Inflow Design Flood Control System Plan for Louisa Generating Station CCR Impoundment. MidAmerican Energy Company

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1 Control System Plan for Louisa Generating Station CCR Impoundment MidAmerican Energy Company October 10, 2016

2 Control System Plan for Louisa Generating Station CCR Impoundment Prepared for MidAmerican Energy Company Muscatine, Iowa October 10, 2016 Prepared by Burns & McDonnell Engineering Company, Inc. Kansas City, Missouri COPYRIGHT 2016 BURNS & McDONNELL ENGINEERING COMPANY, INC.

3 INDEX AND CERTIFICATION MidAmerican Energy Company Inflow Design Flood Control System Plan for Louisa Generating Station CCR Impoundment Chapter Number Chapter Title Report Index Number of Pages 1.0 Introduction Existing Conditions Design Basis / Flood Control System Hydrologic and Hydraulic Capacity Results Periodic Assessment and Amendment Record of Revisions and Updates 1 Appendix A Site Plan 1 Certification I hereby certify, as a Professional Engineer in the State of Iowa, that the information in this document was assembled under my direct supervisory control. This report is not intended or represented to be suitable for reuse by the MidAmerican Energy Company or others without specific verification or adaptation by the Engineer. Kira E. Wylam, P.E. Date: 10/10/2016 Kira E. Wylam License Number My license renewal date is December 31, 2016 Pages or sheets covered by this seal: As noted above.

4 Table of Contents TABLE OF CONTENTS Page No. 1.0 INTRODUCTION EXISTING CONDITIONS DESIGN BASIS / FLOOD CONTROL SYSTEM Hazard Potential Classification Inflow Design Flood System Criteria Capacity Criteria Freeboard Criteria Flood Routing Design Criteria Model Scenarios Project Mapping Mapping Sources Vertical Datum Horizontal Coordinate System HYDROLOGIC AND HYDRAULIC CAPACITY Calculation Approach Hydrology Recurrence Interval and Rainfall Duration Rainfall Distribution and Depth Watershed Delineation and Hydrologic Characteristics Process Inflows Hydraulic Analysis RESULTS Assumptions Scenario 1 Normal Operating Conditions Scenario 2 Federal Design Flood Event Summary PERIODIC ASSESSMENT AND AMENDMENT RECORD OF REVISIONS AND UPDATES REFERENCES SITE PLAN MidAmerican Energy Company TOC-1 Burns & McDonnell

5 List of Abbreviations LIST OF ABBREVIATIONS Abbreviation BMcD CCR CFR CFS CY ELG EPA GIS GPM LGS MEC PMP RCRA U.S.C Term/Phrase/Name Burns & McDonnell Engineering Company, Inc. Coal Combustion Residual Code of Federal Regulations Cubic Feet per Second Cubic Yards Effluent Limitations Guidelines Environmental Protection Agency Geographical Information System Gallons per Minute Louisa Generating Station MidAmerican Energy Company Probable Maximum Precipitation Resource Conservations and Recovery Act United States Code MidAmerican Energy Company i Burns & McDonnell

6 Introduction 1.0 INTRODUCTION On April 17, 2015, the Environmental Protection Agency (EPA) issued the final version of the federal Coal Combustion Residual Rule (CCR Rule) to regulate the disposal of coal combustion residual (CCR) materials generated at coal-fired units. The rule is administered as part of the Resource Conservation and Recovery Act [RCRA, 42 United States Code (U.S.C.) 6901 et seq.], using the Subtitle D approach. The MidAmerican Energy Company (MEC) is subject to the CCR Rule and as such must meet the hydrologic and hydraulic capacity requirements per 40 Code of Federal Regulations (CFR) This report serves as the inflow design flood control system initial plan for an existing CCR surface impoundment, known as the CCR Impoundment or Bottom Ash Pond, at the Louisa Generating Station. Per , the inflow design flood control system initial plan must contain documentation (including supporting engineering calculations) that the inflow design flood control system has been designed and constructed to: Adequately manage flow into the CCR unit during and following the peak discharge of the inflow design flood; Adequately manage flow from the CCR unit to collect and control the peak discharge resulting from the inflow design flood; Handle discharge from the CCR surface impoundment in accordance with the surface water requirements described in 40 CFR The seal on this report certifies that the initial inflow design flood control system plan provided herein meets the requirements of 40 Code of Federal Regulations MidAmerican Energy Company 1-1 Burns & McDonnell

7 Existing Conditions 2.0 EXISTING CONDITIONS The Louisa Generating Station (LGS), owned by MidAmerican Energy Company (MEC) is located approximately five miles south of Muscatine, Iowa. The CCR surface impoundment, herein referred to as the Impoundment, is approximately 30 acres in size, and is composed of two areas: the main Impoundment area and an overflow portion that is referred to as the reclaim area. To the east of the Impoundment is the U.S. Army Corps of Engineers levee for the Mississippi River near river mile MEC property surrounds the perimeter of the Impoundment on the north, west, and south sides, as shown on SK-001 in Appendix A. Discharge from the Impoundment flows through an outfall control structure, which pumps water to Outfall 002 on the Mississippi River. Plant flows that are directed to the Impoundment are the main plant drains, ash recycle strainer, oil/water separator, economizer ash tank, pyrites holding tank, and bottom ash hoppers. Flowrates from these processes were obtained from MEC. The Impoundment also receives precipitation across its extent. A normal pool elevation of feet North American Vertical Datum of 1988 (NAVD 88), has been assumed. This elevation was measured during survey activities on July 17, 2015, by HGM and Associates. Per MEC, this elevation can be maintained using transfer pumps that are capable of pumping from the reclaim area at a rate of 1,000 gallons per minute (GPM). Based on available data from the Midwest Regional Climate Center, the area surrounding Muscatine, Iowa, typically receives about 35.8 inches of precipitation annually. There were 17 and 47 inches of evapotranspiration in 2014 and 2015 respectively, providing precipitation excess in 2014 and a deficit in MidAmerican Energy Company 2-1 Burns & McDonnell

8 Design Basis / Flood Control System 3.0 DESIGN BASIS / FLOOD CONTROL SYSTEM 3.1 Hazard Potential Classification Per the CCR Rule compliance document titled, Hazard Potential Classification Assessment for the Louisa CCR Impoundment, written in 2016, the Impoundment is classified as having a Low Hazard Classification per (a)(2). 3.2 Inflow Design Flood System Criteria Capacity Criteria The CCR Rule requires that CCR surface impoundments must have adequate hydrologic and hydraulic capacity to manage flows for the inflow design flood. Specifically, (a) of the CCR regulations states the following: The owner or operator of an existing or new CCR surface impoundment or any lateral expansion of a CCR surface impoundment must design, construct, operate and maintain an inflow design flood control system as specified in paragraphs (a)(1) and (2) of this section. (1) The inflow design flood control system must adequately manage flow into the CCR unit during and following the peak discharge of the inflow design flood. (2) The inflow design flood control system must adequately manage flow from the CCR unit to collect and control the peak discharge resulting from the inflow design flood. For this analysis, the above criteria was interpreted to mean that the top of the Impoundment dike should not be overtopped during the inflow design flood Freeboard Criteria The CCR documentation further discusses that operating freeboard must be adequate to meet performance standards, but a specific freeboard is not defined. As stated previously, the CCR criteria is interpreted to mean that the top of the Impoundment dike should not be overtopped during the inflow design flood. The State of Iowa regulation includes a freeboard requirement (IDNR, 2009). Iowa State regulations state that for dams without an emergency spillway, the top of dam elevation shall be two feet higher than the peak flood elevation expected to occur during passage of the freeboard design flood. The suggested freeboard design flood is one-half of the probable maximum flood. The probable maximum flood is derived from Equation 1, below. MidAmerican Energy Company 3-1 Burns & McDonnell

9 Design Basis / Flood Control System Equation 1 Rainfall = P (PMP-P100). where PMP is the probable maximum precipitation, and P100 is the 100-year event A PMP storm duration and 100-year storm duration of six hours is recommended by the state criteria. 3.3 Flood Routing Design Criteria To evaluate the criterion discussed above, the inflow design flood rainfall event was considered. Per , the inflow design flood is based on the hazard potential classification of the Impoundment as required by The inflow design flood for this analysis was a 100-year flood event, due to the Impoundment s low hazard classification. 3.4 Model Scenarios Three (3) modeling scenarios were completed as part of this evaluation. These scenarios were developed to determine normal operating conditions and to evaluate the above outlined criteria. Scenario 1 - Normal Operating Conditions. This scenario considered the Impoundment conditions with no rainfall event occurring (refer to Section 5.2). Scenario 2 Inflow Design Flood. The Impoundment was analyzed under a 100-year, 24-hour event to determine peak stage and freeboard (refer to Section 5.3). Scenario 3 - Freeboard analysis, using IDNR state recommendations. A precipitation event, described by Equation 1, was precipitated onto the watershed of the surface impoundment to evaluate peak stage in comparison to top of dike (refer to Section 5.4). 3.5 Project Mapping Project mapping for this analysis consisted of a comprehensive inventory of stormwater assets that contribute to the Impoundment. This included stormwater structures, piping, culverts, and drainage ditches. To develop the characterization of the existing stormwater system, two primary sources of information were utilized: a survey and field investigation Mapping Sources Survey data utilized for this analysis was obtained from a survey performed by HGM and Associates in Background data such as aerial images and information from the National Hydrography Dataset was obtained from the Iowa Geographic Map Server (IDNR, 2016). MidAmerican Energy Company 3-2 Burns & McDonnell

10 Design Basis / Flood Control System Vertical Datum Mapping sources referenced were in the North American Vertical Datum of 1988 (NAVD 88) Horizontal Coordinate System North American Datum (NAD) 1983 State Plane Iowa South (US Feet) coordinate system was utilized as the basis for mapping and modeling efforts. MidAmerican Energy Company 3-3 Burns & McDonnell

11 Hydrologic and Hydraulic Capacity 4.0 HYDROLOGIC AND HYDRAULIC CAPACITY 4.1 Calculation Approach Based upon the simplicity of the water mass balance flows into and out of the Impoundment, the use of sophisticated modeling software was not required. A spreadsheet analysis that includes all known process inflows and outflows was used to create a quantitative estimate of the volume and stage of the Impoundment during design flood conditions. 4.2 Hydrology Recurrence Interval and Rainfall Duration The inflow flood design event for this study, as dictated by the hazard potential classification, was a 100-year flood event. Since a storm duration was not specified under or other pertinent inflow flood design sections, a 24-hour storm duration was utilized. This is an industry standard duration and produces a more conservative rainfall depth than shorter duration storm events. The calculated depth from Equation 1 was used in the analyzing the State of Iowa requirements, separate from the CCR requirements. The duration of the storm under the Iowa regulations is six hours Rainfall Distribution and Depth The water mass balance based spreadsheet analysis used to calculate stage and storage within the Impoundment during design flood conditions does not require the use of rainfall distribution. The assumption is that the rainfall occurs at once, which is a more conservative approach than distributing the rainfall over a longer period of time. The precipitation depth used for the inflow design flood event is 7.41 inches, as required per and the assumed 24-hour duration. This precipitation data was acquired from the National Weather Service (NOAA, 2016). The point precipitation location is shown in Figure 4-1. The table of rainfall depths for various frequencies and durations is presented in Figure 4-2. The precipitation depth used for the State of Iowa freeboard requirement was calculated using Equation 1, where the 100-year, 6-hour event is 5.74 inches and the 6-hour PMP is inches, which resulted in a depth of 8.2 inches. This precipitation data was acquired from the Iowa Department of Agriculture and Land Stewardship, as specifically mandated in the State of Iowa design criteria for Iowa dams (IDALS, 1988). MidAmerican Energy Company 4-1 Burns & McDonnell

12 Hydrologic and Hydraulic Capacity Figure 4-1. Point Precipitation Location Figure 4-2. NOAA Point Precipitation Frequency Estimates MidAmerican Energy Company 4-2 Burns & McDonnell

13 Hydrologic and Hydraulic Capacity Watershed Delineation and Hydrologic Characteristics The watershed of the Impoundment was delineated using the mapping sources as discussed in Section The watershed of the Impoundment is shown in Figure 4-3, below. Using Geographical Information System (GIS) tools, the watershed was calculated to be 99.5 acres. The simple water mass balance approach proposed in this document uses conservative assumptions, with respect to timing. The NRCS TR-55 methodology of rainfall loss was used to estimate the total rainfall depth after losses. The site soils primarily belong to hydrologic soil group (HSG) A, characterized by having low run-off potential and a high infiltration rate, even when fully wetted, as shown in Figure 4-4. The hydrologic soil classification was obtained from the Iowa Geological and Water Survey. A curve number of 70 was used to determine rainfall losses due to infiltration and was obtained from Table 3 in Section 2C-5 of the Iowa Stormwater Manual (IDNR, 2009). MidAmerican Energy Company 4-3 Burns & McDonnell

14 Hydrologic and Hydraulic Capacity Figure 4-3. Watershed of Louisa CCR Impoundment MidAmerican Energy Company 4-4 Burns & McDonnell

15 Hydrologic and Hydraulic Capacity Figure 4-4. Hydrologic Soil Groups MidAmerican Energy Company 4-5 Burns & McDonnell

16 Hydrologic and Hydraulic Capacity Process Inflows To accurately evaluate the inflow design flood control system, both stormwater runoff flows and process flows were considered. Estimated inflows contributing to the Impoundment are summarized in Table 4-1, below. Table 4-1. Surface Impoundment Inflows Source Flow (gpm) Flow (cfs) Main Plant Drains Ash Recycle Strainer Oil/Water Separator Economizer Ash Tank Pyrites Holding Tank Bottom Ash Hoppers Pumps to River Sum Cubic Feet in 24 hours = 166,127 Acre Feet in 24 hours = Hydraulic Analysis The hydraulic component of the hydraulic analysis consisted of those elements necessary to account for all inflows to the Impoundment. These elements, including watershed size, rainfall depth, rainfall loss, process inflows, and pump outs, are described in previous sections Stage / Surface Area Information Stage and surface area information for the Impoundment was developed from the survey data discussed in Section 3.5. A plot of the stage versus surface area relationship is shown in Figure 4-5, below. MidAmerican Energy Company 4-6 Burns & McDonnell

17 Hydrologic and Hydraulic Capacity Figure 4-5. Stage and Surface Area Relationship for Impoundment 25 Louisa CCR Impoundment Surface Area Surface Area (acres) Stage (feet) Storage The water level in the Impoundment is typically maintained at an elevation of feet. Therefore, at stages of feet and below, the Impoundment is considered to have no available storage for stormwater runoff control. A plot of the stage versus the Impoundment storage relationship is shown in Figure 4-6, below. Volume Available (acres ft) Figure 4-6. Stage and Storage Relationship for Impoundment Louisa CCR Impoundment Available Volume Stage (feet) MidAmerican Energy Company 4-7 Burns & McDonnell

18 Results 5.0 RESULTS 5.1 Assumptions Analysis results described herein were based on the following additional assumptions: The Impoundment is continually being filled with CCR and sedimentation; therefore, the Impoundment storage is in constant flux. This analysis was based on the conditions of the Impoundment at the time of the survey conducted by HGM and Associates in Contributing process flows to the Impoundment were daily averages over a year. For this analysis, the inflows were assumed to be constant. The starting water surface elevation for the Impoundment was set to the normal operating elevation. This analysis was based on the assumption that the Impoundment water transfer pumps have power and are operational. 5.2 Scenario 1 Normal Operating Conditions During normal operating conditions, based on a simple water mass balance analysis, the Impoundment will remain at its normal operating level of feet. 5.3 Scenario 2 Federal Design Flood Event As stated in Section 0, the depth of 100-year, 24-hour storm is 7.41 inches. With losses derived from the curve number, the total runoff depth is 3.96 inches. Given the measured watershed of 99.5 acres, this will result in a total of 32.8 acre-feet of runoff. If the process flows and pumping to the river were to continue during this 24-hour event, a net of acre-feet of flow would be pumped out of the Impoundment, for a combined volume of 29.0 acre-feet. Based on the stage/storage relationship shown in Figure 4-6, this volume could increase the stage of the Impoundment from a level of feet to feet. This stage increase allows for over 2.5 feet of freeboard to the top of the dike surrounding the Impoundment. 5.4 Scenario 3 State of Iowa Freeboard Event As stated in Section 0, the depth of the rainfall derived from Equation 1 is 8.2 inches. With losses derived from the curve number, the total runoff depth is 4.64 inches. Given the measured watershed of 99.5 acres, this will result in a total of 38.4 acre-feet of runoff. If the process flows and pumping to the river were to continue during this 6-hour event, a net of acre-feet of flow would be pumped out of the MidAmerican Energy Company 5-1 Burns & McDonnell

19 Results Impoundment, for a combined volume of 37.5 acre-feet. Based on the stage/storage relationship shown in Figure 4-6, this volume could increase the stage of the Impoundment from a level of feet to feet. This stage increase allows for 2.04 feet of freeboard to the top of the dike surrounding the Impoundment. 5.5 Summary Results for all scenarios indicated that the Impoundment was not overtopped. Based on these results, CCR regulations were considered to be met for the LGS Surface Impoundment. MidAmerican Energy Company 5-2 Burns & McDonnell

20 Periodic Assessment and Amendment 6.0 PERIODIC ASSESSMENT AND AMENDMENT MidAmerican Energy must place this initial inflow design flood plan in the CCR Operating Record by October 17, MEC may amend the plan at any time, and is required to do so whenever there is a change in conditions which would substantially affect the written plan in effect. MEC must prepare periodic inflow design flood control system plans every five years. Each periodic plan or amendment to the written plan shall be certified by a qualified professional engineer in the State of Iowa. All amendments and revisions must be placed on the CCR public website. A record of revisions made to this document is included in Section 7.0. MidAmerican Energy Company 6-1 Burns & McDonnell

21 Record of Revisions and Updates 7.0 RECORD OF REVISIONS AND UPDATES Revision Number Date Revisions Made By Whom 0 10/10/2016 Initial Issue Burns & McDonnell MidAmerican Energy Company 7-2 Burns & McDonnell

22 References 8.0 REFERENCES Geographic Information Systems (GIS Section), Iowa Geological and Water Survey, Iowa Department of Natural Resources. Accessed 3/7/2016. Iowa Department of Natural Resources, Technical Bulletin No. 16, Design Criteria and Guidelines for Iowa Dams. Des Moines, Iowa Iowa Department of Agriculture and Land Stewardship, State Climatology Office. Climatology of Iowa Series No. 2, Revised. Iowa Precipitation Frequencies. Paul Waite, Iowa Department of Natural Resources Iowa Stormwater Management Manual, Version 3. Manual Iowa State University Muscatine (Muscatine County, FRUI4) National Weather Service. Precipitation Frequency Data Server (PFDS). NOAA's National Weather Service, Hydrometeorological Design Studies Center. [Online] [Cited: March 15, 2016.] United States Department of Agriculture, Natural Resources Conservation Service. Urban Hydrology for Small Watersheds, Technical Release 55. June (210-VI-TR-55, Second Ed., June 1986) United States Environmental Protection Agency (EPA) Federal Register, Vol. 80. No. 74. April 17, CFR Parts 257 and 261. Page MidAmerican Energy Company 8-1 Burns & McDonnell

23 SITE PLAN

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25 Burns & McDonnell World Headquarters 9400 Ward Parkway Kansas City, MO O F

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