pool restriction, or justification for no restriction
Automated early warning systems with automatic public notification
Pool releases based on rain forecasts Inadequate description of consequences Got Boils? Better have emergency stockpiles. “Copy and Paste” Waiting for studies . . .
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Why use PFMA with IRRM?
All dams are unique and have specific vulnerabilities.
Identify “risk-driver” potential failure modes using a trained facilitator and multi-disciplinary team.
Match the IRRM with the identified potential failure modes, geology, dam design and loading, and determination whether the dam is on a failure continuum.
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PFMA = Blueprint for IRRMP
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1. Operational changes
a. Reservoir restrictionsb. Changes in release patterns
2. Structural IRRMs
3. Non-structural IRRMs
IRRM Alternatives
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A lowered pool level typically provides a reduction in system loading, thus reducing the probability of failure.
Reservoir pool restrictions and modification of reservoir regulation plan must always be included as an option that is addressed in the IRRMP.
If a reservoir restriction has been ruled out, very specific reasons should be included as to why.
Life Safety is Paramount
1. Reservoir Restrictions
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Lower the reservoir water level and maintain at a lower level.A – pool elevation with concern for safetyB - Intermediate pool to reduce “peaks” above seasonal pool
Reservoir “Restrictions”
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Structural IRRM typically improve the system response by reducing the probability of failure.
Structural IRRM generally require a physical modification to the dam or appurtenant structures.
Some structural IRRMs can be incorporated into long-term remedial measures.
2. Structural IRRM
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Target grouting program to slow seepage. Improve seepage collection system. Construct shallow cutoff trench to slow seepage. Construct downstream dike to reduce head
differential. Isolate problem area. Construct downstream seepage/stability berm.
Structural IRRM Examples for Seepage/Stability
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Bolivar Dam
Construction of Emergency Seepage Blanket
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Toe Drainage System Installation
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Non-structural IRRMs may include any short-term actions to reduce risk without physically modifying the dam or appurtenant structures.
Non-structural IRRMs, such as increased monitoring and surveillance and stockpiling materials, help to reduce the likelihood of failure by early detection and improve the ability to intervene should an incident occur.
Another example is testing EAP for better notification and evacuation, updated EAP inundation mapping, etc. All reduce the potential loss of life.
3. Non-Structural IRRMs
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Ridge
Grout Curtain
Spillway
Ravine
Dism
al Cr
eek
DamReservoir
Sinkholes
Expanded Surveillance Area
Nolin Dam
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Reservoir A
Reservoir B
Reservoir C
Reservoir D
System Operational Changes and Cross-Training of Regional Project Staff
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Review Clearing Limits – Ability to Detect
Nolin Dam
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Vegetation Removal
Lewisville Dam
Proctor Dam
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Surveillance and Monitoring
Provides potential for earlier detection of problem
Potentially allows more time to implement EAP and reduce consequences
Should be focused on failure modes
Do NOT just use existing monitoring schedule
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Instrumentation Review - Heightened Monitoring
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An adequate instrumentation and monitoring system is required by the Federal Guidelines for Dam Safety as well as by good engineering practice in order to:
Provide data to validate design assumptions
Provide information on the continuing behavior of the water control structure
Observe the performance of critical features
Advance the state-of-art of dam engineering
Monitoring Principles
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Focus the effort and cost of performance monitoring on those areas where failures are most likely to occur.
Some existing instrumentation and observation systems may be determined to be unnecessary or redundant.
Some additional instrumentation and observation systems may be required.
(after FERC Chapter 14, July 2005)
Monitoring Objectives
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Define future methods and frequency of measuring and/or observing critical parameters that would give early indications of adverse dam performance.
Establish performance limits related to specific failure mode(s) and/or loading condition(s).
Increase the awareness of field personnel for the performance expectations.
(after USBR Comprehensive Facility Review)
Monitoring Objectives
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Upper Portion of Solution Zone
Lower Portion of Solution Zone
Case History: Green River Lake Dike IRRMP
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-0.35
-0.30
-0.25
-0.20
-0.15
-0.10
-0.05
0.00
0.05-2+502+507+5012+5017+5022+50
Station (ft)
Cum
ulat
ive
Mov
emen
t (ft)
(- D
own
/ + U
p)
RM-4
Maximum Settlement = 3.5”(from 1981 to 2008)
Elevation Surveys
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Green River Dike, Cumulative Movement at RM-4 versus Pool Elevation
Record Pool (1979)
Spillw ay Crest 100-yr300-yr
PMF
Dam Crest
Winter Pool
Summer Pool 0.5-yr
1-yr
10-yr
-0.30
-0.25
-0.20
-0.15
-0.10
-0.05
0.00
0.051981 1983 1985 1987 1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Cum
ulat
ive
Mov
emen
t (ft)
660
670
680
690
700
710
720
730
Poo
l Ele
vatio
n (ft
)
Pool Triggering Elevation?
RM-4 Settlement
Pool
“Trigger” from Survey/Pool Data
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550
600
650
700
750
800
21+7
0
20+8
0
19+7
0
18+8
0
17+8
0
16+9
0
15+9
0
14+9
0
14+0
5
13+3
0
12+5
0
11+7
0
11+1
5
10+3
0
9+40
8+30
7+60
6+50
5+30
4+10
3+20
2+00
0+90
-0+3
0
-1+1
0
-2+0
0
-3+4
0
-4+6
0
-6+8
0
-9+6
0
Station along Dike Centerline
Ele
vatio
n (fe
et)
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Gro
ut (c
ubic
feet
)
Cubic Feet of Grout Cement Cubic Feet of Grout Sand Cubic Feet of Grout Fly Ash
DC-1 DC-5
DC-6
(translated to centerline)
Bottom of Grout Hole
High Grout Takes
Dike Crest - EL 735
Spillw ay Pool - EL 713
Summer Pool - EL 675
Winter Pool - EL 664
Depth of Know n Weathering
Concrete Bulkhead
Solution Zone
Top of Rock
Highly Weathered Limestone
Top of Grout Hole
RM-4
Triggering Elevation?
“Linking” Geology and High Grout Take Data
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Resulting Surveillance Strategy
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Update EAP
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EAP Hardcopy Map Format(1965-2009)
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Map Sheet – Street Map Series
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Coarse Aggregate
Fine Aggregate
Pre-Position Material Stockpiles
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IRRM Example: StockpilingProctor Dam
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Perform Preventative Maintenance on Instrumentation
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Review Downstream Access for Potential Heroic Measures
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Provide Open/Transparent Communication
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Project-specific potential failure modes Emergency indicators Notification and reporting procedures Temporary controls Long-term studies, investigations, and
possible remedial measures Risk Communication Plan
Train Field Personnel in:
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Level of Exercise Should be Based on DSAC Rating• Functional• Table Top• Contact Call Out
Conduct Emergency Exercises
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USACE Guidelines to Conduct Emergency Exercises
Exercises* Classifications
Drill Tabletop Functional Exercise
Full Scale Exercise
DSAC I and High Hazard Potential
Year 1, 3, 5, etc….
Year 2, 4, 6, etc….
At DSO discretion
DSAC II or III and High Hazard Potential
Year 1, 3, 5, etc…
Year 2, 4, 6, etc
At DSO discretion
At DSO discretion
DSAC IV or V Significant Hazard Potential
Year 1 – 4 and 6 - 9. etc….
Year 5, 10, etc…
At DSO discretion
At DSO discretion
Low Hazard Potential At DSO discretion
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Consider Early Warning Systems
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Contrasting IRRMs with Permanent Measures
IRRMs should not induce additional risks beyond existing conditions.
IRRMs should be timely (implemented within ≤ 6 months).
Some IRRMs may become permanent based on IES or DSMS recommendations.
IRRMs are funded from the O&M account and subject to dollar limitations described in Major Rehab guidance.
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Biweekly Status of IRRM Implementation for Approved Plans
Interim Risk Reduction Measures Plansxxx District Dams
As of 24 November 2011
Completed: Incomplete:
Click on Tabs at Bottom of Screen for Interim Risk Reduction Measures for Each Dam listed below:
Project Name Funding for full IRRM Implementation
Project A$250K
Project B$600K
Project C$275K
Project D$1.3M
Project E$530K
Project F$965K
Project G$313K
Project H$320K
Project I$690K
Project J$990K
Project K$600K
Project L$110K
Project M$1.2M
Red text indicates new information.
IRRM Tracking
Excel Spreadsheet developed by Fort Worth District is considered a Best Practice example.
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Completed: Incomplete:
Project A
DSAC: III PM: Secondary POC:
SPRA: 11 Jul 05 Office Phone: Office Phone:
IRRMP Approval Date: 10 Jun 11 Cell: Cell Phone:
Communication Plan Approval Date: 10 Jun 11
PFMA: Not scheduled at this time.
IES: Not scheduled at this time.
Interim Risk Reduction Measure Status Recommendation Scheduled/Completed Action Taken Cost Remarks
Reason Not Fully Implemented
Stockpiling Emergency Materials
Emergency flood fighting materials such as gravel, sand, geotextile, and riprap should be stockpiled in areas that are fully accessible in a high water event. Potential failure modes related to seepage can progressively erode soil from embankment or is foundation resulting in rapid failure of the dam.
FY13 Waiting on quotes from DLA for materials. $150K Funding and Resources
Update Surveillance and Monitoring Schedule
There are long-established inspection thresholds for different pool elevations. Based on the results of the IES, there may be changes to these thresholds if required.
FY11Some interim changes are being incorporated at this time.
$25K
Communication Plan Implementation
Date Visit/Meeting Notes/Highlights/Issues
4-Nov-11 Congressional Visit PPMD and Operations personnel met with represenatives from Congressman's office to discuss the project, DSAC III Dams, and the USACE Dam Safety Program.
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Is an interim reduction measures plan (IRRMP) required? (25 points)
Has an IRRMP been prepared AND approved? (9 points)
Has an approved IRRMP been fully implemented and regularly updated (according to the approved IRRMP schedule)? (10 points)
Have all required items in IRRMP been completed? (6 points)
IRRMP in Scorecard
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IRRMs are short-term measures taken to reduce the risk of catastrophic failure to the maximum extent reasonably practical until permanent repairs can be made, or investigations determine that a potential failure mode is not probable.
Focus the effort and cost of IRRMs on “risk-driver” potential failure modes.
Summary
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Pool restrictions and modification of the WCP must be considered for DSAC I, II, or III dams.
Structural IRRMs can be incorporated into long-term repairs.
With any IRRMP, the level of detail should be proportionate with the dam’s overall risk.
Summary
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Non-structural IRRMs can help to reduce the likelihood of failure by early detection and improve the ability to intervene should an incident occur, and they are cost-effective.
Communication with internal and external stakeholders and the public is essential to establish trust and coordinate proper assessment and support.
Summary
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Thank You!Muito Obrigado!
First USACE Dam Safety Workshop