CR SURFACE IMPOUNDMENT EMERGENCY ACTION PLAN Plant Barry Ash Pond I hereby certify that this Emergency Action Plan has been prepared in accordance with the requirements of 40 C.F.R. Part 257.73. I Bite 7 I mm?, 155% Jame eguesa Li - a ISSUE DATE: April 17, 2017 REVISION 0 REVISION RECORD In accordance with 40 C.F.R. Part 257.73, this Emergency Action Plan (EAP) must be amended whenever there is a change in conditions that would substantially affect the EAP in effect. Additionally, the EAP must be evaluated, at a minimum, every five years to ensure the information is accurate. As necessary, this EAP must be updated and a revised EAP placed in the facility’s operating record as required by 40 C.F.R. Part 257.105(f)(6). Revision Number 0 Date 04/17/2017 Sections Affected/Reason Creation of Initial EAP TABLE OF CONTENTS Page ACRONYMS AND ABBREVIATIONS ...................................................................................... i DEFINITIONS .............................................................................................................................. ii 1.0 STATEMENT OF PURPOSE ......................................................................................... 1 2.0 FACILITY DESCRIPTION ............................................................................................ 2 3.0 DETECTION, EVALUATION, AND CLASSIFICATION PROCEDURES FOR EMERGENCIES ..................................................................................................... 3 3.1 3.2 3.3 4.0 INCIDENT RESPONSE .................................................................................................. 5 4.1 4.2 4.3 4.4 5.0 Incident Commander ............................................................................................... 6 Emergency Response Team Leader ........................................................................ 6 Plant Security Department ...................................................................................... 7 Plant Environmental Compliance ........................................................................... 7 Alabama Control Center ......................................................................................... 7 SCS Fossil Dam Safety ........................................................................................... 7 APC Personnel ........................................................................................................ 7 Emergency Agencies .............................................................................................. 8 Law Enforcement .................................................................................................... 8 NOTIFICATION PROCEDURES .................................................................................. 9 6.1 6.2 7.0 Access to the Site .................................................................................................... 5 Response during Periods of Darkness..................................................................... 5 Response during Weekends and Holidays .............................................................. 5 Response during Adverse Weather ......................................................................... 5 RESPONSIBLE PERSONS AND RESPONSIBILITIES ............................................. 6 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 Inspection Schedule and Condition Detection/Evaluation ..................................... 3 Condition Severity Classifications .......................................................................... 3 Guidance for Determining the Emergency Level ................................................... 3 Incident Response Flowchart for Imminent Failure and Potential Failure Emergencies................................................................................................ 9 Additional Considerations .................................................................................... 10 PROVISIONS FOR ANNUAL COORDINATION MEETING ................................ 11 APPENDICES Appendix A Figures Figure 1 – Plant Barry Location Map Figure 2 – Ash Pond Overview Appendix B Inundation Maps Appendix C Incident Response Flowchart Appendix D Response Notification Flowchart Appendix E Notification and Documentation Forms Data Recording Sheet Appendix F Instructions for the Construction of an Emergency Reverse Filter ACRONYMS AND ABBREVIATIONS ADEM Alabama Department of Environmental Management AEMA Alabama Emergency Management Agency ALDOT Alabama Department of Transportation APC Alabama Power Company CCR Coal Combustion Residuals CFR Code of Federal Regulations E&CS Engineering & Construction Services EAP Emergency Action Plan EMA Emergency Management Agency EPA Environmental Protection Agency FERC Federal Energy Regulatory Commission H:V Horizontal:Vertical HDPE High-Density Polyethylene ID Inside Diameter SCS Southern Company Services i DEFINITIONS Adverse Consequences. Negative impacts that may result from the failure of a dam. The primary concerns are loss of life, economic loss (including property damage), lifeline disruption and environmental impact. Coal Combustion Residuals (CCR). Fly ash, bottom ash, boiler slag, and flue gas desulfurization materials generated from burning coal for the purpose of generating electricity by electric utilities and independent power producers. CCR Surface Impoundment . A natural topographic depression, man-made excavation, or diked area which is designed to hold an accumulation of CCR and liquids, and the unit treats, stores, or disposes of CCR. Dam/Dike/Embankment. An artificial barrier that has the ability to impound water, wastewater, or any liquid-borne material for the purpose of storage. Dam Failure. Catastrophic type of failure characterized by the sudden, rapid and uncontrolled release of impounded water or the likelihood of such an uncontrolled release. It is recognized that there are lesser degrees of failure and that any malfunction or abnormality outside the design assumptions and parameters that adversely affect a dam’s primary function of impounding water is properly considered a failure. These lesser degrees of failure can progressively lead to or heighten the risk of catastrophic failure. They are, however, normally amenable to corrective action. Imminent Failure (Condition A Emergency). Failure of a dam/dike/embankment is imminent or has occurred. Potential Failure (Condition B Emergency). A potential failure condition of a dam/dike/embankment is a developing condition, but adequate time is available to properly evaluate the problem and implement corrective actions that may alleviate or prevent failure. Non-Failure Condition. A condition that will not, by itself, lead to a failure, but that requires investigation and notification of internal and/or external personnel. Emergency. A condition that develops unexpectedly, endangers the structural integrity of the dam, and requires immediate action. An emergency can lead to Adverse Consequences in the event of Imminent Failure. Filter. One or more layers of granular material graded so as to allow seepage through or within the layers while preventing the migration of material from adjacent zones. Inundation Map. A graphic representation of the inundation zone that shows the potential impact area due to a breach of the Ash Pond. The inundation maps in this procedure are based on a specific computer-modeled dam breach scenario; therefore, the boundaries depicted are estimates for that particular model. The models are considered conservative but larger floods could potentially occur. Please refer to Appendix B. ii Inundation Zone. Area subject to flooding in the event of increased flows due to a dam/dike/embankment failure. Piping. The progressive development of internal erosion of the dam/dike/embankment or foundation material by seepage. Probable Maximum Flood. The flood that may be expected from the most severe combination of critical meteorologic and hydrologic conditions that are reasonably possible in the drainage basin. Sunny Day Failure. A night or day failure that occurs during fair weather or when weatherrelated flooding is not occurring. iii 1.0 STATEMENT OF PURPOSE This Emergency Action Plan (EAP) has been prepared for the Plant Barry Ash Pond to meet the requirements of 40 C.F.R. Part 257.73(a)(3). The EAP identifies potential safety emergency conditions at the Plant Barry Ash Pond and specifies actions to be followed to minimize potential loss of life and property damage if such conditions exist. This EAP will provide responding personnel with: • Pertinent information and description related to Plant Barry Ash Pond; • Definition of events or circumstances that represent a safety emergency; • Procedures that will be followed to detect a safety emergency; • Notification procedures in the event of a safety emergency; • Information to assist in decision making; • A list of responsible persons and their respective responsibilities; • Provisions for an annual face-to-face meeting with local emergency responders; • Contact information for emergency agencies and emergency responders. • A map that delineates the downstream area that could be affected in the event of a failure. 1 2.0 FACILITY DESCRIPTION Plant Barry is a power plant located near Bucks, Alabama. This EAP covers emergency response procedures for the Plant Barry Ash Pond (the Ash Pond), which is designed to receive and store coal combustion residuals and low volume waste streams produced during the electric generating process at Plant Barry. An overview of Plant Barry and the surrounding area is shown in Appendix A – Figure 1. The Ash Pond is approximately 597 acres in size at its normal pool elevation of 14.7 feet (Appendix A – Figure 2). It should be noted that a significant portion of this 597 acres is utilized for dry ash storage and contains no standing water. The Ash Pond has earthen embankments (also referred to as dam/dike) on its west, east, and south sides. As noted, the north end of the pond is utilized for dry ash storage and contains no standing water; therefore, failure of the northern portions of the dam/dike is not considered a likely threat to public safety. The eastern and western portion of the dam/dike have a maximum height of approximately 22 feet, while the southern portion below the divider dike has a maximum height of approximately 18 feet. The crest surface is composed of grass and a gravel access drive. Downstream slopes are covered with grass. The outfall is located at the south end of the Ash Pond and consists of a four-sided concrete overflow structure with openings approximately 8 feet wide on each side. The overflow openings are at elevation 14.7, coincident with the normal pool elevation. Water exits the overflow structure via a 51-inch inside diameter discharge pipe. The Ash Pond dam/dike has been assigned a Significant Hazard Potential classification under 40 C.F.R. Part 257.73 of the Environmental Protection Agency’s (EPA’s) Coal Combustion Residuals (CCR) Rule. This classification, by definition, indicates that there is no probable loss of human life in the event of a dam/dike failure or misoperation of the facility, but there is a potential for economic loss or environmental damage. There are no other dams located downstream that could be impacted by the failure of the Ash Pond dam/dike. The limits of potential flooding in the event of failure of the Ash Pond dam/dike can be seen on the Inundation Maps, which are included as Appendix B. The provided inundation maps were developed based on the results of routing the breach wave downstream using the computer software, HECRAS. HEC-RAS is a general application one-dimensional hydraulic model that can perform unsteady flow routing through an open channel system that may also include culverts, bridges, levees, tributaries, storage areas, and other dams. Unsteady flow analyses allow for flow conditions that vary temporally and spatially such as a dam breach simulation. Breach parameters such as failure time, breach width, and breach side slopes were selected from industry accepted empirical formulas. Water surface elevation data was extracted from the hydraulic model and plotted on best available LiDAR topographic information for the downstream areas. Normal river/lake levels and the flow from simulated dam breaches were superimposed over topographical maps to identify areas subject to flooding. These flood extents are provided for planning purposes only; actual flooding can vary due to actual conditions present at the time of the failure. 2 3.0 DETECTION, EVALUATION, AND CLASSIFICATION PROCEDURES FOR EMERGENCIES 3.1 Inspection Schedule and Condition Detection/Evaluation Trained personnel from Plant Barry inspect the Ash Pond dams/dike on a regular basis to preemptively detect conditions, in a timely manner, that could indicate a potential issue so that it can be addressed. Trained personnel from the Plant’s Environmental Compliance group perform weekly inspections; and SCS E&CS Dam Safety (Fossil Dam Safety) personnel perform annual inspections. Plant personnel conducting inspections of the dams/dikes are trained on an annual basis by engineers from Fossil Dam Safety on the appropriate surveillance and monitoring requirements. Any issues discovered during an inspection are reported to Fossil Dam Safety as prescribed in the Safety Procedure for Dams and Dikes at Fossil Generation Plants (GEN10004). The SCS Fossil Dam Safety Engineer(s) working with plant personnel will recommend a corrective course of action, as needed. 3.2 Condition Severity Classifications Ash Pond dam/dike conditions will be classified based on the type of event, severity of the situation, and the time required to take corrective measures. This procedure covers the following condition classifications: LEVEL OF SEVERITY NON-FAILURE CONDITION (NFC) A situation that will not, by itself, lead to a failure and is not considered an emergency. However, an NFC does require investigation and notification of Fossil Dam Safety personnel and may require corrective action in order to prevent conditions that may lead to an emergency. POTENTIAL FAILURE – Condition B Emergency (B) A developing situation where failure of a dam/dike may occur but implementation of pre-planned actions may alleviate or prevent failure. In general, adequate time is considered available to properly evaluate and implement corrective actions. Should conditions worsen, an Imminent Failure emergency may be declared. IMMINENT FAILURE – Condition A Emergency (A) A situation where failure of the dam/dike is imminent or has already occurred. 3.3 Guidance for Determining the Emergency Level The following table details potential situations that could occur at the Ash Pond dam/dike. The Condition Level indicated in the right-most column corresponds with the Condition Severity Classifications in Section 3.2 above. 3 Event Discharge Structure Flow Embankment Overtopping Situation Spillway flow that could result in flooding of people downstream if the reservoir level continues to rise Spillway flow that is flooding people downstream A Reservoir level is 1 foot below the top of the dam/dike B Water from the reservoir is flowing over the top of the dam/dike A New seepage areas in or near the dam/dike Seepage Dropouts Embankment Cracking Embankment Movement Earthquake Security Threat Sabotage / Vandalism Condition Level B NFC New seepage areas with cloudy discharge or increasing flow rate B Seepage with discharge greater than 10 gallons per minute A Observation of new sinkhole in reservoir area or on embankment B Rapidly enlarging sinkhole New cracks in the embankment greater than ¼-inch wide without seepage Cracks in the embankment with seepage A NFC Visual movement/slippage of the embankment slope NFC Sudden or rapidly proceeding slides of the embankment slopes Measurable earthquake felt or reported on or within 50 miles of the dam/dike Earthquake resulting in visible damage to the dam/dike or appurtenances Earthquake resulting in uncontrolled release of water from the dam/dike Verified bomb threat that, if carried out, could result in damage to the dam/dike Detonated bomb that has resulted in damage to the dam/dike or appurtenances Damage to dam/dike or appurtenances that could adversely impact the functioning of the dam/dike Modification to the dam/dike or appurtenances that could adversely impact the functioning of the dam/dike Damage to dam/dike or appurtenances that has resulted in seepage flow Damage to dam/dike or appurtenances that has resulted in uncontrolled water release B A NFC B A B A NFC NFC B A 4 4.0 INCIDENT RESPONSE The following situations and conditions should be evaluated when performing condition severity detections and evaluations. Overtopping. The Ash Pond reservoir has a relatively small watershed area compared to the overall size of the reservoir. The Ash Pond receives and/or contains rainfall/stormwater, water used for sluicing ash, other process and drainage flows pumped from the plant, and submerged CCR. The Ash Pond is designed and operated to safely manage the 1,000 year storm event. Seepage. Failures due to internal erosion and/or piping resulting from seepage would be detected in the early stages during the regular inspections conducted by plant personnel. Inspectors are trained to look for evidence of seepage. Therefore, the conditions that could lead to failures of this type would likely be discovered and corrected, making an actual failure a remote possibility. Slope Instability. Slope instability would be demonstrated by sloughing of dam/dike slopes, which would be detected by security personnel in their daily observations, or by Environmental Compliance personnel in their weekly inspections. The conditions that could potentially lead to a failure of this type would also be detected in advance and corrected making an actual failure a remote possibility. In the event that conditions are detected that could potentially lead to a dam/dike failure, the flowcharts in Appendices C (Incident Response) and D (Response Notification) will be used to respond to the situation and alert applicable personnel and emergency agencies. In that situation, local emergency management agencies (EMAs) would respond and begin warnings and evacuations as soon as possible following the declaration of a safety emergency. 4.1 Access to the Site Figures 1 and 2 in Appendix A illustrate the location of the Ash Pond within the Plant property. 4.2 Response during Periods of Darkness Plant Barry is operational and/or manned 24 hours a day every day, and personnel and equipment are able to access the site at any time. Response times would not vary significantly from daylight conditions. 4.3 Response during Weekends and Holidays Plant Barry is operational and manned 24 hours a day every day, and personnel and equipment will be able to access the site at any time. 4.4 Response during Adverse Weather The dam/dike is accessed by paved and gravel-surfaced roads and is accessible during periods of adverse weather. 5 5.0 RESPONSIBLE PERSONS AND RESPONSIBILITIES Designated personnel have been trained in the use of these response procedures and are aware of their responsibilities in making the procedures effective. The chain of command and the individual responsibilities for plant personnel, public officials, and agencies are outlined below. 5.1 Incident Commander The Incident Commander is the 24-hour point of contact for all plant emergencies. The Primary Incident Commander is the Operations Team Leader on-shift. The Secondary Incident Commander is the Combined Cycle Operations Team Leader on-shift, and should be contacted if the Primary Incident Commander cannot be reached. The Incident Commander is responsible for ensuring the following functions are addressed as required for emergency response situations: 1. Verifying that an emergency condition exists. 2. Assessing and declaring the emergency condition. 3. Ensure Compliance Department consults with Fossil Dam Safety to evaluate conditions and determine remediation actions. 4. Emergency Actions a. If necessary, implement actions to lower the water level in the impoundment in consultation with Fossil Dam Safety. b. Call-out of personnel necessary to perform the work required on plant site during the emergency. 5. Ensure the notification process as outlined in the Response Notification Flowchart (Appendix D) is completed in an expedient manner. 6. Other responsibilities include: a. Establishing lines of communication from the plant to the local and state EMAs. b. Ensuring emergency sources of power are available for the operation of essential equipment such as emergency lighting. c. Ensuring the availability of heavy equipment and trained operators to aid in the mitigation effort. 5.2 Emergency Response Team Leader The Incident Commander shall assign an Emergency Response Team Leader as appropriate for the type of emergency incident. Duties include reporting matters relating to potential emergency action directly to the Incident Commander, accounting for his/her crew personnel and directing their actions. 6 5.3 Plant Security Department The Plant Security Department is responsible for securing company property and controlling access to company facilities. The Plant Security Department will relay information to the Incident Commander. The Incident Commander will determine the appropriate people and agencies to notify. The Plant Security Department will perform emergency notifications to Plant departments as appropriate. 5.4 Plant Environmental Compliance Environmental Compliance personnel are responsible for assessing conditions, contacting the Plant Manager, obtaining assistance from Fossil Dam Safety, and for providing technical updates to the Incident Commander. Compliance personnel can also request assistance from APC Environmental Affairs, if conditions warrant. 5.5 Alabama Control Center The Alabama Control Center contacts the National Weather Service to inform them of conditions at the plant that may lead to potential flooding downstream. 5.6 SCS Fossil Dam Safety SCS Fossil Dam Safety is responsible for coordinating and providing the technical support necessary to mitigate the emergency condition and for notifying APC Corporate Communications of the emergency condition. The Fossil Dam Safety Manager shall notify the APC Supply Chain Management as shown on the Response Notification Flowchart (Appendix D). 5.7 APC Personnel Environmental Affairs APC Environmental Affairs is responsible for coordinating long-term environmental response (after the initial response) and to remediate environmental issues and provide the technical support necessary for any remediation needs. Environmental Affairs is also responsible for all communications with environmental regulatory agencies for appropriate reporting of releases to the environment and for securing variances to existing permits, if needed. If necessary, Environmental Affairs will also help secure approved remediation contractors for the specific emergency condition that may exist. They will also provide additional support, such as emergency manpower, material, equipment, and expertise to assist in mitigation efforts, if needed. Corporate Communications APC Corporate Communications is responsible for coordinating the APC media response and will schedule news briefings and prepare news releases, as required. APC Corporate Communications will also work with local and State Public Information Officers to ensure that timely, accurate, and consistent information is made available to media outlets. 7 Corporate Security APC Corporate Security is responsible for supporting Plant Security personnel and contracting with local law enforcement for additional security personnel as needed. Supply Chain Management Supply Chain Management is responsible for obtaining additional equipment and materials necessary to mitigate the emergency condition and begin the recovery process. 5.8 Emergency Agencies Local EMAs are responsible for planning and implementing evacuation and sheltering plans as well as directing search, rescue, and recovery efforts. If additional resources are required, the local agencies can contact the Alabama Emergency Management Agency (Alabama EMA) for assistance. The local EMAs are the point of contact between plant personnel and local jurisdictions. The EMAs are responsible for the direction and control of emergency operations at the local level and keeping local government officials informed of the status of emergency operations. Alabama EMA generally becomes involved in an emergency situation if the local agencies are not capable of handling the situation or if assistance is requested by a local agency or by the Governor. Refer to the "Alabama Emergency Operations Plan" (AEOP) for an explanation of specific functions. Alabama EMA has responsibilities similar to the local EMAs but is also responsible for mobilizing state military support as well as State Disaster Center operations. 5.9 Law Enforcement Local Law Enforcement agencies are notified by the appropriate EMA. Alabama EMA notifies the State Patrol as well as the Alabama Department of Transportation (ALDOT). Law Enforcement is responsible for traffic control and can assist with evacuation, mitigation, and rescue activities. 8 6.0 NOTIFICATION PROCEDURES Communication during an emergency event will primarily be by company phone. In the event of system failure, Southern Linc radios and cell phones would be utilized as an alternate method of communication. Local and state EMA will be notified in the event of an emergency, and these agencies will be responsible for notifying the public. In the event of an imminent failure, local and state EMA’s will be notified to immediately begin evacuation procedures. APC Corporate Communications will provide information for media outlets and will be responsible for communicating relevant information to the public. 6.1 Incident Response Flowchart for Imminent Failure and Potential Failure Emergencies Personnel responsible for executing mitigation and/or emergency actions shall be thoroughly familiar with their responsibilities under this EAP. A. When a Condition B or Condition A situation is detected, notify plant personnel in accordance with the Incident Response Flowchart (below and in Appendix C). Plant Environmental Compliance should contact Fossil Dam Safety immediately for technical consultation. Fossil Dam Safety will provide the evaluation of the conditions and provide a determination if there is an immediate threat to the dam/dike. If there is an immediate threat of dam/dike or dike failure, declare an Imminent Failure Emergency and proceed to Step I. B. If no immediate threat is detected, determine if the problem detected could possibly lead to failure of the dam/dike. If there is a potential for failure but corrective measures may be taken to moderate or alleviate failure, declare a Potential Failure Emergency (Condition B) and proceed to Step C. C. If a Potential Failure Emergency has been declared, notify personnel and agencies listed on the Response Notification Flowchart (Appendix D). Document all communications using the appropriate forms contained in Appendix E. Once outside agencies have been notified of an issue or potential problem, plant management is responsible for keeping local EMAs informed of any change in conditions. D. Begin corrective measures to attempt to alleviate or prevent failure. E. Evaluate the effectiveness of the corrective measures. If the corrective actions are successful, update all personnel/agencies previously contacted of the status of the improved conditions and document relevant communications using the forms provided in Appendix E. At this time, the Incident Commander will end the emergency condition. Fossil Dam Safety will be responsible for preparing the after-action report. F. If the corrective measures are not effective, Fossil Dam Safety will determine if there is time to take additional corrective measures. 9 G. If there is not time to take additional corrective measures and failure is imminent, declare an Imminent Failure Emergency (Condition A) and proceed to Step I. H. If there is time to implement additional corrective measures, return to Step E. Additional support can be requested from Civil Field Services or outside contractors, as needed. I. If an Imminent Failure Emergency has been declared by the Incident Commander or his designee, ensure that all personnel have been moved to a safe area and perform notifications per the Response Notification Flowchart (Appendix D). Document all communications using the appropriate forms contained in Appendix E. Once outside agencies have been notified of a problem or potential problem, the Incident Commander or his designee is responsible for keeping local EMAs informed of any change in conditions. Fossil Dam Safety will be responsible for preparing the after-action report. 6.2 Additional Considerations All communication shall be documented using the Data Recording Sheet located in Appendix E. 10 7.0 PROVISIONS FOR ANNUAL COORDINATION MEETING An annual face-to-face meeting will be held with representatives of Plant Barry, APC, and local emergency responders. The representatives may include: • • • • • • Plant Barry Plant Manager and Team Leaders Plant Barry Emergency Response Team Southern Company Services Fossil Dam Safety APC Environmental Affairs APC Corporate Communications Local Emergency Responders 11 APPENDIX A Plant Barry Location Map Figure 1 Ash Pond Overview Figure 2 PLANT BARRY MOBILE COUNTY MOBILE R IVER BALDWIN COUNTY PLANT BARRY 0 2.5 5 Miles 1 in = 5 miles LEGEND Ash Pond Boundary US HWY 43 / AL HWY 13 Plant Boundary 0 1,000 ¯ 2,000 4,000 Feet 1 inch = 2,000 feet NOTE: Right-of-way boundaries are included within plant boundary for clarity. FIGURE 1 PLANT BARRY LOCATION MAP MOBILE COUNTY, ALABAMA Southern Company Services FOR Service Layer Credits: Sources: Esri, HERE, DeLorme, USGS, Intermap, INCREMENT P, NRCan, Esri Japan, METI, Esri China (Hong Kong), Esri Korea, Esri (Thailand), MapmyIndia, NGCC, © OpenStreetMap contributors, and the GIS User Community Source: Esri, DigitalGlobe, GeoEye, Earthstar Geographics, CNES/Airbus DS, USDA, USGS, AeroGRID, IGN, and the GIS User Community Alabama Power Company MO STOCKPILED MATERIALS ER I VE R $ KE DI DIVIDER DIKE DIKE PLANT BARRY BI L $ PRIMARY DISCHARGE $ $ OUTFALL Service Layer Credits: Source: Esri, DigitalGlobe, GeoEye, Earthstar Geographics, CNES/Airbus DS, USDA, USGS, AeroGRID, IGN, and the GIS User Community ¯ LEGEND Ash Pond Boundary Plant Boundary 0 750 1,500 Feet 1 inch = 1,500 feet 3,000 FIGURE 2 ASH POND OVERVIEW PLANT BARRY MOBILE COUNTY, ALABAMA Southern Company Services FOR Alabama Power Company APPENDIX Inundation Maps 88°2'0"W 10 0 0 12 80 40 80 N 40 YL , 40 A 100 0 10 87°59'30"W E 87°59'0"W 87°58'30"W LAKE CHIPPEWA MOBILE RIVE 20 1 BIG CHIPPEWA LAKE R LAK CHIPP 12 0 D B 100 100 1 , 60 0 12 40 100 WEA VER R 31°1'30"N 40 31°1'30"N D 88°0'0"W 43 80 40 80 13 P 1 60 88°0'30"W 20 AN D C 88°1'0"W 40 140 100 B 88°1'30"W 40 A 88°2'30"W 80 60 40 100 100 RD ER V EA 100 40 20 20 C , 40 31°0'30"N 20 20 31°0'0"N RIVER 20 20 20 40 MOBILE 20 20 20 20 20 20 20 20 40 40 30°59'30"N 40 40 40 40 20 20 20 20 20 20 20 20 40 3 H 40 G I 40 60 20 40 20 40 60 60 60 20 31°0'0"N 2020 , , , 20 20 40 40 30°59'30"N 20 20 20 20 40 40 40 40 20 20 20 20 20 40 40 40 20 20 20 20 40 40 60 40 40 40 40 20 BARRY ASH POND 20 20 20 20 20 20 20 20 20 40 40 60 40 F 20 60 3 , , 40 40 20 20 40 LOFTON RD E 60 60 E 40 20 40 20 20 20 40 20 20 43 40 20 20 20 20 20 P 1 40 40 20 40 20 13 20 20 20 40 20 20 40 20 20 20 20 20 C 20 20 , 40 20 20 60 20 20 20 20 40 40 20 20 20 20 20 20 20 60 60 BARRY ELECTRIC PLANT 20 20 40 40 20 60 20 20 20 20 20 40 40 40 60 20 20 20 20 20 20 20 40 40 20 20 20 D 40 20 40 40 , 40 40 40 60 20 40 20 60 20 31°0'30"N 20 20 2 0 20 20 20 20 20 20 40 60 60 2 20 20 20 20 40 60 20 40 40 2 40 40 40 100 20 80 100 40 40 W 40 0 10 31°1'0"N 31°1'0"N 60 40 60 80 20 20 20 20 20 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 20 20 20 20 20 40 30°58'30"N 40 20 30°58'30"N 20 20 20 20 20 20 20 20 20 20 20 40 40 40 20 20 40 40 40 40 40 20 20 40 40 40 40 40 40 40 40 , J 4 20 20 40 40 40 40 40 20 20 40 40 40 20 20 20 40 40 4 20 40 40 40 30°59'0"N 20 40 4 40 0 30°59'0"N 40 40 40 40 40 40 40 RAILR 0 40 4 OAD 40 40 40 40 40 40 40 40 40 40 20 40 40 40 40 40 40 40 Issue Date: November 11, 2016 40 40 BI LE R IV E R 88°1'30"W . Page 1 of 3 Note: 1. The information contained in this map is prepared for use in notification of downstream property owners by emergency management personnel. 2. Mapping of flooded areas and floodwave travel times are approximate. Timing and extent of actual indundation may differ from information presented on this map. 3. It is prudent to assume that areas outside, but adjacent to, the inundation limits shown could also be flooded. 4. The contours shown on this map were generated from the LiDAR Digital Elevation Model (DEM) for Baldwin County and the LiDAR DEM for Mobile County. B 40 40 88°1'0"W 40 88°0'30"W 88°0'0"W C Plant Barry Ash Pond Dam Inundation Analysis Baldwin and Mobile Counties 0 500 1,000 2,000 3,000 1 inch = 1,000 feet 4,000 Feet 20 Basemap Source: Esri, DigitalGlobe, GeoEye, i-cubed, Earthstar Geographics, CNES/Airbus DS, 20 USDA, USGS, AEX, Getmapping, Aerogrid, IGN, IGP, swisstopo, and the GIS User Community 20 40 40 40 ROGER PHILLIPS RD 40 40 40 40 40 O 40 40 40 40 Projection State Plane Alabama West FIPS 0102 40 40 88°2'0"W M 40 40 A 40 40 88°2'30"W 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 20 20 40 20 40 40 40 40 40 20 40 60 43 5 20 40 40 40 20 K 40 40 40 13 P 1 , 60 40 20 40 40 40 40 30°58'0"N 40 40 40 40 40 30°58'0"N 40 40 40 5 40 40 40 SALCO RD E 40 40 40 40 40 40 40 20 40 40 20 20 40 20 20 40 40 40 40 20 40 40 20 20 40 40 87°59'30"W D 87°59'0"W E _ ^ 1 MOBILE 2 3 BALDWIN Basemap Source: Esri, HERE, DeLorme, TomTom, Intermap, increment P Corp., GEBCO, USGS, FAO, NPS, NRCAN, GeoBase, IGN, Kadaster NL, Ordnance Survey, Esri Japan, METI, Esri China (Hong Kong), swisstopo, MapmyIndia, © OpenStreetMap contributors, and the GIS User Community 87°58'30"W Critical Facility Stream/River Centerline Lettered Cross Section Model Cross Section Design Storm Breach Floodplain Effective 100-year Floodplain 20-ft Contours County Boundary 87°58'0"W A B 87°57'30"W 87°57'0"W C 87°56'30"W 87°56'0"W 87°55'30"W D E 87°55'0"W 87°54'30"W KE PEWA 0 LAKE CHIPPEWA , 31°1'30"N BA 31°1'30"N A 1 1 LD BI IN O W M C TY UN UN CO O LE TY SAW RI V ER , 31°1'0"N B 31°1'0"N TEN C , , D K 2 R RI VE EE R LE C LE , M ID D E 20 31°0'30"N 20 B T OT 31°0'30"N 2 TENSAW RIVER , 31°0'0"N 31°0'0"N F , G 3 30°59'30"N 30°59'30"N 3 , H FISHER LAKE , 30°59'0"N 30°59'0"N I ALLIGATOR LAKE 4 , J B IN IC CR EE LE EK K 30°58'30"N M 30°58'30"N DO T OT E CR 4 THE T , K BAL D MO B I WIN C L E CO O UNT Y MIFFLIN LAKE M UNT Y 5 30°58'0"N 30°58'0"N 5 D ID LE VE RI LOWER FISHER LAKE R 87°58'0"W A 87°57'30"W Projection State Plane Alabama West FIPS 0102 Issue Date: November 11, 2016 87°57'0"W 87°56'30"W B . Page 2 of 3 Note: 1. The information contained in this map is prepared for use in notification of downstream property owners by emergency management personnel. 2. Mapping of flooded areas and floodwave travel times are approximate. Timing and extent of actual indundation may differ from information presented on this map. 3. It is prudent to assume that areas outside, but adjacent to, the inundation limits shown could also be flooded. 4. The contours shown on this map were generated from the LiDAR Digital Elevation Model (DEM) for Baldwin County and the LiDAR DEM for Mobile County. 87°56'0"W C 87°55'30"W Plant Barry Ash Pond Dam Inundation Analysis Baldwin and Mobile Counties 0 500 1,000 2,000 3,000 1 inch = 1,000 feet Basemap Source: Esri, DigitalGlobe, GeoEye, i-cubed, Earthstar Geographics, CNES/Airbus DS, USDA, USGS, AEX, Getmapping, Aerogrid, IGN, IGP, swisstopo, and the GIS User Community 4,000 Feet 87°55'0"W D 87°54'30"W E _ ^ 1 MOBILE 2 3 BALDWIN Basemap Source: Esri, HERE, DeLorme, TomTom, Intermap, increment P Corp., GEBCO, USGS, FAO, NPS, NRCAN, GeoBase, IGN, Kadaster NL, Ordnance Survey, Esri Japan, METI, Esri China (Hong Kong), swisstopo, MapmyIndia, © OpenStreetMap contributors, and the GIS User Community Critical Facility Stream/River Centerline Lettered Cross Section Model Cross Section Design Storm Breach Floodplain Effective 100-year Floodplain 20-ft Contours County Boundary 87°53'0"W B 87°52'30"W 100 G HN CIR BRY A S VAUGHN CIR LAN GR 100 59 P D 120 80 SCHOOL DIN 60 80 10 0 87°50'0"W 80 _ VAUGHN^ N TS E 87°50'30"W 60 N VAU 87°51'0"W 60 40 D 87°51'30"W 60 COBB LN BRIAR LAKE C 87°52'0"W 60 87°53'30"W 40 80 A 87°54'0"W \ 21 20 120 31°1'30"N 31°1'30"N , A 40 120 1 120 0 12 1 0 12 RD TH OM PS O 80 12 0 120 60 GE 120 RID NR D 12 0 12 0 120 21 RD31°1'0"N \ CROSBY RD M 0 AY RICE CREEK RD ER 31°1'0"N 100 12 0 TO W , LN 120 , B B COX 120 40 TOMPKINS RD C MAY TOWER RD CUSHION DR MARIAN DR HOLTON RD 120 120 , 0 12 31°0'30"N 120 E 31°0'30"N 2 120 120 D 2 120 60 , , 12 0 AMELIA LN 0 0 12 0 120 120 D 120 0 12 OLD CAMILLA LN R GE STA 0 12 , F 0 12 RD 12 0 80 W SA 59 P HODGSON RD 31°0'0"N LAN 12 0 12 0 MIL 60 N TE 31°0'0"N MC 80 RI 40 60 20 3 60 G 60 R 100 VE , 3 40 MURPHY LN 40 40 59 P LN 60 80 40 S 20 , H S BA ST 10 0 CEMETERY RD LI N MAR 120 60 20 , I 20 20 30°59'0"N 20 20 20 , I 20 20 20 20 30°59'0"N 0 4 , 80 100 R EK D ER 40 60 30°58'30"N 60 30°58'30"N CRE DR 20 R PL 120 20 N TE W SA IV EL L R FLAT WILLIAMS LN OD WO LA PO W RD K OA W VIE KE 100 OO DD 4 60 20 0 20 J DO GW DOGWOO D DR 20 20 LOWER BRYANT LANDING RD 30°59'30"N 120 20 20 30°59'30"N 225 P 20 BERCANT DR 0 10 20 SH K LN D 120 80 60 0 10 20 , 20 20 20 0 20 20 0 30°58'0"N 20 20 20 20 20 20 20 40 Page 3 of 3 Note: 1. The information contained in this map is prepared for use in notification of downstream property owners by emergency management personnel. 2. Mapping of flooded areas and floodwave travel times are approximate. Timing and extent of actual indundation may differ from information presented on this map. 3. It is prudent to assume that areas outside, but adjacent to, the inundation limits shown could also be flooded. 4. The contours shown on this map were generated from the LiDAR Digital Elevation Model (DEM) for Baldwin County and the LiDAR DEM for Mobile County. 87°52'0"W 87°51'30"W C Plant Barry Ash Pond Dam Inundation Analysis Baldwin and Mobile Counties 0 500 1,000 2,000 3,000 1 inch = 1,000 feet 100 4,000 Feet 59 P 60 80 100 87°52'30"W CHICKEN FARM RD 80 80 Issue Date: November 11, 2016 . B 40 Projection State Plane Alabama West FIPS 0102 87°53'0"W 100 60 A 87°53'30"W 80 COTTAGE HILL RD 20 87°54'0"W 80 80 40 40 40 60 225 P 5 K 20 20 120 60 5 10 0 30°58'0"N PEC 80 NR SO MP O TH Y AD Basemap Source: Esri, DigitalGlobe, GeoEye,8i-cubed, Earthstar Geographics, CNES/Airbus DS, 0 USDA, USGS, AEX, Getmapping, Aerogrid, IGN,10IGP, swisstopo, and the GIS User Community 0 87°51'0"W 87°50'30"W D E _ ^ 1 MOBILE 2 3 BALDWIN Basemap Source: Esri, HERE, DeLorme, TomTom, Intermap, increment P Corp., GEBCO, USGS, FAO, NPS, NRCAN, GeoBase, IGN, Kadaster NL, Ordnance Survey, Esri Japan, METI, Esri China (Hong Kong), swisstopo, MapmyIndia, © OpenStreetMap contributors, and the GIS User Community 87°50'0"W Critical Facility Stream/River Centerline Lettered Cross Section Model Cross Section Design Storm Breach Floodplain Effective 100-year Floodplain 20-ft Contours County Boundary APPENDIX Incident Response Flowchart Problem Discovered Incident Response Flowchart END Notify Plant Manager Enviro. Compliance Evaluates Perform Repair/Maintenance Non-Failure Condition Incident Commander Declares Potential Failure NO YES Potential Failure? Implement Corrective Actions YES Update Personnel and Agencies per Notification Flowchart and Document Actions Taken END Notify Plant Manager Incident Commander Declares Imminent Failure Time Available to Take Corrective Actions? YES Notify Security Office YES Activate EAP, Perform All Notifications, Move Personnel to Safety at Incident Commander’s Discretion Corrective Actions Effective? Notify E&CS Dam Safety to Assist with Evaluation and Mitigation NO Activate EAP, Perform All Notifications, Move Personnel to Safety Failure Occurs NO Time Available to Take Additional Corrective Actions? Update Personnel and Agencies per Notification Flowchart and Document Actions Taken END APPENDIX Response Noti?cation Flowchart Response Notification Flowchart Imminent Failure or Potential Failure Emergencies Southern Co. Generation Senior Vice President 1 National Weather Service Mobile, Alabama (251) 633-6443 Incident Commander Declares Imminent or Potential Failure Emergency 2 Plant Barry Plant Manager 3 Alternate: Birmingham, AL (205) 664-3010 1 Plant Barry Security Office 4 Alabama System Owner Plant Barry Compliance C&S Manager (Emergency Response Team Leader) 5 2 SCS Fossil Dam Safety 1 Mobile County EMA Ronnie Adair, Director (251) 460-8000 Dam Safety Referral (205) 992-6601 See Next Page for Notifications by Fossil Dam Safety APC Enviro. Affairs Response Notification Flowchart Imminent Failure or Potential Failure Emergencies Fossil Dam Safety Notifications SCS Fossil Dam Safety Dam Safety Referral (205) 992-6601 APC Corporate Communications APC Supply Chain Management Emergency Responders Contact Information If a Condition A Emergency has occurred call 911 1) 2) 3) 4) Mobile County Sheriff’s Office – 1-251-574-2423 Mobile County Emergency Management Agency – 1-251-460-8000 Alabama Emergency Management Agency – 1-205-280-2200 National Weather Service a. Birmingham Office – 1-205-664-3010 b. Mobile Office – 1-251-633-6443 APPENDIX Data Recording Sheet EMERGENCY ACTION PLAN DATA RECORDING SHEET The Data Recording Sheet will be used to record important information relating to dam safety emergency. Team Member(s): Date of Incident: Time of Incident: Type of Emergency: Emergency Coordinator: Description of Events:* What is Being Done:* *Attach additional pages as necessary. For incoming questions, refer all calls to: Media Inquiries: Alabama Power Company Corporate Communications EMA Inquiries: Plant Manager/Incident Commander Environmental Agency Inquiries: APC Environmental Affairs Page 1 of _____ APPENDIX Instructions for the Construction of an Emergency Reverse Filter EMERGENCY REVERSE FILTER CONSTRUCTION The purpose of the reverse filter is to slow down the flow of water in order to reduce the ability of the water to carry soil particles. The size of the soil particle that a flow of water can carry is a function of the 3rd power of the velocity of the flow. The slower the velocity, the less soil the water can carry. The other function of the filter is to trap soil particles before they exit. The usual components of a reverse filter are as follows:     #100 concrete sand # 89 stone # 57 stone ALDOT Class 1 - Class 3 riprap (not required, utilize if available) These materials should be stockpiled in a location where they can easily and quickly be moved to the seepage site. Two truckloads of each type of material should be stored in a convenient location that is out of the way. It is best if they are located so that a backhoe or front end loader can pick them up and transfer them directly to the seepage site. Transport schemes that require multiple vehicles and multiple operators are usually impossible to implement at night or on weekends. The stockpiles should be labeled “Emergency Filter Stockpile – Emergency Use Only” to keep them from being appropriated for other purposes by those unaware of their purpose. To build a reverse filter over a boil or area of concentrated seepage, follow the directions below. A cross section of the reverse filter construction is provided on the next page. 1) Clear loose material from around the site. 2) Place 6” of #10 washed sand over the area of concern, and extend it for at least 12” beyond the seepage limits. 3) Place 6” of #89 stone over the sand, and extend it for at least 6” beyond the sand. 4) Place 6” of #57 stone over the sand, and extend it for at least 6” beyond the #89 stone. 5) If necessary to stabilize the #57 stone, place rip rap on top of the #57 stone. Conditions that may make the rip rap necessary are anticipated surface flows that might wash away the filter or increasing seepage flows that may try to shift the lighter filter materials. If the flow is too fast for the sand to remain in place, a layer of #57 stone or ALDOT Class 1 - Class 3 riprap may be placed over the boil to slow the flow down. This is followed by a layer of #89 stone, then the sand, and then the #89, #57 and riprap in succession. Sometimes a seep will pop out on the edge of a newly applied filter. In this case, it is generally necessary to apply the granular filter as a blanket to the general area rather than as a spot treatment. The layers are as described above but will cover a larger area. Filter fabric or geotextile is not acceptable as a substitute for the sand. The fabric tends to smear and clog if applied in a wet situation. 056mm OH ?m