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HomeMy WebLinkAboutSW6231106_Design Calculations_20240618 Sitework Calculations True Homes - BryanRoad Subdivision at Erwin, NC Owner/Developer: True Homes, LLC 2649 Brekonridge Centre Dr. Monroe, NC 28110-5629 (704)238-1229 ;s011110,0, „ 'F -§1 ESS/ !y% SEAL y• • 051543 r• • • �9��'G►NQ-���� 9_g �3 • �� 5�S\\O`\` 2-28-24 REV. - 24 STOCKS ENGINEERING 801 EAST WASHINGTON STREET P.O. BOX 1108 NASHVILLE, N.C. 27856 PHONE: (252) 459-8196 WWW.STOCKSENGJ?JEERING.COM NARRATIVE: Site location Project Description Stormwater Management SUPPORTING DOCUMENTS USGS Map NRCS Soils Report FEMA Floodplain Maps NOAA Precipitation Data CALCULATIONS Pre- vs. Post-Development Runoff Calculations Curve Number Calculations Pump Station Worksheet Hydrograph Calculations SCM #1 Wet Pond Design Worksheet Forebay/Pond Volume Comparison Buoyancy Resistance Calculations Pipe Analysis and HGL Calculations SCM #2 Wet Pond Design Worksheet Forebay/Pond Volume Comparison Buoyancy Resistance Calculations Pipe Analysis and HGL Calculations SCM #3 Wet Pond Design Worksheet Forebay/Pond Volume Comparison Buoyancy Resistance Calculations Pipe Analysis and HGL Calculations Erosion Control Calculations Sediment Basin Worksheet Temporary Diversion Calcs MAPS Site Narrative: Site Location The subject property is located on the South side of Bryant Road (SR 1720), Harnett County. The PIN for the site is 1507-35-0329 and 1507-37-7604. Project Description The proposed development is the construction of an residential subdivision. The lot size is approximately 54.82 Acres. Stormwater Management Plan This project meets the Pre vs Post for the 1-year 24-hour rainfall event with the use of three Stormwater Control Measures (SCM) on this site.The Peak Flow Attenuation is proposed to be accomplished with three wet detention ponds. One located on the north side, one on the south side, and one on the east side of the property. There are 4 storm drainage systems that will be installed to direct water to the wet detention ponds. The impervious area that bypasses the onsite SCMs is accounted for in the impervious calculations for the nearest Wet Ponds. The pond is designed to safely discharge the 100-year storm. The Pre and Post Development flow rates were modeled with the rational Method using Hydraflow Hydrographs through Autodesk. If Tc values were less than 5 minutes, they have been manually edited to be a minimum of 5 minutes. Stormwater Pre vs Post Chart Pre: This site is currently vacant with wooded and grassed coverage. The proposed development is a Resi- dential subdivision with 247 lots. The site will be accessed through a full access driveway from Bryant road on the north side and St. Matthews road on the west side. The pre-development runoff map shows 3 drainage areas. The larger area, labeled "Area I", drains to the location that the future storm water wet pond 1 will drain after development. "Area II", drains to the south side of the property where wet pond 2 will drain after development. "Area III"drains to the eastern side of the property where wet pond 3 will drain after development. Post: After development the site will add approximately 42.20 acres of impervious area and will utilize con- structed stormwater wetponds to treat runoff. The areas draining to the wetponds after development, which is labeled IA, will be 14.53 acres, Ila, will be 25.55 acres, IIIA will be 12.58 acres. The areas la- beled IB, IIB, and IIIB will bypasses the stormwater pond. The sum total of post development runoff com- ing from areas IA and IB is less than the total runoff coming from pre development Area I. The sum total of post development runoff coming from areas IIA and IIB is less than the total runoff coming from pre de- velopment Area II. The sum total of post development runoff coming from areas IIIA and IIIB is less than the total runoff coming from pre development Area III. A summary of the runoff from each area Pre and Post development is shown below. Peak Runoff 1-yr Storm(in cfs) Pre-Development Post-Development Area 1 2.016 0.668 Area 2 13.18 • 3.341 Area 3 0.984 • 0.262 Peak Runoff 10-yr Storm(in cfs) Pre-Development Post-Development Area 1 44.65 13.49 • Area 2 48.07 11.55 • Area 3 26.11 4.532 Peak Runoff 50-yr Storm(in cfs) Pre-Development Post-Development Area 1 100.41 37.79 Area 2 82.57 41.82 Area 3 58.11 35.80 This project utilizes multiple NCDOT standard curb inlets to capture the stormwater runoff from the site and direct the flow to the proposed basin. The Rational Method (Q=CIA) has been utilized to determine the Q for drainage area. Each basin has a delineated drainage basin composite C value based on land use and a minimum Tc of five (5) minutes. The Hydraulic Grade Line (HGL) was calculated utilizing Hydraflow Storm Sewers by Autodesk. Refer to the calculations section for the output calculations. SUPPORTING DOCUMENTS USGS Map -78.6250° _ 12 13,ona ..,..„_„,,,,,,gir14 15 35.3750° ro a IMP' aillir itri ~ 40O O ( Nz). 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Pr /. --*,,tkor ;;..p-1-,.- . - 11,,,1:::. - ...a" •vt.iy A--. I i i'l-- ..i co'."i''t :T. CI e4 ::::‘ '''t - '' • ,; ' i,..-vorsiv, — -,-1 .,y ,, ft . . . -- •-, , ,r--„.._. - - ' • „.,....„.„ . . - ,,,, ...,,.... . .....F.e'''Efr'"i'Farli=e7=n re=u•U al HARNETT COICITY.NORTH CAROLINA No t 2 USDA United States A product of the National Custom Soil Resource Department of Cooperative Soil Survey, Agriculture a joint effort of the United Report for States Department of RCS Agriculture and other Harnett County Federal agencies, State Naturalagencies including the North Carolina Resources Agricultural Experiment Conservation Stations, and local Service participants es — ♦ "I- a. -- ("mai ' 1 y _ 1 • ., J. ,.... , r •Nv ' ill __ lirl.1.11'4 , , ,;$ ,X , \ . • ".'• \. \ ,‘k !f .4 \ 4,, ,. ,. . ,_ k r ` , 1tomft, liar t- r 0 r - April 3, 2023 Preface Soil surveys contain information that affects land use planning in survey areas. They highlight soil limitations that affect various land uses and provide information about the properties of the soils in the survey areas. Soil surveys are designed for many different users, including farmers, ranchers, foresters, agronomists, urban planners, community officials, engineers, developers, builders, and home buyers. Also, conservationists, teachers, students, and specialists in recreation, waste disposal, and pollution control can use the surveys to help them understand, protect, or enhance the environment. Various land use regulations of Federal, State, and local governments may impose special restrictions on land use or land treatment. Soil surveys identify soil properties that are used in making various land use or land treatment decisions. The information is intended to help the land users identify and reduce the effects of soil limitations on various land uses. The landowner or user is responsible for identifying and complying with existing laws and regulations. Although soil survey information can be used for general farm, local, and wider area planning, onsite investigation is needed to supplement this information in some cases. Examples include soil quality assessments (http://www.nrcs.usda.gov/wps/ portal/nrcs/main/soils/health/) and certain conservation and engineering applications. For more detailed information, contact your local USDA Service Center (https://offices.sc.egov.usda.gov/locator/app?agency=nrcs)or your NRCS State Soil Scientist(http://www.nres.usda.gov/wps/portal/nres/detail/soils/contactus/? cid=nrcs142p2_053951). Great differences in soil properties can occur within short distances. Some soils are seasonally wet or subject to flooding. Some are too unstable to be used as a foundation for buildings or roads. Clayey or wet soils are poorly suited to use as septic tank absorption fields. A high water table makes a soil poorly suited to basements or underground installations. The National Cooperative Soil Survey is a joint effort of the United States Department of Agriculture and other Federal agencies, State agencies including the Agricultural Experiment Stations, and local agencies. The Natural Resources Conservation Service (NRCS) has leadership for the Federal part of the National Cooperative Soil Survey. Information about soils is updated periodically. Updated information is available through the NRCS Web Soil Survey, the site for official soil survey information. The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, familial status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require 2 alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write to USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, D.C. 20250-9410 or call (800) 795-3272 (voice)or(202) 720-6382 (TDD). USDA is an equal opportunity provider and employer. 3 Contents Preface 2 How Soil Surveys Are Made 5 Soil Map 8 Soil Map 9 Legend 10 Map Unit Legend 11 Map Unit Descriptions 11 Harnett County, North Carolina 13 Co—Coxville loam 13 GoA—Goldsboro loamy sand, 0 to 2 percent slopes, Southern Coastal Plain 14 MaA—Marlboro sandy loam, 0 to 2 percent slopes 15 MaB—Marlboro sandy loam, 2 to 6 percent slopes 16 NoA—Norfolk loamy sand, 0 to 2 percent slopes 17 NoB—Norfolk loamy sand, 2 to 6 percent slopes 18 OrB—Orangeburg loamy sand, 2 to 6 percent slopes 19 Ra—Rains sandy loam, 0 to 2 percent slopes 20 Soil Information for All Uses 23 Soil Properties and Qualities 23 Soil Qualities and Features 23 Hydrologic Soil Group 23 References 28 4 How Soil Surveys Are Made Soil surveys are made to provide information about the soils and miscellaneous areas in a specific area. They include a description of the soils and miscellaneous areas and their location on the landscape and tables that show soil properties and limitations affecting various uses. Soil scientists observed the steepness, length, and shape of the slopes; the general pattern of drainage; the kinds of crops and native plants; and the kinds of bedrock. They observed and described many soil profiles. A soil profile is the sequence of natural layers, or horizons, in a soil. The profile extends from the surface down into the unconsolidated material in which the soil formed or from the surface down to bedrock. The unconsolidated material is devoid of roots and other living organisms and has not been changed by other biological activity. Currently, soils are mapped according to the boundaries of major land resource areas (MLRAs). MLRAs are geographically associated land resource units that share common characteristics related to physiography, geology, climate, water resources, soils, biological resources, and land uses (USDA, 2006). Soil survey areas typically consist of parts of one or more MLRA. The soils and miscellaneous areas in a survey area occur in an orderly pattern that is related to the geology, landforms, relief, climate, and natural vegetation of the area. Each kind of soil and miscellaneous area is associated with a particular kind of landform or with a segment of the landform. By observing the soils and miscellaneous areas in the survey area and relating their position to specific segments of the landform, a soil scientist develops a concept, or model, of how they were formed. Thus, during mapping, this model enables the soil scientist to predict with a considerable degree of accuracy the kind of soil or miscellaneous area at a specific location on the landscape. Commonly, individual soils on the landscape merge into one another as their characteristics gradually change. To construct an accurate soil map, however, soil scientists must determine the boundaries between the soils. They can observe only a limited number of soil profiles. Nevertheless, these observations, supplemented by an understanding of the soil-vegetation-landscape relationship, are sufficient to verify predictions of the kinds of soil in an area and to determine the boundaries. Soil scientists recorded the characteristics of the soil profiles that they studied. They noted soil color, texture, size and shape of soil aggregates, kind and amount of rock fragments, distribution of plant roots, reaction, and other features that enable them to identify soils. After describing the soils in the survey area and determining their properties, the soil scientists assigned the soils to taxonomic classes (units). Taxonomic classes are concepts. Each taxonomic class has a set of soil characteristics with precisely defined limits. The classes are used as a basis for comparison to classify soils systematically. Soil taxonomy, the system of taxonomic classification used in the United States, is based mainly on the kind and character of soil properties and the arrangement of horizons within the profile. After the soil 5 Custom Soil Resource Report scientists classified and named the soils in the survey area, they compared the individual soils with similar soils in the same taxonomic class in other areas so that they could confirm data and assemble additional data based on experience and research. The objective of soil mapping is not to delineate pure map unit components; the objective is to separate the landscape into landforms or landform segments that have similar use and management requirements. Each map unit is defined by a unique combination of soil components and/or miscellaneous areas in predictable proportions. Some components may be highly contrasting to the other components of the map unit. The presence of minor components in a map unit in no way diminishes the usefulness or accuracy of the data. The delineation of such landforms and landform segments on the map provides sufficient information for the development of resource plans. If intensive use of small areas is planned, onsite investigation is needed to define and locate the soils and miscellaneous areas. Soil scientists make many field observations in the process of producing a soil map. The frequency of observation is dependent upon several factors, including scale of mapping, intensity of mapping, design of map units, complexity of the landscape, and experience of the soil scientist. Observations are made to test and refine the soil-landscape model and predictions and to verify the classification of the soils at specific locations. Once the soil-landscape model is refined, a significantly smaller number of measurements of individual soil properties are made and recorded. These measurements may include field measurements, such as those for color, depth to bedrock, and texture, and laboratory measurements, such as those for content of sand, silt, clay, salt, and other components. Properties of each soil typically vary from one point to another across the landscape. Observations for map unit components are aggregated to develop ranges of characteristics for the components. The aggregated values are presented. Direct measurements do not exist for every property presented for every map unit component. Values for some properties are estimated from combinations of other properties. While a soil survey is in progress, samples of some of the soils in the area generally are collected for laboratory analyses and for engineering tests. Soil scientists interpret the data from these analyses and tests as well as the field-observed characteristics and the soil properties to determine the expected behavior of the soils under different uses. Interpretations for all of the soils are field tested through observation of the soils in different uses and under different levels of management. Some interpretations are modified to fit local conditions, and some new interpretations are developed to meet local needs. Data are assembled from other sources, such as research information, production records, and field experience of specialists. For example, data on crop yields under defined levels of management are assembled from farm records and from field or plot experiments on the same kinds of soil. Predictions about soil behavior are based not only on soil properties but also on such variables as climate and biological activity. Soil conditions are predictable over long periods of time, but they are not predictable from year to year. For example, soil scientists can predict with a fairly high degree of accuracy that a given soil will have a high water table within certain depths in most years, but they cannot predict that a high water table will always be at a specific level in the soil on a specific date. After soil scientists located and identified the significant natural bodies of soil in the survey area, they drew the boundaries of these bodies on aerial photographs and 6 Custom Soil Resource Report identified each as a specific map unit. Aerial photographs show trees, buildings, fields, roads, and rivers, all of which help in locating boundaries accurately. 7 Soil Map The soil map section includes the soil map for the defined area of interest, a list of soil map units on the map and extent of each map unit, and cartographic symbols displayed on the map. Also presented are various metadata about data used to produce the map, and a description of each soil map unit. 8 Custom Soil Resource Report N Soil Map N 713000 713100 713200 713300 713400 713500 713600 713700 713503 I 35°20'0"N 35°20'0"N N m §_Pilit . -- )Ir -r' rn R OMB . No. Ra F a 8 \ __ ,• § § GoA Yam.. iiiiii? r 8 /4° libir --so _F�eCkso Co rr, <MaA —8 II 411 • ' -' / ' -..Y'4•2/ itt4p—.1 'emuGawp�a ,. t5�daood tl , �Pgs. 1 j ,�► 35°19'25"N . r 35°19 25"N 713100 713200 713300 713400 713500 713600 713700 713800 3 3 a Map Scale:1:5,290 if printed on A portrait(8.5"x 11")sheet a, Meters m N 0 50 100 200 330 Feet M250 500 1000 1500 ap projection:Web Merea6�r Com oo er ordirlates:WG584 Edge tics:UTM Zone 17N WC�584 9 Custom Soil Resource Report MAP LEGEND MAP INFORMATION Area of Interest(AOI) 14 Spoil Area The soil surveys that comprise your AOI were mapped at Area of Interest(AOI) 1:24,000. Q Stony Spot Soilsit Very Stony Spot Soil Map Unit Polygons Warning:Soil Map may not be valid at this scale. Wet Spot ,..,. Soil Map Unit Lines Enlargement of maps beyond the scale of mapping can cause p Other misunderstandingof the detail of mapping and accuracyof soil p Soil Map Unit Points pp 9 .• Special Line Features line placement.The maps do not show the small areas of Special Point Features contrasting soils that could have been shown at a more detailed Blowout Water Features scale. -_- Streams and Canals kg Borrow Pit Transportation Please rely on the bar scale on each map sheet for map * clay Spot 1.44 Rails measurements. 0 Closed Depression o,/ Interstate Highways Gravel Pit Source of Map: Natural Resources Conservation Service .r US Routes Web Soil Survey URL: Gravelly Spot Major Roads Coordinate System: Web Mercator(EPSG:3857) ® Landfill Local Roads Maps from the Web Soil Survey are based on the Web Mercator • Lava Flow Background projection,which preserves direction and shape but distorts distance and area.A projection that preserves area,such as the 46 Marsh or swamp Aerial Photography Albers equal-area conic projection,should be used if more It Mine or Quarry accurate calculations of distance or area are required. 4 Miscellaneous Water This product is generated from the USDA-NRCS certified data as O Perennial Water of the version date(s)listed below. v Rock Outcrop Soil Survey Area: Harnett County,North Carolina + Saline Spot Survey Area Data: Version 20,Sep 8,2022 Sandy Spot Soil map units are labeled(as space allows)for map scales Severely Eroded Spot 1:50,000 or larger. • Sinkhole Date(s)aerial images were photographed: Apr 24,2022—May 31 Slide or Slip 9,2022 oa Sodic Spot The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps.As a result,some minor shifting of map unit boundaries may be evident. 10 Custom Soil Resource Report Map Unit Legend Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI Co Coxville loam 2.7 4.6% GoA Goldsboro loamy sand,0 to 2 6.8 11.6% percent slopes,Southern Coastal Plain MaA Marlboro sandy loam,0 to 2 1.0 1.7% percent slopes MaB Marlboro sandy loam,2 to 6 6.1 10.6% percent slopes NoA Norfolk loamy sand,0 to 2 18.3 31.5% percent slopes NoB Norfolk loamy sand,2 to 6 12.9 22.1 percent slopes OrB Orangeburg loamy sand,2 to 6 3.9 6.7% percent slopes Ra Rains sandy loam,0 to 2 6.5 11.2% percent slopes Totals for Area of Interest 58.1 100.0% Map Unit Descriptions The map units delineated on the detailed soil maps in a soil survey represent the soils or miscellaneous areas in the survey area. The map unit descriptions, along with the maps, can be used to determine the composition and properties of a unit. A map unit delineation on a soil map represents an area dominated by one or more major kinds of soil or miscellaneous areas. A map unit is identified and named according to the taxonomic classification of the dominant soils. Within a taxonomic class there are precisely defined limits for the properties of the soils. On the landscape, however, the soils are natural phenomena, and they have the characteristic variability of all natural phenomena. Thus, the range of some observed properties may extend beyond the limits defined for a taxonomic class. Areas of soils of a single taxonomic class rarely, if ever, can be mapped without including areas of other taxonomic classes. Consequently, every map unit is made up of the soils or miscellaneous areas for which it is named and some minor components that belong to taxonomic classes other than those of the major soils. Most minor soils have properties similar to those of the dominant soil or soils in the map unit, and thus they do not affect use and management. These are called noncontrasting, or similar, components. They may or may not be mentioned in a particular map unit description. Other minor components, however, have properties and behavioral characteristics divergent enough to affect use or to require different management. These are called contrasting, or dissimilar, components. They generally are in small areas and could not be mapped separately because of the scale used. Some small areas of strongly contrasting soils or miscellaneous areas 11 Custom Soil Resource Report are identified by a special symbol on the maps. If included in the database for a given area, the contrasting minor components are identified in the map unit descriptions along with some characteristics of each. A few areas of minor components may not have been observed, and consequently they are not mentioned in the descriptions, especially where the pattern was so complex that it was impractical to make enough observations to identify all the soils and miscellaneous areas on the landscape. The presence of minor components in a map unit in no way diminishes the usefulness or accuracy of the data. The objective of mapping is not to delineate pure taxonomic classes but rather to separate the landscape into landforms or landform segments that have similar use and management requirements. The delineation of such segments on the map provides sufficient information for the development of resource plans. If intensive use of small areas is planned, however, onsite investigation is needed to define and locate the soils and miscellaneous areas. An identifying symbol precedes the map unit name in the map unit descriptions. Each description includes general facts about the unit and gives important soil properties and qualities. Soils that have profiles that are almost alike make up a soil series. Except for differences in texture of the surface layer, all the soils of a series have major horizons that are similar in composition, thickness, and arrangement. Soils of one series can differ in texture of the surface layer, slope, stoniness, salinity, degree of erosion, and other characteristics that affect their use. On the basis of such differences, a soil series is divided into soil phases. Most of the areas shown on the detailed soil maps are phases of soil series. The name of a soil phase commonly indicates a feature that affects use or management. For example, Alpha silt loam, 0 to 2 percent slopes, is a phase of the Alpha series. Some map units are made up of two or more major soils or miscellaneous areas. These map units are complexes, associations, or undifferentiated groups. A complex consists of two or more soils or miscellaneous areas in such an intricate pattern or in such small areas that they cannot be shown separately on the maps. The pattern and proportion of the soils or miscellaneous areas are somewhat similar in all areas. Alpha-Beta complex, 0 to 6 percent slopes, is an example. An association is made up of two or more geographically associated soils or miscellaneous areas that are shown as one unit on the maps. Because of present or anticipated uses of the map units in the survey area, it was not considered practical or necessary to map the soils or miscellaneous areas separately. The pattern and relative proportion of the soils or miscellaneous areas are somewhat similar. Alpha-Beta association, 0 to 2 percent slopes, is an example. An undifferentiated group is made up of two or more soils or miscellaneous areas that could be mapped individually but are mapped as one unit because similar interpretations can be made for use and management. The pattern and proportion of the soils or miscellaneous areas in a mapped area are not uniform. An area can be made up of only one of the major soils or miscellaneous areas, or it can be made up of all of them. Alpha and Beta soils, 0 to 2 percent slopes, is an example. Some surveys include miscellaneous areas. Such areas have little or no soil material and support little or no vegetation. Rock outcrop is an example. 12 Custom Soil Resource Report Harnett County, North Carolina Co—Coxville loam Map Unit Setting National map unit symbol: 3sp4 Elevation: 80 to 330 feet Mean annual precipitation: 38 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 210 to 265 days Farmland classification: Farmland of statewide importance Map Unit Composition Coxville, drained, and similar soils: 85 percent Coxville, undrained, and similar soils: 10 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Coxville, Drained Setting Landform: Carolina bays, depressions Landform position (two-dimensional): Summit Down-slope shape: Concave Across-slope shape: Concave Parent material: Clayey marine deposits Typical profile Ap- 0 to 9 inches: loam Eg- 9 to 11 inches: loam Btg- 11 to 72 inches: sandy clay Cg- 72 to 80 inches: sandy clay loam Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high (0.20 to 0.57 in/hr) Depth to water table:About 0 to 12 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 7.6 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 3w Hydrologic Soil Group: C/D Hydric soil rating: Yes Description of Coxville, Undrained Setting Landform: Carolina bays, depressions Landform position (two-dimensional): Summit Down-slope shape: Concave 13 Custom Soil Resource Report Across-slope shape: Concave Parent material: Clayey marine deposits Typical profile A -0 to 9 inches: loam Eg- 9 to 11 inches: loam Btg- 11 to 72 inches: sandy clay Cg- 72 to 80 inches: sandy clay loam Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high (0.20 to 0.57 in/hr) Depth to water table:About 0 to 12 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 7.6 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 4w Hydrologic Soil Group: C/D Hydric soil rating: Yes GoA—Goldsboro loamy sand, 0 to 2 percent slopes, Southern Coastal Plain Map Unit Setting National map unit symbol: 2v750 Elevation: 130 to 270 feet Mean annual precipitation: 40 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 200 to 280 days Farmland classification: All areas are prime farmland Map Unit Composition Goldsboro and similar soils: 85 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Goldsboro Setting Landform: Broad interstream divides on marine terraces, flats on marine terraces Landform position (three-dimensional):Talf Down-slope shape: Linear Across-slope shape: Linear Parent material: Loamy marine deposits 14 Custom Soil Resource Report Typical profile Ap- 0 to 9 inches: loamy sand E-9 to 12 inches: loamy sand Bt- 12 to 62 inches: sandy clay loam Btg- 62 to 80 inches: sandy clay loam Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class: Moderately well drained Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table:About 24 to 36 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 8.1 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2w Hydrologic Soil Group: B Hydric soil rating: No MaA—Marlboro sandy loam, 0 to 2 percent slopes Map Unit Setting National map unit symbol: 3spv Elevation: 80 to 330 feet Mean annual precipitation: 38 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 210 to 265 days Farmland classification: All areas are prime farmland Map Unit Composition Marlboro and similar soils: 90 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Marlboro Setting Landform: Ridges on marine terraces, broad interstream divides on marine terraces Down-slope shape: Convex Across-slope shape: Linear Parent material: Clayey marine deposits Typical profile Ap- 0 to 10 inches: sandy loam Bt1 - 10 to 71 inches: sandy clay Bt2- 71 to 80 inches: sandy clay 15 Custom Soil Resource Report Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class:Well drained Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table:About 48 to 72 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: High (about 9.2 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 1 Hydrologic Soil Group: B Hydric soil rating: No MaB—Marlboro sandy loam, 2 to 6 percent slopes Map Unit Setting National map unit symbol: 3spw Elevation: 80 to 330 feet Mean annual precipitation: 38 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 210 to 265 days Farmland classification: All areas are prime farmland Map Unit Composition Marlboro and similar soils: 90 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Marlboro Setting Landform: Ridges on marine terraces, broad interstream divides on marine terraces Landform position (two-dimensional): Summit, shoulder Landform position (three-dimensional): Crest Down-slope shape: Convex Across-slope shape: Convex Parent material: Clayey marine deposits Typical profile Ap- 0 to 10 inches: sandy loam Bt1 - 10 to 71 inches: sandy clay Bt2- 71 to 80 inches: sandy clay Properties and qualities Slope: 2 to 6 percent Depth to restrictive feature: More than 80 inches Drainage class:Well drained 16 Custom Soil Resource Report Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table:About 48 to 72 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: High (about 9.2 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2e Hydrologic Soil Group: B Hydric soil rating: No NoA—Norfolk loamy sand, 0 to 2 percent slopes Map Unit Setting National map unit symbol: 2v75w Elevation: 10 to 330 feet Mean annual precipitation: 40 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 200 to 280 days Farmland classification: All areas are prime farmland Map Unit Composition Norfolk and similar soils: 83 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Norfolk Setting Landform: Flats on marine terraces, broad interstream divides on marine terraces Landform position (three-dimensional):Talf Down-slope shape: Convex, linear Across-slope shape: Convex, linear Parent material: Loamy marine deposits Typical profile Ap- 0 to 8 inches: loamy sand E- 8 to 14 inches: loamy sand Bt- 14 to 65 inches: sandy clay loam BC- 65 to 80 inches: sandy clay loam Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class:Well drained Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table:About 40 to 72 inches Frequency of flooding: None Frequency of ponding: None 17 Custom Soil Resource Report Available water supply, 0 to 60 inches: Moderate (about 6.9 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 1 Hydrologic Soil Group: A Hydric soil rating: No NoB—Norfolk loamy sand, 2 to 6 percent slopes Map Unit Setting National map unit symbol: 2v75y Elevation: 30 to 450 feet Mean annual precipitation: 40 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 200 to 280 days Farmland classification: All areas are prime farmland Map Unit Composition Norfolk and similar soils: 83 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Norfolk Setting Landform: Flats on marine terraces, broad interstream divides on marine terraces Landform position (three-dimensional):Talf Down-slope shape: Convex, linear Across-slope shape: Convex, linear Parent material: Loamy marine deposits Typical profile Ap- 0 to 8 inches: loamy sand E- 8 to 14 inches: loamy sand Bt- 14 to 65 inches: sandy clay loam BC- 65 to 80 inches: sandy clay loam Properties and qualities Slope: 2 to 6 percent Depth to restrictive feature: More than 80 inches Drainage class:Well drained Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table:About 40 to 72 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 6.9 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2e Hydrologic Soil Group: A Hydric soil rating: No 18 Custom Soil Resource Report OrB—Orangeburg loamy sand, 2 to 6 percent slopes Map Unit Setting National map unit symbol: 3sq4 Elevation: 80 to 330 feet Mean annual precipitation: 38 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 210 to 265 days Farmland classification: All areas are prime farmland Map Unit Composition Orangeburg and similar soils: 90 percent Minor components: 5 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Orangeburg Setting Landform: Ridges on marine terraces, broad interstream divides on marine terraces Landform position (two-dimensional): Summit, shoulder Landform position (three-dimensional): Crest Down-slope shape: Convex Across-slope shape: Convex Parent material: Loamy marine deposits Typical profile Ap- 0 to 7 inches: loamy sand BA - 7 to 12 inches: sandy loam Bt1 - 12 to 54 inches: sandy clay loam Bt2-54 to 80 inches: sandy clay loam Properties and qualities Slope: 2 to 6 percent Depth to restrictive feature: More than 80 inches Drainage class:Well drained Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 7.3 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2e Hydrologic Soil Group: A Hydric soil rating: No 19 Custom Soil Resource Report Minor Components Bibb, undrained Percent of map unit: 3 percent Landform: Flood plains Landform position (two-dimensional):Toeslope Down-slope shape: Concave Across-slope shape: Linear Hydric soil rating: Yes Johnston, undrained Percent of map unit:2 percent Landform: Flood plains Down-slope shape: Concave Across-slope shape: Linear Hydric soil rating: Yes Ra—Rains sandy loam, 0 to 2 percent slopes Map Unit Setting National map unit symbol: 2v760 Elevation: 30 to 330 feet Mean annual precipitation: 40 to 55 inches Mean annual air temperature: 59 to 70 degrees F Frost-free period: 200 to 280 days Farmland classification: Prime farmland if drained Map Unit Composition Rains, undrained, and similar soils: 58 percent Rains, drained, and similar soils:24 percent Minor components: 8 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Rains, Undrained Setting Landform: Flats on marine terraces, broad interstream divides on marine terraces, carolina bays on marine terraces Landform position (three-dimensional): Dip, talf Down-slope shape: Linear Across-slope shape: Linear Parent material: Loamy marine deposits Typical profile A -0 to 6 inches: sandy loam Eg- 6 to 12 inches: sandy loam Btg- 12 to 65 inches: sandy clay loam BCg- 65 to 80 inches: sandy clay loam 20 Custom Soil Resource Report Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.20 to 1.98 in/hr) Depth to water table:About 0 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 7.9 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 4w Hydrologic Soil Group: A/D Hydric soil rating: Yes Description of Rains, Drained Setting Landform: Flats on marine terraces, broad interstream divides on marine terraces, carolina bays on marine terraces Landform position (three-dimensional): Dip, talf Down-slope shape: Linear Across-slope shape: Linear Parent material: Loamy marine deposits Typical profile Ap- 0 to 6 inches: sandy loam Eg- 6 to 12 inches: sandy loam Btg- 12 to 65 inches: sandy clay loam BCg- 65 to 80 inches: sandy clay loam Properties and qualities Slope: 0 to 2 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Capacity of the most limiting layer to transmit water(Ksat): Moderately high to high (0.20 to 1.98 in/hr) Depth to water table:About 12 to 36 inches Frequency of flooding: None Frequency of ponding: None Available water supply, 0 to 60 inches: Moderate (about 7.9 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 3w Hydrologic Soil Group: B Hydric soil rating: Yes Minor Components Pantego, undrained Percent of map unit: 8 percent Landform: Broad interstream divides, flats, stream terraces Landform position (three-dimensional):Tread, talf Down-slope shape: Linear 21 Custom Soil Resource Report Across-slope shape: Concave Hydric soil rating: Yes 22 Soil Information for All Uses Soil Properties and Qualities The Soil Properties and Qualities section includes various soil properties and qualities displayed as thematic maps with a summary table for the soil map units in the selected area of interest. A single value or rating for each map unit is generated by aggregating the interpretive ratings of individual map unit components. This aggregation process is defined for each property or quality. Soil Qualities and Features Soil qualities are behavior and performance attributes that are not directly measured, but are inferred from observations of dynamic conditions and from soil properties. Example soil qualities include natural drainage, and frost action. Soil features are attributes that are not directly part of the soil. Example soil features include slope and depth to restrictive layer. These features can greatly impact the use and management of the soil. Hydrologic Soil Group Hydrologic soil groups are based on estimates of runoff potential. Soils are assigned to one of four groups according to the rate of water infiltration when the soils are not protected by vegetation, are thoroughly wet, and receive precipitation from long-duration storms. The soils in the United States are assigned to four groups (A, B, C, and D) and three dual classes (A/D, B/D, and C/D). The groups are defined as follows: Group A. Soils having a high infiltration rate (low runoff potential)when thoroughly wet. These consist mainly of deep, well drained to excessively drained sands or gravelly sands. These soils have a high rate of water transmission. Group B. Soils having a moderate infiltration rate when thoroughly wet. These consist chiefly of moderately deep or deep, moderately well drained or well drained soils that have moderately fine texture to moderately coarse texture. These soils have a moderate rate of water transmission. 23 Custom Soil Resource Report Group C. Soils having a slow infiltration rate when thoroughly wet. These consist chiefly of soils having a layer that impedes the downward movement of water or soils of moderately fine texture or fine texture. These soils have a slow rate of water transmission. Group D. Soils having a very slow infiltration rate (high runoff potential)when thoroughly wet. These consist chiefly of clays that have a high shrink-swell potential, soils that have a high water table, soils that have a claypan or clay layer at or near the surface, and soils that are shallow over nearly impervious material. These soils have a very slow rate of water transmission. If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D), the first letter is for drained areas and the second is for undrained areas. Only the soils that in their natural condition are in group D are assigned to dual classes. 24 Custom Soil Resource Report N Map—Hydrologic Soil Group N 713000 713100 713200 713300 713400 713500 713600 713700 713503 35°20'0"N I35°20'0"N N _ C r - - w pN3 M M M a'A _ 1, : aB M e t r— - 4,. CC NoB . . Ra i 8 N F., 8 c-, \ —N_ 11.1.4.C/'U R MaB § GoA .= \ "-,, )P.1111Pir.a'-''.----.E*' FVeCk CEO '-11 t 8 Sin'%, e@AT1 Gawp GJa 0 b�da001 tl - cgs. 1t^ 35°19'25"N y r8 35°19 25"N 713100 713200 713300 713400 713500 713600 713700 713800 3 3 a Map Scale:1:5,290 if printed on A portrait(8.5"x 11")sheet a, " Meters m N 0 50 100 200 300 Feet M250 500 1000 1500 ap projection:Web Merea6�r Com oo er ordirlates:WG584 Edge tics:UTM Zone 17N WC�584 25 Custom Soil Resource Report MAP LEGEND MAP INFORMATION Area of Interest(AOI) 0 C The soil surveys that comprise your AOI were mapped at Area of Interest(AOI) CID 1:24,000. Soils D Soil Rating Polygons Warning:Soil Map may not be valid at this scale. A 0 Not rated or not available Enlargement of maps beyond the scale of mapping can cause I Water Features A/D misunderstanding of the detail of mapping and accuracy of soil 1 Streams and Canals line placement.The maps do not show the small areas of I I B Transportation contrasting soils that could have been shown at a more detailed I B/D scale. 1-FF Rails I C ^,/ Interstate Highways C/D Please rely on the bar scale on each map sheet for map ti US Routes measurements. D Major Roads Not rated or not available Source of Map: Natural Resources Conservation Service Local Roads Web Soil Survey URL: Soil Rating Lines Background Coordinate System: Web Mercator(EPSG:3857) • Ael Aerial Photography Maps from the Web Soil Survey are based on the Web Mercator . • A/D projection,which preserves direction and shape but distorts • B distance and area.A projection that preserves area,such as the Albers equal-area conic projection,should be used if more ....we B/D accurate calculations of distance or area are required. ✓ w c This product is generated from the USDA-NRCS certified data as • r C/D of the version date(s)listed below. . r D Soil Survey Area: Harnett County,North Carolina • Not rated or not available Survey Area Data: Version 20,Sep 8,2022 Soil Rating Points A Soil map units are labeled(as space allows)for map scales 1:50,000 or larger. ▪ A/D ▪ B Date(s)aerial images were photographed: Apr 24,2022—May 9,2022 ▪ B/D The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps.As a result,some minor shifting of map unit boundaries may be evident. 26 Custom Soil Resource Report Table—Hydrologic Soil Group Map unit symbol Map unit name Rating Acres in AOI Percent of AOI Co Coxville loam C/D 2.7 4.6% GoA Goldsboro loamy sand,0 B 6.8 11.6% to 2 percent slopes, Southern Coastal Plain MaA Marlboro sandy loam,0 B 1.0 1.7% to 2 percent slopes MaB Marlboro sandy loam,2 B 6.1 10.6% to 6 percent slopes NoA Norfolk loamy sand,0 to A 18.3 31.5% 2 percent slopes NoB Norfolk loamy sand,2 to A 12.9 22.1% 6 percent slopes OrB Orangeburg loamy sand, A 3.9 6.7% 2 to 6 percent slopes Ra Rains sandy loam,0 to 2 ND 6.5 11.2% percent slopes Totals for Area of Interest 58.1 100.0% Rating Options—Hydrologic Soil Group Aggregation Method: Dominant Condition Component Percent Cutoff- None Specified Tie-break Rule: Higher 27 References American Association of State Highway and Transportation Officials (AASHTO). 2004. Standard specifications for transportation materials and methods of sampling and testing. 24th edition. American Society for Testing and Materials (ASTM). 2005. Standard classification of soils for engineering purposes. ASTM Standard D2487-00. Cowardin, L.M., V. Carter, F.C. Golet, and E.T. LaRoe. 1979. Classification of wetlands and deep-water habitats of the United States. U.S. Fish and Wildlife Service FWS/OBS-79/31. Federal Register. July 13, 1994. Changes in hydric soils of the United States. Federal Register. September 18, 2002. Hydric soils of the United States. Hurt, G.W., and L.M. Vasilas, editors. Version 6.0, 2006. Field indicators of hydric soils in the United States. National Research Council. 1995. Wetlands: Characteristics and boundaries. Soil Survey Division Staff. 1993. Soil survey manual. Soil Conservation Service. U.S. Department of Agriculture Handbook 18. http://www.nres.usda.gov/wps/portal/ nres/detail/national/soils/?cid=nres 142p2_054262 Soil Survey Staff. 1999. Soil taxonomy: A basic system of soil classification for making and interpreting soil surveys. 2nd edition. Natural Resources Conservation Service, U.S. Department of Agriculture Handbook 436. http:// www.nres.usda.gov/wps/portal/nres/detail/national/soils/?cid=nres142p2_053577 Soil Survey Staff. 2010. Keys to soil taxonomy. 11th edition. U.S. Department of Agriculture, Natural Resources Conservation Service. http:// www.nres.usda.gov/wps/portal/nres/detail/national/soils/?cid=nres142p2_053580 Tiner, R.W., Jr. 1985. Wetlands of Delaware. U.S. Fish and Wildlife Service and Delaware Department of Natural Resources and Environmental Control, Wetlands Section. United States Army Corps of Engineers, Environmental Laboratory. 1987. Corps of Engineers wetlands delineation manual. Waterways Experiment Station Technical Report Y-87-1. United States Department of Agriculture, Natural Resources Conservation Service. National forestry manual. http://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/ home/?cid=nres142p2_053374 United States Department of Agriculture, Natural Resources Conservation Service. National range and pasture handbook. http://www.nres.usda.gov/wps/portal/nres/ detail/national/landuse/rangepasture/?cid=stelprdb1043084 28 Custom Soil Resource Report United States Department of Agriculture, Natural Resources Conservation Service. National soil survey handbook, title 430-VI. http://www.nres.usda.gov/wps/portal/ nres/detail/soils/scientists/?cid=nres142p2_054242 United States Department of Agriculture, Natural Resources Conservation Service. 2006. Land resource regions and major land resource areas of the United States, the Caribbean, and the Pacific Basin. U.S. Department of Agriculture Handbook 296. http://www.nres.usda.gov/wps/portal/nres/detail/national/soils/? cid=nres142p2_053624 United States Department of Agriculture, Soil Conservation Service. 1961. Land capability classification. U.S. Department of Agriculture Handbook 210. http:// www.nrcs.usda.gov/Internet/FSE_DOCUMENTS/nrcs142p2_052290.pdf 29 SUPPORTING DOCUMENTS FEMA Flood Map 2100000 FEET 2120000 FEET 580000 FEET 78139'301W 78139(01W 78'38.30"W 78°38'0"W 78°37'30"W 78'37'0"W 78'36'30"W 78136(01W 580000 FEET 35°20'30"N' '. .. - can�°e�n O 35`20'30"N to 9 If]• .r -. 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F.F °„/nr.em 9 o�" ems^ '�EZ0540�y = L a rs ace sw co 35`18.r N an Rd ( k(1 `rya r v v v aoc ail - dons 35`18'30'N �Y (' -71N ( a e'v 2 F-F9 F a O6 M 4 - EZ0541k °nsr a e.+c"°v TOWNOF '---� ,'°AI t � �� EZ0542°� z°� ERWIN Eli 370d456 L. risen ran as , 3Fca x g�nen cir CITY OF e •y, o °° e°„ 91 Fo,. coo a r �s DUN �� •� y G°a n'�-wr ° e., °"s, sx,370264 �' p K'o k° r y° ,rxs" i. _ \ a• -...� a aou n,,Tyr h,,,,, ° EZ0381 '"°^°s 3Fa� ?qua ¢° 5 r \` AIL / o �¢ y EZ0543j°` FCOOwnF,F°r o s��^ 3 • CITY OF ` ' a5°18'g••N 35`18'0"N — ` ZONE AE F v' / —1666_ A DUNN ETJ "wn sf i a �� f 370264 ea'r _I -J of` w Ao/ Se i k r o ss a • r. �, air n��.,r ms • 1 CITY 69 OF DUN 4 f� 11'AS �$ m �16sb \ ,, 370264 h HARNE l © NTY -' t } UNINBO OOd3A E ,,,,ARFAk / \ �, _ .If _ _ °Y r+... °°" `' EZ0544 8 • Y-' r. 35°i]30"N 0530 ,`; /- Jag ',t ° Aston '"r �1.� �\ R 35117'30"N DM q f'c Oorn r r 61 O. 4,..ste'j0.;,,5"5:Or • 560000 FEET .. ; t �, o s+rSfr 560000 FEET 78°39'30" W W 78°39'0" 78°38'30"W 78'36590 78.3730"W 7a"37'6"W 7036'30W 76'390"W 2100000 FEET 2120000 FEET 1y 0,111,1 l',IRW.I.v.I crating Technical Slate This digital Flood Insurance Rate Map(FIRM)was produced through a unique cooperative partnership between the State of North Carolina and the Federal Emergency Management Agency(FEMA). The State of North Carolina has implemented a long term approach to floodplain management to decrease the costs associated with flooding.This is demonstrated by the States commitment to map flood hazard areas at the local level.Asa part of this effort,the State of North Carolina has joined in a Cooperating Technical State agreement with FEMA to produce and maintain this digital FIRM. FLOOD HAZARD INFORMATION NOTES TO USERS SCALE NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM SEE FIS REPORT FOR ZONE DESCRIPTIONS AND INDEX MAP For information and questions about this map,available products associated with this FIRM including MapPrejec tail: = NATIONAL FLOOD INSURANCE PROGRAM historic versions of this FIRM,how to order products or the National Flood Insurance Program in general, J ( ) -'OOD INSURANCE RATE MAP THE INFORMATION DEPICTED ON THIS MAP AND SUPPORTING e North Carolina State Plane Projection Feet Zone 3200 please call the FEMA Map Information eXchange at 1-8]]-FEMA-MAP(1-877-336-2627)re visit the FEMA Map Datum:NAD 1983(Horizontal),NAVD 1988 Vertical DOCUMENTATION ARE ALSO AVAILABLE IN DIGITAL FORMAT AT Service Center websiteathtVemsefema.gov.An accompanying Flood Insurance Study report,Letter of Map ) Revision(LOMR)or Letter of Map Amendment(LOMA)revising portions of this panel,and digital versions of this HTTP://FRIS.NC.GOV/FRIS FIRM may be available.Visit the North Carolina LOMFloodplain Mapping Program websileat hltp://www.ncfloodmaps.com bl0 NORTH CAROLINA ETMrM or contact the FEMA Map Service Center. 1 inch=1,000 feet 1:12,000 0 o�4 A Without Base Flood Elevation(BFE) ,// o \ ` Communities annexing land on adjacent FIRM panels must obtain a current copy of the adjacent panel as well as 0 500 .�000 2,000 L 1 r Zone A,V,A99 the current FIRM Index.These may be ordered directly from the Map Service Center at the number listed above. PANEL 150 V CC With BFE Of Depth Zone AE,A0,AH,VE,AR Feet T 1 4FGxo 56' For community and countywide map dates refer to the Flood Insurance Study report for this jurisdiction. Meters SPECIAL FLOOD .,., Regulatory Floodway To determine if flood insurance is available in the community,contact your Insurance agent or call the National 0 150 300 600 FE M AHAZARD AREAS Flood Insurance Program at v600-638-6620. 4'i CCJ 0.2%Annual Chance Flood Hazard,Areas Base map information shown on this FIRM was prodded in digital format by the North Carolina Floodplain Mapping Program(NCFMP).The source of this information can be detrained from the metadata available in the PANEL LOCATOR es -, as Panel Contains: of 1%Annual Chance Flood with Average digital FLOOD database and in the Technical Support Data Notebook(TSDN). Depth Less Than One Foot or With Drainage ACCREDITED LEVEE NOTES TO USERS:H an accredited levee note appears on this panel check with your local COMMUNITY CID PANEL SUFFIX Areas of Less Than One Square Mile zone x community to obtain more information,such as the estimated level of protection provided(which may exceed the f^ DUNN,CITY OF 370264 1506 J 1-Percent-annual-chance level)and Emergency Action Plan,on the levee syslem(e(shown as Providing Protection. n x v/ ERWIN,TOWN OF 370456 1506 J Future Conditions 1%Annual To mitigate flood risk In residual dsk areas,property owners and residents are encouraged to consider flood = HARNETT COUNTY 370328 1506 J insurance and floodproofing or other protective measures.For more information on flood insurance,interested Chance Flood Hazard zone X parties should visit the FEMA Website at http://www.fema.gov/business/nfip(mdex.shtm. CHATHAM MANY AREAS OF — Area with Reduced Flood Risk due to Levee PROVISIONALLY ACCREDITED LEVEE NOTES TO USERS:Ife Provisionally Accredited Levee(PAL)note WAKECOUNTY FLOOD HAZARD appears on this panel,check with your local community to obtain more information,such as the estimated level of CDSee Notes zone x protection provided(which may exceed the 1-percent-annual-chance level)and Emergency Action Plan,on the OTHER Areas Determined to be Outside the levee system(s)shown as providing protection.To maintain accreditation,the levee owner or community is required to submit the data and documentation necessary to comply with Section 65.10 of the NFIP regulations. I = Q AREAS 0.2%Annual Chance Floodplain zone x If the community or owner does not provide the necessary data and documentation or if the data and documentation � provided Indicates the levee system does not comply with Section 65.10 requirements,FEMA will revise the floodEME 1 r Channel,Culvert,or Storm Sewer hazard and risk information for this area to retlect de-accredeakon of the levee system.To mitigate flood risk in 11111l11t::3.!4 JOHNSTON COUNTY li residual risk areas,property owners and residents are encouraged to consider flood insurance and floodprooting 1'YYI'1'iiilY'YWYi Accredited or Provisionally Accredited or other protective measures.For more information on flood insurance,interested pekes should visit the FEMA ��®®®�� Website al MO//www.fema.gov/bueness/nfipindex.shm. LEE COUNTY GENERAL Levee,Dike,or Floodwall LIMIT OF MODERATE WAVE ACTION NOTES TO USERS:For some coastal floodingthe AE Zone zones - '' ' CIE! ' - STRUCTURES ,',',..,.,.,, Non-accredited Levee,Dike,or Floodwall category has been divided by a Limit of Moderate Wave Action(LiMWA).The LiMWA represents the approximate el landward limit of the 1.5-foot breaking wave.The effect of wave hazards between the VE Zone and the LIMWA BM5510 x North Carolina Geodetic Survey bench mark (r between the shoreline and the LlMWAfor areas where VE Zones are not Identified)will be similar to,but less than those In the VE Zone. ®®�� �. BM5510® National Geodetic Survey bench mark severe ©� � ,:. �� C6 BM551o® Contractor Est.NCFMP Survey bench mark Limit of Moderate Wave Action(LiMWA) ���� Z COASTAL BARRIER RESOURCES SYSTEM CBRS NOTE EIM�����1:111® gno, l apt dl,2—Cross Sections with 1%Annual Chance I ) Water Surface Elevation BFE1 This map mthinCBdeapeasfor teboundariesrestatare the wBRS for isubstantiall pimposes only.rovedonoraforiheuate(s) rot ���®®®��� 96@4 1s64 ( `/ available within CBRS areas for to s that are newly built or substantially improved on or Flood the date(s) 111 _ indicated on the map.For more information see http://www.fwe.gov/habitatconservation/coastal barier.html,the as Coastal Transect FIS Report,or call the U.S.Fish and Wildlife Service Customer Service Center at 1-800-344-WILD. I,r�N�, I �yy '‘`',A ®�oso®liiill'rfii CoastalTransectBaseline \���\I CBRS Area '/;A Otherwise Protected Area ,` bisal Profile Baseline CUMBERLANDCOUNTY SAMPSON COUNTY J��/=Ater xOKECOUNTY 79 , MAP NUMBER Hydrographic Feature OTHER Limit of Study g J 3720150600J FEATURES Jurisdiction Boundary 10/03/06 SUPPORTING DOCUMENTS NOAA Precipitation Data 3/20/23, 11:53 AM Precipitation Frequency Data Server NOAA Atlas 14,Volume 2,Version 3 DUNN 4 NW Station ID:31-2500 °` Location name: Erwin,North Carolina, USA* , '"* Latitude:35.3247°,Longitude: -78.6881° - nun Elevation: . i „, Elevation(station metadata):200 ft** k M^Mt *source:ESRI Maps **source:USGS POINT PRECIPITATION FREQUENCY ESTIMATES G.M.Bonnin,D.Martin,B.Lin,T.Parzybok,M.Yekta,and D.Riley NOAA,National Weather Service,Silver Spring,Maryland PF tabular I PF graphical I Maps & aerials PF tabular PDS-based point precipitation frequency estimates with 90% confidence intervals (in inches)1 Average recurrence interval(years) Duration 1 2 5 10 25 50 100 200 500 1000 5-min 0.437 0.513 0.594 0.659 1 0.734 1 0.791 0.844 0.894 I 0.954 1.00 (0.399-0.481) (0.470-0.565) (0.543-0.653) (0.601-0.724) (0.667-0.805) (0.716-0.866) (0.759-0.924) (0.800-0.978) (0.846-1.04) (0.883-1.10) 10-min 0.697 0.821 0.951 I 1.06 1.17 1.26 I 1.34 I 1.42 1.51 1.58 (0.637-0.768) (0.751-0.903) (0.869-1.05) (0.962-1.16) (1.06-1.28) (1.14-1.38) (1.21-1.47) (1.27-1.55) (1.34-1.65) (1.39-1.74) 15-min 0.872 1.03 1.20 1.33 1 1.48 1.59 1.70 1.79 1.90 1.99 (0.796-0.959) (0.945-1.14) (1.10-1.32) (1.22-1.47) (1.35-1.63) (1.44-1.75) (1.53-1.86) (1.60-1.96) (1.68-2.08) (1.75-2.18) 30-min 1.20 1.43 1.71 1.93 2.20 2.40 2.60 2.78 3.02 3.22 (1.09-1.32) (1.31-1.57) (1.56-1.88) I (1.76-2.12) (2.00-2.41) (2.17-2.63) 1 (2.34-2.84) I (2.49-3.05) 1 (2.68-3.31) (2.83-3.53) 60-min 1.49 1.79 2.19 2.52 2.93 3.25 I 3.58 3.90 I 4.34 4.69 (1.36-1.64)_ (1.64-1.97) (2.00-2.41) (2.30-2.76) (2.66-3.21) (2.95-3.56) (3.22-3.91) (3.49-4.27) (3.84-4.75) (4.13-5.15) 2-h r 1.75 2.12 2.63 3.06 3.63 4.09 4.56 5.06 5.72 6.29 (1.58-1.96) (1.91-2.36) (2.38-2.93) (2.76-3.41) (3.24-4.04) (3.65-4.55) (4.04-5.07) (4.45-5.61) (4.98-6.35) (5.43-6.99) 3-hr 1.86 I 2.25 2.81 3.29 3.94 4.49 5.07 5.68 6.53 7.28 (1.68-2.08)] (2.03-2.51) (2.54-3.14) (2.97-3.67) (3.53-4.39) I (4.00-5.01) I (4.47-5.64) I (4.97-6.32) (5.65-7.27) (6.23-8.10) 6-hr 2.22 2.68 3.35 3.94 4.73 5.41 I 6.13 6.89 7.97 8.91 (2.02-2.47)_ (2.44-2.98) (3.04-3.72) (3.56-4.37) (4.25-5.24) (4.83-5.98) (5.41-6.76) (6.03-7.59) (6.88-8.79) (7.60-9.84) 12-hr 2.61 3.15 3.96 4.68 5.67 6.52 7.42 8.41 9.82 11.1 (2.36-2.91) (2.86-3.51) (3.58-4.42) (4.21-5.21) (5.06-6.28) (5.78-7.22) (6.51-8.21) (7.29-9.29) (8.38-10.8) (9.30-12.2) 24-hr 3.05 I 3.70 4.74 5.58 6.75 7.72 8.73 9.80 11.3 12.5 (2.78-3.35) i (3.38-4.07) (4.31-5.22) (5.06-6.13) (6.10-7.42) (6.95-8.48) I (7.83-9.59) (8.75-10.8) (10.0-12.5) (11.1-13.8) 2-day 3.57 4.32 5.49 I 6.42 7.73 8.81 9.93 11.1 12.8 14.2 (3.26-3.90) (3.95-4.71) (5.01-5.99) (5.85-7.01) (7.01-8.44) (7.94-9.62) (8.92-10.9) (9.93-12.2) (11.4-14.1) (12.5-15.6) 3-day 3.80 4.59 5.79 6.76 8.10 9.19 10.3 11.5 13.2 14.6 (3.49-4.13) (4.22-4.99) (5.31-6.29) (6.18-7.33) (7.37-8.79) (8.33-9.98) (9.32-11.2) (10.4-12.6) (11.8-14.5) (13.0-16.0) 4-day 4.03 4.86 6.10 7.09 8.47 9.58 10.7 12.0 13.7 15.1 (3.73-4.36) (4.49-5.26) (5.62-6.60) (6.51-7.65) (7.73-9.14) (8.72-10.3) (9.73-11.6) (10.8-13.0) (12.3-14.9) (13.4-16.4) 7-day 4.67 5.60 6.95 8.02 I 9.49 10.7 I 11.9 13.2 15.0 16.4 (4.30-5.07) (5.16-6.09) (6.39-7.56) (7.34-8.70) (8.66-10.3) (9.72-11.6) (10.8-12.9) (11.9-14.3) (13.4-16.3) (14.6-17.9) 10-day 5.33 6.38 7.78 8.87 10.4 11.5 12.7 I 14.0 15.6 17.0 (4.97-5.72) (5.94-6.85) (7.23-8.36) (8.22-9.52) (9.56-11.1) (10.6-12.4) (11.7-13.7) (12.8-15.0) (14.2-16.9) (15.4-18.3) 20-day 7.18 8.53 10.2 11.6 13.4 14.8 16.2 17.7 19.7 21.3 (6.68-7.72) (7.94-9.17) (9.51-11.0) (10.7-12.4) (12.4-14.4) (13.7-15.9) (14.9-17.5) (16.2-19.1) (18.0-21.2) (19.3-23.0) 30-day 8.95 10.6 12.5 13.9 15.9 17.3 18.8 20.3 22.3 23.8 (8.34-9.63) (9.86-11.4) (11.6-13.4) (12.9-15.0) (14.7-17.1) (16.0-18.7) (17.4-20.2) I (18.7-21.8) (20.4-24.0) (21.7-25.7) 45-day 11.4 13.4 15.5 17.2 19.3 20.9 22.5 24.1 26.2 I 27.8 (10.7-12.1) (12.6-14.3)i (14.6-16.6) I (16.1-18.4) (18.0-20.6) (19.5-22.4) , (21.0-24.1) (22.4-25.8) (24.2-28.1)1 (25.6-29.9) 60-day 13.6 16.0 18.4 20.2 22.5 24.3 26.0 27.7 29.9 31.6 (12.8-14.5) (15.0-17.0) (17.3-19.6) (18.9-21.5) (21.1-24.0) (22.7-25.9) (24.3-27.8) (25.8-29.6) (27.8-32.0) (29.2-33.9) 1 Precipitation frequency(PF)estimates in this table are based on frequency analysis of partial duration series(PDS). Numbers in parenthesis are PF estimates at lower and upper bounds of the 90%confidence interval.The probability that precipitation frequency estimates (for a given duration and average recurrence interval)will be greater than the upper bound(or less than the lower bound)is 5%.Estimates at upper bounds are not checked against probable maximum precipitation(PMP)estimates and may be higher than currently valid PMP values. Please refer to NOAA Atlas 14 document for more information. Back to Top PF graphical https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?st=nc&sta=31-2500&data=depth&units=english&series=pds 1/4 3/20/23, 11:53 AM Precipitation Frequency Data Server PDS-based depth-duration-frequency (DDF) curves Latitude: 35.3247°, Longitude: -78.6881° 35 I 1 Average recurrence 30 interval (years) 25 — 1 - 2 a a) 20 -• - — 5 c — 10 o 0 15 - — 2 5 'a — 50 10 -.-. . — 100 - o_ — 200 500 — 1000 -E .E •E E E L L ',cry L . r0 2 /0 N 40 l0 l0 2 40 � N f11 lb N � � �� � � � � UI O0 UI M 6 r-1 N N A 4 I4. O N O Tr 0D Duration 35 I 30 - S 25 - Duration -c a v 20 - — 5-min — 2-day — 10-min — 3-day c 15-min — 4-day 0 15 - — 30-min — 7-day a ----- — 60-min — 10-day a 10 - • - — 2-nr — 20-day 3-hr — 30-day 5 • — 6-nr — 45-day — 12-hr — 60-day 0 ~ r -t i- 1 1 I I — 24-hr 1 2 5 10 25 50 100 200 500 1000 Average recurrence interval (years) NOAA Atlas 14,Volume 2,Version 3 Created(GMT): Mon Mar 20 15:53:39 2023 Back to Top Maps & aerials Small scale terrain https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?st=nc&sta=31-2500&data=depth&units=english&series=pds 2/4 3/20/23, 11:53 AM Precipitation Frequency Data Server • ' cA w CU61saun' aasonB/yC I ` ni�4.%. � • I I 3km i 2mi • Large scale terrain tO -SaI e 0 n ni • . Durham Rocky MountGreensboro • Raleigh 4 • .T H C A R O L I N A ' Greenville -11 11 Q _._ Charlotte I Fayetteville. - • Jacks A - 100km Wilmington Uaslow • Bay i 60mi Large scale map i 7} IF tinston-6alem Gt—t, I„ I <% Durham o ocky Mount Raleigh North Greenville Carolina ' had one • mom Fayetteville \ a Jacks. ± 100km Wilmington dotal 60mi rra Large scale aerial https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?st=nc&sta=31-2500&data=depth&units=english&series=pds 3/4 3/20/23, 11:53 AM Precipitation Frequency Data Server inston-Salem Greensboro Durham . Rocky Mount • Raleigh • Greenville North • Carolin a Charlotte • Fayetteville • Jackso 100km Wilmington • 60mi Back to Top US Department of Commerce National Oceanic and Atmospheric Administration National Weather Service National Water Center 1325 East West Highway Silver Spring,MD 20910 Questions?:HDSC.Questions@noaa.gov Disclaimer https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?st=nc&sta=31-2500&data=depth&units=english&series=pds 4/4 3/20/23, 11:54 AM Precipitation Frequency Data Server NOAA Atlas 14,Volume 2,Version 3 iopci.-° Location name: Erwin,North Carolina, USA* . V t Latitude:35.3247°,Longitude: -78.6881° a none Elevation:mitt**?os�a Es o,ram source:ESRI Maps "w �.'� **source:USGS "`""`' POINT PRECIPITATION FREQUENCY ESTIMATES G.M.Bonnin,D.Martin,B.Lin,T.Parzybok,M.Yekta,and D.Riley NOAA,National Weather Service,Silver Spring,Maryland PF tabular I PF graphical I Maps & aerials PF tabular PDS-based point precipitation frequency estimates with 90% confidence intervals (in inches/hour)1 Average recurrence interval(years) Duration 1 2 5 10 25 50 100 - 200 500 1000 5-min 5.24 6.16 7.13 7.91 8.81 9.49 10.1 10.7 11.4 12.1 (4.79-5.77) (5.64-6.78) (6.52-7.84) (7.21-8.69) (8.00-9.66) (8.59-10.4) (9.11-11.1) (9.60-11.7) (10.2-12.5) (10.6-13.2) 10-min 4.18 4.93 5.71 6.33 7.02 7.55 8.05 8.50 9.05 1 9.49 (3.82-4.61) (4.51-5.42) (5.21-6.28) (5.77-6.95) i (6.37-7.70) (6.84-8.27) (7.24-8.81) (7.61-9.31) (8.03-9.91) (8.35-10.4) 15-min 3.49 4.13 4.81 5.34 5.93 6.38 6.78 7.15 7.60 7.94 (3.18-3.84) (3.78-4.54) (4.40-5.29) (4.86-5.86) (5.39-6.50) (5.77-6.98) (6.10-7.42) (6.40-7.83) (6.74-8.32) (6.98-8.71) 30-min 2.39 2.85 3.42 3.87 4.39 4.80 5.20 5.57 6.05 6.43 (2.18-2.63) (2.61-3.14) (3.12-3.76) (3.53-4.25) (3.99-4.82) _(4.35-5.26) (4.67-5.68) (4.98-6.09) (5.36-6.62) (5.65-7.05) 60-min 1.49 1.79 2.19 2.52 2.93 3.25 3.58 3.90 4.34 4.69 (1.36-1.64) (1.64-1.97) (2.00-2.41) (2.30-2.76)J (2.66-3.21) I (2.95-3.56) (3.22-3.91) (3.49-4.27) (3.84-4.75) I (4.13-5.15) 2-hr 0.874 1.06 1.32 1.53 1.81 2.05 2.28 2.53 2.86 3.14 (0.790-0.978) (0.957-1.18) (1.19-1.47) (1.38-1.70) (1.62-2.02) (1.82-2.28) (2.02-2.54) (2.22-2.81) (2.49-3.18) (2.71-3.50) 3-hr 0.618 0.748 0.934 1.10 1.31 1.50 1.69 1.89 2.18 2.42 (0.560-0.693) (0.677-0.836) (0.844-1.05) (0.988-1.22) (1.18-1.46) (1.33-1.67) (1.49-1.88) (1.66-2.10) (1.88-2.42) (2.07-2.70) 6-hr 0.370 0.447 0.560 0.658 0.790 0.904 1.02 1.15 1.33 1.49 (0.337-0.412) (0.407-0.497) (0.508-0.621) (0.595-0.729) (0.709-0.874) (0.806-0.999) (0.904-1.13) (1.01-1.27) (1.15-1.47) (1.27-1.64) 12-hr 0.216 0.261 0.329 0.389 0.470 0.541 0.616 0.698 0.815 0.918 (0.196-0.241) (0.237-0.291) (0.297-0.367) (0.350-0.432) (0.420-0.522) (0.479-0.599) (0.540-0.681) (0.605-0.771) (0.695-0.900) (0.772-1.01) 24-hr 0.127 0.154 0.198 0.233 0.281 0.322 0.364 0.408 0.471 0.523 (0.116-0.140) (0.141-0.170) (0.180-0.217) (0.211-0.255) (0.254-0.309) (0.290-0.353) (0.326-0.399) (0.365-0.449) (0.418-0.520) (0.462-0.577) 2-day 0.074 0.090 0.114 0.134 0.161 0.183 0.207 ' 0.232 0.267 0.295 (0.068-0.081) (0.082-0.098) (0.104-0.125) (0.122-0.146) (0.146-0.176)1(0.165-0.200) (0.186-0.226)1(0.207-0.254) (0.237-0.293) (0.260-0.325) 3-day 0.053 0.064 0.080 0.094 0.112 0.128 0.144 0.160 0.184 0.203 (0.049-0.057) (0.059-0.069) (0.074-0.087) (0.086-0.102) (0.102-0.122) (0.116-0.139) (0.130-0.156) (0.144-0.175) (0.164-0.201) (0.180-0.222)I 4-day 0.042 0.051 0.064 0.074 0.088 1 0.100 0.112 0.125 0.142 0.157 (0.039-0.045) (0.047-0.055) (0.058-0.069) (0.068-0.080) (0.081-0.095) (0.091-0.108) (0.101-0.121) (0.112-0.135) (0.128-0.155) (0.140-0.171) 7-day 0.028 0.033 0.041 0.048 0.057 0.064 0.071 0.078 0.089 0.098 (0.026-0.030) (0.031-0.036) (0.038-0.045) (0.044-0.052) (0.052-0.061) (0.058-0.069) (0.064-0.077) (0.071-0.085) (0.080-0.097) (0.087-0.106) 10-day 0.022 0.027 0.032 0.037 0.043 0.048 0.053 0.058 0.065 0.071 (0.021-0.024) (0.025-0.029) (0.030-0.035) (0.034-0.040) (0.040-0.046) (0.044-0.052) (0.049-0.057) (0.053-0.063) (0.059-0.070) (0.064-0.076) 20-day 0.015 0.018 0.021 0.024 0.028 0.031 0.034 0.037 0.041 0.044 (0.014-0.016) (0.017-0.019) (0.020-0.023) (0.022-0.026) (0.026-0.030) (0.028-0.033) (0.031-0.036) (0.034-0.040) (0.037-0.044)1(0.040-0.048) 30-day 0.012 0.015 0.017 0.019 0.022 0.024 0.026 0.028 0.031 0.033 (0.012-0.013) (0.014-0.016) (0.016-0.019) (0.018-0.021) (0.020-0.024) (0.022-0.026) (0.024-0.028) (0.026-0.030) (0.028-0.033) (0.030-0.036) 45-day 0.011 0.012 0.014 0.016 0.018 0.019 0.021 0.022 0.024 0.026 (0.010-0.011) (0.012-0.013) (0.013-0.015) (0.015-0.017) (0.017-0.019) (0.018-0.021) (0.019-0.022) (0.021-0.024) (0.022-0.026) (0.024-0.028) 60-day 0.009 0.011 0.013 0.014 0.016 0.017 0.018 0.019 0.021 0.022 (0.009-0.010) (0.010-0.012) (0.012-0.014) (0.013-0.015) (0.015-0.017) (0.016-0.018) (0.017-0.019) (0.018-0.021) (0.019-0.022) (0.020-0.024)1 1 Precipitation frequency(PF)estimates in this table are based on frequency analysis of partial duration series(PDS). Numbers in parenthesis are PF estimates at lower and upper bounds of the 90%confidence interval.The probability that precipitation frequency estimates(for a given duration and average recurrence interval)will be greater than the upper bound(or less than the lower bound)is 5%.Estimates at upper bounds are not checked against probable maximum precipitation(PMP)estimates and may be higher than currently valid PMP values. Please refer to NOAA Atlas 14 document for more information. Back to Top PF graphical https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=35.3247&Ion=-78.6881&data=intensity&units=english&series=pds 1/4 3/20/23, 11:54 AM Precipitation Frequency Data Server PDS-based intensity-duration-frequency (IDF) curves Latitude: 35.3247°, Longitude: -78.6881° 100 000 , I I I I , Average recurrence interval -- 10.000 --- _ (years) — 2 • 1.000 c — 10 c — 25 o 50 'a — 100 a) - 200 a` 0.010 , 500 — 1000 0.001 —I c c c c c L- 6- i- )- >, >,>. >, >, >, >, >,>. 'F •- ' •E •- r0 l0 f0 L L . Lr r0. /0 N 43 l0 r0 N f11 lb iA O -I rn lD r-1 fV N f�1 N I� O 0 .7l0 I rflD Duration 100.000 _c 10.000 .......-- --- c � — Duration • 1.000 — 5-min — 2-day — 10-nln — 3-day 15-nin — 4-day • 0.100 • — 30-min — 7-day — ._ 60-nrn 10 day 'w — 2-hr — 20-day a 0.010 - — 3-hr — 30-day — 6-hr — 45-day — 12-hr — 60-day 0.001 — 24-hr 1 2 5 10 25 50 100 200 500 1000 Average recurrence interval (years) NOAA Atlas 14,Volume 2,Version 3 Created(GMT): Mon Mar 20 15:54:34 2023 Back to Top Maps & aerials Small scale terrain https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=35.3247&Ion=-78.6881&data=intensity&units=english&series=pds 2/4 3/20/23, 11:54 AM Precipitation Frequency Data Server P. \--. \ Ir w 1 Z —61sGiin• ✓ac�son eiVa l?"----(AW I , ---- -- -,,,f; 3km I 2mi • Large scale terrain tOn-S al eni 0 • . •Durham Rocky MountGreensboro • Raleigh 4 • .TH C AROL INA ' •Greenville -11 111 Q _._ Charlotte I Fayetteville. - • Jacks 100km Wilmington Uaslow • Bay i 60mi Large scale map i 7} IF tinston- alem CI-,I, I„ I <% Durham o ocky Mount Raleigh North Greenville Carolina ' harlotte •erm Fayetteville \ a Jacks. ± 100km Wilmington dotal 60mi rra Large scale aerial https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=35.3247&Ion=-78.6881&data=intensity&units=english&series=pds 3/4 3/20/23, 11:54 AM Precipitation Frequency Data Server inston-Salem Greensboro Durham . Rocky Mount • Raleigh • Greenville North • Carolina Charlotte • Fayetteville • Jacksofl • 100km Wilmington •UM' 60 m i Back to Top US Department of Commerce National Oceanic and Atmospheric Administration National Weather Service National Water Center 1325 East West Highway Silver Spring,MD 20910 Questions?:HDSC.Questions@noaa.gov Disclaimer https://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=35.3247&Ion=-78.6881&data=intensity&units=english&series=pds 4/4 CALCULATIONS Post Development Runoff Calculations Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 PROJECT: Bryant Road DATE : March 20, 2023 PAGE : 1 of 1 Post-Development 10-Year Storm Tc Area ID Area (Ac.) C 110 Q10 (cfs) 5 1 a 2.40 0.45 7.91 8.55 5 1 b 0.22 0.72 7.91 1 .26 5 1 c 0.41 0.74 7.91 2.38 5 1 d 0.08 0.77 7.91 0.49 5 1 e 0.08 0.67 7.91 0.43 5 1 f 0.11 0.70 7.91 0.61 5 1 g 0.12 0.67 7.91 0.64 5 lh 0.25 0.82 7.91 1 .63 5 li 0.07 0.75 7.91 0.41 5 1 j 0.02 0.85 7.91 0.14 5 2a 2.81 0.45 7.91 10.07 5 2b 0.05 0.95 7.91 0.38 5 2c 0.04 0.95 7.91 0.30 5 2d 0.05 0.95 7.91 0.38 5 2e 0.14 0.74 7.91 0.82 5 2f 0.10 0.74 7.91 0.59 5 2g 0.11 0.74 7.91 0.65 5 2h 0.18 0.75 7.91 1 .06 5 2i 0.07 0.94 7.91 0.52 5 2j 0.16 0.72 7.91 0.91 5 2k 0.11 0.73 7.91 0.66 5 21 0.07 0.75 7.91 0.42 5 2m 0.23 0.73 7.91 1 .32 5 2n 0.18 0.75 7.91 1 .07 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 2o 0.17 0.85 7.91 1 .17 5 2p 0.21 0.91 7.91 1 .50 5 2q 0.82 0.69 7.91 4.45 5 2r 0.57 0.74 7.91 3.35 5 2s 0.66 0.77 7.91 4.01 5 2t 0.19 0.79 7.91 1 .19 5 2u 0.24 0.84 7.91 1 .59 5 2v 0.96 0.77 7.91 5.83 5 2w 0.17 0.91 7.91 1 .24 5 2x 0.29 0.81 7.91 1 .83 5 2y 0.61 0.70 7.91 3.36 5 2z 0.65 0.75 7.91 3.86 5 2aa 0.80 0.77 7.91 4.86 5 2bb 0.48 0.78 7.91 2.96 5 2cc 0.17 0.65 7.91 0.86 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 2dd 0.32 0.68 7.91 1 .71 5 2ee 0.23 0.83 7.91 1 .51 5 2ff 0.19 0.83 7.91 1 .25 5 2gg 0.22 0.89 7.91 1 .55 5 2hh 0.08 0.71 7.91 0.45 5 2ii 0.07 0.73 7.91 0.41 5 2jj 0.17 0.78 7.91 1 .05 5 2kk 0.06 0.84 7.91 0.40 5 211 0.11 0.67 7.91 0.58 5 2mm 0.08 0.73 7.91 0.46 5 2nn 0.12 0.78 7.91 0.74 5 2oo 0.02 0.87 7.91 0.14 5 2pp 0.10 0.66 7.91 0.52 5 2qq 1 .24 0.63 7.91 6.16 5 2rr 0.53 0.67 7.91 2.83 5 2ss 0.62 0.68 7.91 3.35 5 2tt 0.75 0.67 7.91 3.98 5 2uu 0.81 0.69 7.91 4.42 5 2vv 1 .21 0.63 7.91 6.07 5 2ww 0.43 0.75 7.91 2.56 5 2xx 0.40 0.69 7.91 2.20 5 2yy 1 .19 0.65 7.91 6.15 5 2zz 0.21 0.78 7.91 1 .29 5 2aaa 0.10 0.66 7.91 0.55 5 2bbb 0.19 0.87 7.91 1 .28 5 2ccc 0.18 0.84 7.91 1 .21 5 2ddd 0.09 0.81 7.91 0.57 5 2eee 0.08 0.84 7.91 0.56 5 3a 1 .99 0.54 7.91 8.50 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 3b 0.22 0.54 7.91 0.92 5 3c 0.16 0.73 7.91 0.94 5 3d 0.07 0.68 7.91 0.35 5 3e 0.18 0.74 7.91 1 .07 5 3f 0.07 0.75 7.91 0.40 5 3g 0.07 0.74 7.91 0.43 5 3h 0.15 0.74 7.91 0.86 5 3i 0.18 0.74 7.91 1 .08 5 3j 0.06 0.75 7.91 0.39 5 3k 0.07 0.75 7.91 0.38 5 31 0.33 0.75 7.91 1 .96 5 3m 0.22 0.81 7.91 1 .44 5 3n 0.82 0.71 7.91 4.62 5 3o 0.05 0.58 7.91 0.23 5 3p 0.21 0.85 7.91 1 .39 5 3q 0.20 0.67 7.91 1 .03 5 3r 0.11 0.75 7.91 0.63 5 3s 0.18 0.80 7.91 1 .13 5 3t 0.94 0.68 7.91 5.05 5 3u 0.32 0.72 7.91 1 .83 5 3v 0.21 0.67 7.91 1 .09 5 3w 0.19 0.74 7.91 1 .10 5 3x 0.21 0.75 7.91 1 .23 5 3y 0.19 0.83 7.91 1 .25 5 3z 0.95 0.72 7.91 5.40 5 3aa 1 .15 0.75 7.91 6.88 5 3bb 1 .49 0.63 7.91 7.38 5 3cc 0.16 0.83 7.91 1 .03 5 3dd 0.02 0.83 7.91 0.14 5 3ee 0.11 0.62 7.91 0.52 5 3ff 0.19 0.75 7.91 1 .13 5 3gg 0.18 0.85 7.91 1 .19 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 3hh 0.25 0.90 7.91 1 .77 5 4a 0.18 0.74 7.91 1 .08 5 4b 0.34 0.83 7.91 2.25 5 4c 1 .21 0.69 7.91 6.61 Post-Development 4in Storm Tc Area ID Area (Ac.) C 110 Q10 (cfs) 5 1 a 2.40 0.45 4.00 4.32 5 1 b 0.22 0.72 4.00 0.64 5 1 c 0.41 0.74 4.00 1 .21 5 1 d 0.08 0.77 4.00 0.25 5 1 e 0.08 0.67 4.00 0.22 5 1 f 0.11 0.70 4.00 0.31 5 1 g 0.12 0.67 4.00 0.32 5 1 h 0.25 0.82 4.00 0.82 5 li 0.07 0.75 4.00 0.21 5 1j 0.02 0.85 4.00 0.07 5 2a 2.81 0.45 4.00 5.09 5 2b 0.05 0.95 4.00 0.19 5 2c 0.04 0.95 4.00 0.15 5 2d 0.05 0.95 4.00 0.19 5 2e 0.14 0.74 4.00 0.42 5 2f 0.10 0.74 4.00 0.30 5 2g 0.11 0.74 4.00 0.33 5 2h 0.18 0.75 4.00 0.54 5 2i 0.07 0.94 4.00 0.26 5 2j 0.16 0.72 4.00 0.46 5 2k 0.11 0.73 4.00 0.33 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 21 0.07 0.75 4.00 0.21 5 2m 0.23 0.73 4.00 0.67 5 2n 0.18 0.75 4.00 0.54 5 2o 0.17 0.85 4.00 0.59 5 2p 0.21 0.91 4.00 0.76 5 2q 0.82 0.69 4.00 2.25 5 2r 0.57 0.74 4.00 1 .69 5 2s 0.66 0.77 4.00 2.03 5 2t 0.19 0.79 4.00 0.60 5 2u 0.24 0.84 4.00 0.81 5 2v 0.96 0.77 4.00 2.95 5 2w 0.17 0.91 4.00 0.63 5 2x 0.29 0.81 4.00 0.92 5 2y 0.61 0.70 4.00 1 .70 5 2z 0.65 0.75 4.00 1 .95 5 2aa 0.80 0.77 4.00 2.46 5 2bb 0.48 0.78 4.00 1 .50 5 2cc 0.17 0.65 4.00 0.44 5 2dd 0.32 0.68 4.00 0.87 5 2ee 0.23 0.83 4.00 0.77 5 2ff 0.19 0.83 4.00 0.63 5 2gg 0.22 0.89 4.00 0.77 5 2hh 0.08 0.71 4.00 0.23 5 2ii 0.07 0.73 4.00 0.20 5 2jj 0.17 0.78 4.00 0.53 5 2kk 0.06 0.84 4.00 0.20 5 211 0.11 0.67 4.00 0.29 5 2mm 0.08 0.73 4.00 0.23 5 2nn 0.12 0.78 4.00 0.37 5 2oo 0.02 0.87 4.00 0.07 5 2pp 0.10 0.66 4.00 0.26 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 2qq 1 .24 0.63 4.00 3.11 5 2rr 0.53 0.67 4.00 1 .43 5 2ss 0.62 0.68 4.00 1 .69 5 2tt 0.75 0.67 4.00 2.01 5 2uu 0.81 0.69 4.00 2.24 5 2vv 1 .21 0.63 4.00 3.07 5 2ww 0.43 0.75 4.00 1 .29 5 2xx 0.40 0.69 4.00 1 .11 5 2yy 1 .19 0.65 4.00 3.11 5 2zz 0.21 0.78 4.00 0.65 5 2aaa 0.10 0.66 4.00 0.28 5 2bbb 0.20 0.85 4.00 0.69 5 2ccc 0.20 0.82 4.00 0.67 5 2ddd 0.09 0.81 4.00 0.29 5 2eee 0.08 0.84 4.00 0.28 5 3a 1 .99 0.54 4.00 4.30 5 3b 0.22 0.54 4.00 0.47 5 3c 0.16 0.73 4.00 0.48 5 3d 0.07 0.68 4.00 0.18 5 3e 0.18 0.74 4.00 0.54 5 3f 0.07 0.75 4.00 0.20 5 3g 0.07 0.74 4.00 0.22 5 3h 0.15 0.74 4.00 0.44 5 3i 0.18 0.74 4.00 0.55 5 3j 0.06 0.75 4.00 0.20 5 3k 0.07 0.75 4.00 0.19 5 31 0.33 0.75 4.00 0.99 5 3m 0.22 0.81 4.00 0.73 5 3n 0.82 0.71 4.00 2.33 5 3o 0.05 0.58 4.00 0.12 Stocks Engineering, P.A. 801 East Washington Street Runoff Computations PO Box 1108 Nashville, NC 27856 5 3p 0.21 0.85 4.00 0.70 5 3q 0.20 0.67 4.00 0.52 5 3r 0.11 0.75 4.00 0.32 5 3s 0.18 0.80 4.00 0.57 5 3t 0.94 0.68 4.00 2.55 5 3u 0.32 0.72 4.00 0.92 5 3v 0.21 0.67 4.00 0.55 5 3w 0.19 0.74 4.00 0.56 5 3x 0.21 0.75 4.00 0.62 5 3y 0.19 0.83 4.00 0.63 5 3z 0.95 0.72 4.00 2.73 5 3aa 1 .15 0.75 4.00 3.48 5 3bb 1 .49 0.63 4.00 3.73 5 3cc 0.16 0.83 4.00 0.52 5 3dd 0.02 0.83 4.00 0.07 5 3ee 0.11 0.62 4.00 0.26 5 3ff 0.19 0.75 4.00 0.57 5 3gg 0.18 0.85 4.00 0.60 5 3hh 0.25 0.90 4.00 0.89 5 4a 0.18 0.74 4.00 0.54 5 4b 0.34 0.83 4.00 1 .14 5 4c 1 .21 0.69 4.00 3.34 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Pre Development Post Development Curve Number Curve Number Pre Area I 54.14 Post Area 1A 72.91 Post Area 1 B 54.27 Pre Area 2 68.26 Post Area 2A 74.04 Post Area 2B 70.00 Pre Area 3 53.45 Post Area 3A 75.57 Post Area 3B 44.81 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Pre Area I Drainage Area(A) 33.22 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area(ac) Cultivated Land Without Conservation Treatment_ 72 _ 81 _ 88 91 With Conservation Treatment 62 71 _ 78 81 Wood of Forest Land Poor Cover(Thin) _ _ 45 66 77 83 Good Cover 25 9.5 55 6.43 _ 70 77 Row Crops Straight Row(Poor) 72 81 88 91 Straight Row(Good) 67 12.83 78 4.46 85 89 Open Spance(lawns, parks,cemeteries,etc) Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 69 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives,etc. 98 98 98 98 Soil Area per Hydrologic Group 22.33 10.89 0 0 Drainage Area=Area Total I TRUE I 33.22 = 33.22 Weighted Curve Number CN = [(CNi*Ai)+ (CNn*An)J/Atot Pre Development Area 1 Curve Number 54.14 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Pre Area 2 Drainage Area (A) 12.16 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac) Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) _ 45 66 77 83 Good Cover 25 55 70 3.58 77 Row Crops Straight Row(Poor) 72 81 88 91 Straight Row(Good) 67 8.16 78 0.42 85 89 Open Spance(lawns, parks, cemeteries, etc_) Poor Condition 68 79 86 89 (grass cover<50%) _ Fair Condition 49 69 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 98 98 98 Soil Area per Hydrologic Group 8.16 0.42 3.58 , 0 Drainage Area=Area Total TRUE I 12.16 = 12.16 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)]/Atot Pre Development Area 1 Curve Number 68.26 STOCKS ENGINEERING Curve Numbers Project: Maxwell Farm Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Pre Area 3 Drainage Area (A) 15.23 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac) Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 8.92 71 78 81 Wood of Forest Land Poor Cover(Thin) _ 45 66 77 83 Good Cover 25 2.87 55 3.44 70 77 Row Crops Straight Row(Poor) 72 81 88 91 Straight Row(Good) 67 78 85 89 Open Spance(lawns, parks, cemeteries, etc_) Poor Condition 68 79 86 89 (grass cover<50%) _ Fair Condition 49 69 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 98 98 98 Soil Area per Hydrologic Group 11.79 3.44 0 , 0 Drainage Area=Area Total TRUE I 15.23 = 15.23 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)1/Atot Pre Development Area 1 Curve Number 53.45 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 1A Drainage Area (A) 5.09 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac) Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 70 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 1.47 69 1.92 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 1.15 98 0.55 98 98 Soil Area per Hydrologic Group 2.62 2.47 0 0 Drainage Area=Area Total TRUE I 5.09 = 5.09 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)]/Atot Post Development Area 1 Curve Number 72.91 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 1B Drainage Area (A) 8.43 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac)! Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 4.5 70 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 3.06 69 0.87 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 98 98 98 Soil Area per Hydrologic Group 3.06 5.37 0 0 Drainage Area=Area Total TRUE 8.43 = 8.43 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)1/Atot Post Development Area 1 Curve Number 54.27 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 2A Drainage Area (A) 25.55 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac)! Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 70 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 11.46 69 1.75 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 12.34 98 98 98 Soil Area per Hydrologic Group 23.8 1.75 0 0 Drainage Area=Area Total TRUE 25.55 = 25.55 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)]/Atot Post Development Area 2 Curve Number 74.04 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 2B Drainage Area (A) 2.66 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac) Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 70 2.66 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 69 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 98 98 98 Soil Area per Hydrologic Group 0 0 2.66 0 Drainage Area=Area Total TRUE 2.66 = 2.66 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)]/Atot Post Development Area 2 Curve Number 70.00 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 3A Drainage Area (A) 12.58 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac)! Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 70 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 79 86 89 (grass cover<50%) Fair Condition 49 5.22 69 0.91 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 6.45 98 98 98 Soil Area per Hydrologic Group 11.67 0.91 0 0 Drainage Area=Area Total TRUE I 12.58 = 12.58 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)]/Atot Post Development Area 2 Curve Number 75.57 STOCKS ENGINEERING Curve Numbers Project: Bryant Road Subdivision Location: Harnett Coutny NC Date: 3-Apr-22 Basin ID: Post Area 3B Drainage Area (A) 6.12 Acres Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition I A Area(ac)I B Area(ac)I C Area(ac)I D Area (ac) Cultivated Land Without Conservation Treatment _ 72 81 88 91 With Conservation Treatment 62 71 78 81 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 3.3 55 70 77 Open Spance(lawns, parks, cemeteries, etc Poor Condition 68 2.82 79 86 89 (grass cover<50%) Fair Condition 49 69 79 84 (grass cover 50%-75%) Good Condition 39 61 74 80 (grass cover>75%) Impervious Area Parking Lots, Roofs, Drives, etc. 98 98 98 98 Soil Area per Hydrologic Group 6.12 0 0 0 Drainage Area=Area Total TRUE 6.12 = 6.12 Weighted Curve Number CN = [(CN1*A0+ (CNn*An)1/Atot Post Development Area 2 Curve Number 44.81 Runoff Curve Numbers Cover Description Cover Type and Hydrologic Condition A B C D Cultivated Land Without Conservation Treatment 72 81 88 91 With Conservation Treatment 62 71 78 81 Row Crops (Straight Row (Poor) 72 I 81 88 I 91 Straight Row (Good) 67 78 85 89 Wood of Forest Land Poor Cover(Thin) 45 66 77 83 Good Cover 25 55 70 77 Open Spance (lawns, parks, cemeteries, etc) Poor Condition (grass cover<50%) 68 79 86 89 Fair Condition (grass cover 50%-75%) 49 69 79 84 Good Condition (grass cover>75%) 39 61 74 80 Impervious Areas 'Parking Lots, Roofs, Driveways, etc. I 98 I 98 I 98 I 98 *Please see "SCS TR-55 Table 2-2a and 2-2b" for reference 1 Watershed Model Schematic Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 1 2 3 4 5 6 7 8 9 1.11 v 1 2 Wil Re R4•14 11 13 15 Project: 2-20-24 Bryant Road Subdivision.gpw Monday, 02/26/2024 2 Hydrograph Return Period Recap Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Hyd. Hydrograph Inflow I Peak Outflow(cfs) Hydrograph No. type hyd(s) Description (origin) 1-yr 2-yr 3-yr 5-yr 10-yr 25-yr 50-yr 100-yr 1 SCS Runoff 2.016 44.65 100.41 Pre Dev Area 1 2 SCS Runoff 6.203 20.11 33.44 Post Dev Area 1A 3 SCS Runoff 0.633 13.42 29.80 Post Dev Area 1 B 4 SCS Runoff 13.18 I 48.07 82.57 Pre Dev Area 2 5 SCS Runoff 26.42 84.19 138.87 Post Dev Area 2A 6 SCS Runoff 3.271 11.15 18.87 Post Dev Area 2B 7 SCS Runoff 0.984 26.11 58.11 Pre Dev Area 3 8 SCS Runoff 18.17 54.19 87.68 Post Dev Area 3A 9 SCS Runoff 0.019 3.387 12.17 Post Dev Area 3B 10 Reservoir 2 0.045 1.636 1 11.21 Wet Pond 1 11 Reservoir 5 0.298 8.889 39.94 Wet Pond 2 12 Reservoir 8 0.170 3.970 27.15 Wet Pond 3 13 Combine 3, 10, 0.658 13.47 37.83 Post Area 1 Sum 14 Combine 6, 11, 3.325 11.38 41.90 Post Area 2 Sum 15 Combine 9, 12, 0.189 4.568 35.87 Post Area 3 Sum Proj.file: 2-20-24 Bryant Road Subdivision.gpw Monday, 02/26/ 2024 3 Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Hyd. Hydrograph Peak Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 2.016 2 730 21,867 Pre Dev Area 1 2 SCS Runoff 6.203 2 722 16,861 Post Dev Area 1A 3 SCS Runoff 0.633 2 726 6,017 Post Dev Area 1 B 4 SCS Runoff 13.18 2 718 27,545 Pre Dev Area 2 5 SCS Runoff 26.42 2 726 87,681 Post Dev Area 2A 6 SCS Runoff 3.271 2 718 6,719 Post Dev Area 2B 7 SCS Runoff 0.984 2 724 9,508 Pre Dev Area 3 8 SCS Runoff 18.17 2 722 48,343 Post Dev Area 3A 9 SCS Runoff 0.019 2 1098 632 Post Dev Area 3B 10 Reservoir 0.045 2 1450 11,221 2 194.37 15,044 Wet Pond 1 11 Reservoir 0.298 2 1452 68,253 5 183.71 75,625 Wet Pond 2 12 Reservoir 0.170 2 1448 38,850 8 184.73 41,405 Wet Pond 3 13 Combine 0.658 2 726 17,238 3, 10, Post Area 1 Sum 14 Combine 3.325 2 718 74,971 6, 11, Post Area 2 Sum 15 Combine 0.189 2 1440 39,482 9, 12, Post Area 3 Sum 2-20-24 Bryant Road Subdivision.gpw Return Period: 1 Year Monday, 02/26/2024 4 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 1 Pre Dev Area 1 Hydrograph type = SCS Runoff Peak discharge = 2.016 cfs Storm frequency = 1 yrs Time to peak = 730 min Time interval = 2 min Hyd. volume = 21,867 cuft Drainage area = 33.220 ac Curve number = 54.1 Basin Slope = 0.7 % Hydraulic length = 1368 ft Tc method = KIRPICH Time of conc. (Tc) = 13.47 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 1 Q (cfs) Hyd. No. 1 -- 1 Year Q (cfs) 3.00 3.00 2.00 2.00 1.00 1.00 0.00 - I - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time(min) 5 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 2 Post Dev Area 1 A Hydrograph type = SCS Runoff Peak discharge = 6.203 cfs Storm frequency = 1 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 16,861 cuft Drainage area = 5.100 ac Curve number = 72.9 Basin Slope = 0.7 % Hydraulic length = 1220 ft Tc method = KIRPICH Time of conc. (Tc) = 12.27 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 A Q (cfs) Hyd. No. 2-- 1 Year Q (cfs) 7.00 7.00 6.00 6.00 5.00 5.00 I 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 - - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 2 Time(min) 6 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 3 Post Dev Area 1 B Hydrograph type = SCS Runoff Peak discharge = 0.633 cfs Storm frequency = 1 yrs Time to peak = 726 min Time interval = 2 min Hyd. volume = 6,017 cuft Drainage area = 8.430 ac Curve number = 54.3 Basin Slope = 0.7 % Hydraulic length = 920 ft Tc method = KIRPICH Time of conc. (Tc) = 10.09 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 B Q (cfs) Hyd. No. 3-- 1 Year Q (cfs) 1.00 I 1.00 0.90 0.90 0.80 0.80 0.70 0.70 0.60 0.60 0.50 0.50 0.40 0.40 0.30 0.30 0.20 0.20 0.10 0.10 0.00 I 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 3 Time(min) 7 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 4 Pre Dev Area 2 Hydrograph type = SCS Runoff Peak discharge = 13.18 cfs Storm frequency = 1 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 27,545 cuft Drainage area = 12.160 ac Curve number = 68.3 Basin Slope = 2.3 % Hydraulic length = 845 ft Tc method = KIRPICH Time of conc. (Tc) = 5.93 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 2 Q (cfs) Hyd. No. 4-- 1 Year Q (cfs) 14.00 I 14.00 12.00 12.00 10.00 10.00 8.00 1 8.00 6.00 6.00 4.00 4.00 2.00 2.00 L-------' 0.00 1 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 4 Time(min) 8 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 5 Post Dev Area 2A Hydrograph type = SCS Runoff Peak discharge = 26.42 cfs Storm frequency = 1 yrs Time to peak = 726 min Time interval = 2 min Hyd. volume = 87,681 cuft Drainage area = 25.550 ac Curve number = 74.1 Basin Slope = 0.8 % Hydraulic length = 2420 ft Tc method = KIRPICH Time of conc. (Tc) = 19.81 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2A Q (cfs) Hyd. No. 5-- 1 Year Q (cfs) 28.00 28.00 24.00 24.00 20.00 20.00 16.00 16.00 12.00 12.00 8.00 8.00 4.00 4.00 0.00 J \- 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 5 Time(min) 9 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 6 Post Dev Area 2B Hydrograph type = SCS Runoff Peak discharge = 3.271 cfs Storm frequency = 1 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 6,719 cuft Drainage area = 2.660 ac Curve number = 70 Basin Slope = 2.5 % Hydraulic length = 400 ft Tc method = KIRPICH Time of conc. (Tc) = 3.25 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2B Q (cfs) Hyd. No. 6-- 1 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 1 2.00 1.00 1.00 0.00 t . 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 6 Time(min) 10 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 7 Pre Dev Area 3 Hydrograph type = SCS Runoff Peak discharge = 0.984 cfs Storm frequency = 1 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 9,508 cuft Drainage area = 15.230 ac Curve number = 53.5 Basin Slope = 1.0 % Hydraulic length = 1069 ft Tc method = KIRPICH Time of conc. (Tc) = 9.76 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 3 Q (cfs) Hyd. No. 7-- 1 Year Q (cfs) 1.00 1.00 0.90 0.90 0.80 j 0.80 _____ 0.70 0.70 0.60 0.60 0.50 0.50 0.40kli 0.40 0.30 0.30 0.20 0.20 0.10 0.10 I I_ 0.00 I 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 7 Time(min) 11 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 8 Post Dev Area 3A Hydrograph type = SCS Runoff Peak discharge = 18.17 cfs Storm frequency = 1 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 48,343 cuft Drainage area = 12.580 ac Curve number = 75.6 Basin Slope = 1.1 % Hydraulic length = 1375 ft Tc method = KIRPICH Time of conc. (Tc) = 11.59 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3A Q (cfs) Hyd. No. 8-- 1 Year Q (cfs) 21.00 21.00 18.001 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 8 Time(min) 12 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 9 Post Dev Area 3B Hydrograph type = SCS Runoff Peak discharge = 0.019 cfs Storm frequency = 1 yrs Time to peak = 1098 min Time interval = 2 min Hyd. volume = 632 cuft Drainage area = 6.120 ac Curve number = 44.9 Basin Slope = 1.0 % Hydraulic length = 1090 ft Tc method = KIRPICH Time of conc. (Tc) = 10.02 min Total precip. = 3.05 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3B Q (cfs) Hyd. No. 9-- 1 Year Q (cfs) 0.10 0.10 0.09 0.09 0.08 0.08 0.07 0.07 0.06 0.06 0.05 0.05 0.04 0.04 0.03 0.03 0.02 _ 0.02 0.01 0.01 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 9 Time(min) 13 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 10 Wet Pond 1 Hydrograph type = Reservoir Peak discharge = 0.045 cfs Storm frequency = 1 yrs Time to peak = 1450 min Time interval = 2 min Hyd. volume = 11,221 cuft Inflow hyd. No. = 2 - Post Dev Area 1A Max. Elevation = 194.37 ft Reservoir name = Wet Pond 1 Max. Storage = 15,044 cuft Storage Indication method used. Wet Pond 1 Q (cfs) Hyd. No. 10-- 1 Year Q (cfs) 7.00 7.00 6.00 6.00 5.00 5.00 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 LBW 0.00 - 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 10 Hyd No. 2 I I Total storage used = 15,044 cuft Pond Report 14 Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Pond No. 1 - Wet Pond 1 Pond Data Contours-User-defined contour areas.Average end area method used for volume calculation. Begining Elevation= 193.08 ft Stage/Storage Table Stage(ft) Elevation(ft) Contour area(sqft) Incr.Storage(cuft) Total storage(cuft) 0.00 193.08 10,687 0 0 0.92 194.00 11,901 10,390 10,390 1.92 195.00 13,247 12,574 22,964 2.27 195.35 13,695 4,715 27,679 2.92 196.00 14,650 9,212 36,891 3.42 196.50 17,625 8,069 44,960 Culvert/Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise(in) = 18.00 1.25 0.00 0.00 Crest Len(ft) = 10.00 20.00 0.00 0.00 Span(in) = 18.00 1.25 0.00 0.00 Crest El.(ft) = 195.35 195.50 0.00 0.00 No.Barrels = 1 1 0 0 Weir Coeff. = 3.33 2.60 3.33 3.33 Invert El.(ft) = 193.07 193.08 0.00 0.00 Weir Type = 1 Broad --- Length(ft) = 92.00 0.50 0.00 0.00 Multi-Stage = Yes Yes No No Slope(%) = 0.50 0.10 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(in/hr) = 0.000 (by Contour) Multi-Stage = n/a Yes No No TW Elev.(ft) = 0.00 Note:Culvert/Orifice outflows are analyzed under inlet(ic)and outlet(oc)control. Weir risers checked for orifice conditions(ic)and submergence(s). Stage(ft) Stage/ Discharge Elev(ft) 4.00 197.08 3.00 196.08 .=•=0. .....°7 2.00 195.08 1.00 194.08 0.00 1 193.08 0.00 1.00 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 11.00 12.00 13.00 Total Q Discharge(cfs) 15 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 11 Wet Pond 2 Hydrograph type = Reservoir Peak discharge = 0.298 cfs Storm frequency = 1 yrs Time to peak = 1452 min Time interval = 2 min Hyd. volume = 68,253 cuft Inflow hyd. No. = 5 - Post Dev Area 2A Max. Elevation = 183.71 ft Reservoir name = Wet Pond 2 Max. Storage = 75,625 cuft Storage Indication method used. Wet Pond 2 Q (cfs) Hyd. No. 11 -- 1 Year Q (cfs) 28.00 28.00 24.00 24.00 20.00 20.00 16.00 16.00 12.00 12.00 8.00 8.00 4.00 4.00 0.00 IL 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 11 Hyd No. 5 I I Total storage used = 75,625 cuft Pond Report 16 Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Pond No. 2- Wet Pond 2 Pond Data Contours-User-defined contour areas.Average end area method used for volume calculation. Begining Elevation= 182.00 ft Stage/Storage Table Stage(ft) Elevation(ft) Contour area(sqft) Incr.Storage(cuft) Total storage(cuft) 0.00 182.00 41,590 0 0 1.00 183.00 44,348 42,969 42,969 2.00 184.00 47,162 45,755 88,724 2.75 184.75 49,310 36,177 124,901 3.00 185.00 50,034 12,418 137,319 4.00 186.00 52,961 51,498 188,817 5.00 187.00 55,946 54,454 243,270 Culvert/Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise(in) = 30.00 3.00 0.00 0.00 Crest Len(ft) = 10.00 30.00 0.00 0.00 Span(in) = 30.00 3.00 0.00 0.00 Crest El.(ft) = 184.75 185.50 0.00 0.00 No.Barrels = 1 1 0 0 Weir Coeff. = 3.33 2.60 3.33 3.33 Invert El.(ft) = 181.70 182.00 0.00 0.00 Weir Type = 1 Broad --- --- Length(ft) = 128.00 0.50 0.00 0.00 Multi-Stage = Yes Yes No No Slope(%) = 0.55 0.00 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(in/hr) = 0.000 (by Contour) Multi-Stage = n/a Yes No No TW Elev.(ft) = 0.00 Note:Culvert/Orifice outflows are analyzed under inlet(ic)and outlet(oc)control. Weir risers checked for orifice conditions(ic)and submergence(s). Stage(ft) Stage/Discharge Elev(ft) 5.00 187.00 4.00 186.00 3.00 185.00 2.00 184.00 1.00 183.00 0.00 1 182.00 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 45.00 50.00 Total Q Discharge(cfs) 17 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 12 Wet Pond 3 Hydrograph type = Reservoir Peak discharge = 0.170 cfs Storm frequency = 1 yrs Time to peak = 1448 min Time interval = 2 min Hyd. volume = 38,850 cuft Inflow hyd. No. = 8 - Post Dev Area 3A Max. Elevation = 184.73 ft Reservoir name = Wet Pond 3 Max. Storage = 41,405 cuft Storage Indication method used. Wet Pond 3 Q (cfs) Hyd. No. 12-- 1 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 � 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 12 Hyd No. 8 I I Total storage used = 41,405 cuft Pond Report 18 Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Pond No. 3- Wet Pond 3 Pond Data Contours-User-defined contour areas.Average end area method used for volume calculation. Begining Elevation= 183.00 ft Stage/Storage Table Stage(ft) Elevation(ft) Contour area(sqft) Incr.Storage(cuft) Total storage(cuft) 0.00 183.00 22,088 0 0 1.00 184.00 24,060 23,074 23,074 2.00 185.00 26,088 25,074 48,148 3.00 186.00 28,173 27,131 75,279 4.00 187.00 30,315 29,244 104,523 4.50 187.50 34,009 16,081 120,604 Culvert/Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise(in) = 24.00 2.25 0.00 0.00 Crest Len(ft) = 10.00 20.00 0.00 0.00 Span(in) = 24.00 2.25 0.00 0.00 Crest El.(ft) = 186.00 186.50 0.00 0.00 No.Barrels = 1 1 0 0 Weir Coeff. = 3.33 2.60 3.33 3.33 Invert El.(ft) = 182.80 183.00 0.00 0.00 Weir Type = 1 Broad --- Length(ft) = 71.00 0.50 0.00 0.00 Multi-Stage = Yes Yes No No Slope(%) = 3.94 0.00 0.00 n/a N-Value = .013 .013 .013 n/a Orifice Coeff. = 0.60 0.60 0.60 0.60 Exfil.(in/hr) = 0.000 (by Contour) Multi-Stage = n/a Yes No No TW Elev.(ft) = 0.00 Note:Culvert/Orifice outflows are analyzed under inlet(ic)and outlet(oc)control. Weir risers checked for orifice conditions(ic)and submergence(s). Stage(ft) Stage/Discharge Elev(ft) 5.00 188.00 4.00 187.00 ...•••••••"...7 3.00 186.00 2.00 185.00 1.00 1 184.00 0.00 183.00 0.00 3.00 6.00 9.00 12.00 15.00 18.00 21.00 24.00 27.00 30.00 Total Q Discharge(cfs) 19 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 13 Post Area 1 Sum Hydrograph type = Combine Peak discharge = 0.658 cfs Storm frequency = 1 yrs Time to peak = 726 min Time interval = 2 min Hyd. volume = 17,238 cuft Inflow hyds. = 3, 10 Contrib. drain. area = 8.430 ac Post Area 1 Sum Q (cfs) Hyd. No. 13-- 1 Year Q (cfs) 1.00 1.00 0.90 0.90 0.80 0.80 0.70 0.70 0.60 0.60 0.50 0.50 0.40 0.40 0.30 0.30 0.20 0.20 0.10 0.10 0.00 -. 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 13 Hyd No. 3 Hyd No. 10 20 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 14 Post Area 2 Sum Hydrograph type = Combine Peak discharge = 3.325 cfs Storm frequency = 1 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 74,971 cuft Inflow hyds. = 6, 11 Contrib. drain. area = 2.660 ac Post Area 2 Sum Q (cfs) Hyd. No. 14-- 1 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 14 Hyd No. 6 Hyd No. 11 21 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 15 Post Area 3 Sum Hydrograph type = Combine Peak discharge = 0.189 cfs Storm frequency = 1 yrs Time to peak = 1440 min Time interval = 2 min Hyd. volume = 39,482 cuft Inflow hyds. = 9, 12 Contrib. drain. area = 6.120 ac Post Area 3 Sum Q (cfs) Hyd. No. 15-- 1 Year Q (cfs) 0.50 0.50 0.45 0.45 0.40 0.40 0.35 0.35 0.30 0.30 0.25 0.25 0.20 0.20 0.15 0.15 0.10 0.10 0.05 _ 0.05 �1 - 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 15 Hyd No. 9 Hyd No. 12 22 Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Hyd. Hydrograph Peak 1 Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 44.65 2 724 143,347 Pre Dev Area 1 2 SCS Runoff 20.11 2 720 52,208 Post Dev Area 1A 3 SCS Runoff 13.42 2 722 38,914 Post Dev Area 1 B 4 SCS Runoff 48.07 2 718 96,358 Pre Dev Area 2 5 SCS Runoff 84.19 2 724 263,789 Post Dev Area 2A 6 SCS Runoff 11.15 2 718 22,414 Post Dev Area 2B 7 SCS Runoff 26.11 2 720 65,096 Pre Dev Area 3 8 SCS Runoff 54.19 2 720 140,488 Post Dev Area 3A 9 SCS Runoff 3.387 2 724 14,532 Post Dev Area 3B 10 Reservoir 1.636 2 772 37,948 2 195.48 29,532 Wet Pond 1 11 Reservoir 8.889 2 770 216,522 5 185.15 1 145,144 Wet Pond 2 12 Reservoir 3.970 2 778 112,286 8 186.23 82,039 Wet Pond 3 13 Combine 13.47 2 722 76,862 3, 10, Post Area 1 Sum 14 Combine 11.38 2 718 238,936 6, 11, Post Area 2 Sum 15 Combine 4.568 2 776 126,817 9, 12, Post Area 3 Sum 2-20-24 Bryant Road Subdivision.gpw Return Period: 10 Year Monday, 02/26/2024 23 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 1 Pre Dev Area 1 Hydrograph type = SCS Runoff Peak discharge = 44.65 cfs Storm frequency = 10 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 143,347 cuft Drainage area = 33.220 ac Curve number = 54.1 Basin Slope = 0.7 % Hydraulic length = 1368 ft Tc method = KIRPICH Time of conc. (Tc) = 13.47 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 1 Q (cfs) Hyd. No. 1 -- 10 Year Q (cfs) 50.00 50.00 40.00 _ 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 • \ 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time(min) 24 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 2 Post Dev Area 1 A Hydrograph type = SCS Runoff Peak discharge = 20.11 cfs Storm frequency = 10 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 52,208 cuft Drainage area = 5.100 ac Curve number = 72.9 Basin Slope = 0.7 % Hydraulic length = 1220 ft Tc method = KIRPICH Time of conc. (Tc) = 12.27 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 A Q (cfs) Hyd. No. 2-- 10 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 - 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 2 Time(min) 25 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 3 Post Dev Area 1 B Hydrograph type = SCS Runoff Peak discharge = 13.42 cfs Storm frequency = 10 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 38,914 cuft Drainage area = 8.430 ac Curve number = 54.3 Basin Slope = 0.7 % Hydraulic length = 920 ft Tc method = KIRPICH Time of conc. (Tc) = 10.09 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 B Q (cfs) Hyd. No. 3-- 10 Year Q (cfs) 14.00 14.00 12.00 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 3 Time(min) 26 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 4 Pre Dev Area 2 Hydrograph type = SCS Runoff Peak discharge = 48.07 cfs Storm frequency = 10 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 96,358 cuft Drainage area = 12.160 ac Curve number = 68.3 Basin Slope = 2.3 % Hydraulic length = 845 ft Tc method = KIRPICH Time of conc. (Tc) = 5.93 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 2 Q (cfs) Hyd. No. 4-- 10 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 11111111116--- 10.00 0.00 J .- 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 4 Time(min) 27 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 5 Post Dev Area 2A Hydrograph type = SCS Runoff Peak discharge = 84.19 cfs Storm frequency = 10 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 263,789 cuft Drainage area = 25.550 ac Curve number = 74.1 Basin Slope = 0.8 % Hydraulic length = 2420 ft Tc method = KIRPICH Time of conc. (Tc) = 19.81 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2A Q (cfs) Hyd. No. 5-- 10 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 1 20.00 20.00 10.00 10.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 5 Time(min) 28 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 6 Post Dev Area 2B Hydrograph type = SCS Runoff Peak discharge = 11.15 cfs Storm frequency = 10 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 22,414 cuft Drainage area = 2.660 ac Curve number = 70 Basin Slope = 2.5 % Hydraulic length = 400 ft Tc method = KIRPICH Time of conc. (Tc) = 3.25 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2B Q (cfs) Hyd. No. 6-- 10 Year Q (cfs) 12.00 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 6 Time(min) 29 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 7 Pre Dev Area 3 Hydrograph type = SCS Runoff Peak discharge = 26.11 cfs Storm frequency = 10 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 65,096 cuft Drainage area = 15.230 ac Curve number = 53.5 Basin Slope = 1.0 % Hydraulic length = 1069 ft Tc method = KIRPICH Time of conc. (Tc) = 9.76 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 3 Q (cfs) Hyd. No. 7-- 10 Year Q (cfs) 28.00 28.00 24.00 24.00 20.00 20.00 16.00 16.00 12.00 12.00 8.00 8.00 4.00 4.00 0.00 1 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 7 Time(min) 30 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 8 Post Dev Area 3A Hydrograph type = SCS Runoff Peak discharge = 54.19 cfs Storm frequency = 10 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 140,488 cuft Drainage area = 12.580 ac Curve number = 75.6 Basin Slope = 1.1 % Hydraulic length = 1375 ft Tc method = KIRPICH Time of conc. (Tc) = 11.59 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3A Q (cfs) Hyd. No. 8-- 10 Year Q (cfs) 60.00 60.00 50.00 50.00 40.00 - 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 8 Time(min) 31 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 9 Post Dev Area 3B Hydrograph type = SCS Runoff Peak discharge = 3.387 cfs Storm frequency = 10 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 14,532 cuft Drainage area = 6.120 ac Curve number = 44.9 Basin Slope = 1.0 % Hydraulic length = 1090 ft Tc method = KIRPICH Time of conc. (Tc) = 10.02 min Total precip. = 5.58 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3B Q (cfs) Hyd. No. 9-- 10 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 i 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 9 Time(min) 32 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 10 Wet Pond 1 Hydrograph type = Reservoir Peak discharge = 1.636 cfs Storm frequency = 10 yrs Time to peak = 772 min Time interval = 2 min Hyd. volume = 37,948 cuft Inflow hyd. No. = 2 - Post Dev Area 1A Max. Elevation = 195.48 ft Reservoir name = Wet Pond 1 Max. Storage = 29,532 cuft Storage Indication method used. Wet Pond 1 Q (cfs) Hyd. No. 10-- 10 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 iill.""`"— 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 10 Hyd No. 2 I I Total storage used = 29,532 cuft 33 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 11 Wet Pond 2 Hydrograph type = Reservoir Peak discharge = 8.889 cfs Storm frequency = 10 yrs Time to peak = 770 min Time interval = 2 min Hyd. volume = 216,522 cuft Inflow hyd. No. = 5 - Post Dev Area 2A Max. Elevation = 185.15 ft Reservoir name = Wet Pond 2 Max. Storage = 145,144 cuft Storage Indication method used. Wet Pond 2 Q (cfs) Hyd. No. 11 -- 10 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 11 Hyd No. 5 I I Total storage used = 145,144 cuft 34 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 12 Wet Pond 3 Hydrograph type = Reservoir Peak discharge = 3.970 cfs Storm frequency = 10 yrs Time to peak = 778 min Time interval = 2 min Hyd. volume = 112,286 cuft Inflow hyd. No. = 8 - Post Dev Area 3A Max. Elevation = 186.23 ft Reservoir name = Wet Pond 3 Max. Storage = 82,039 cuft Storage Indication method used. Wet Pond 3 Q (cfs) Hyd. No. 12-- 10 Year Q (cfs) 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 J -- 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 12 Hyd No. 8 I I Total storage used = 82,039 cuft 35 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 13 Post Area 1 Sum Hydrograph type = Combine Peak discharge = 13.47 cfs Storm frequency = 10 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 76,862 cuft Inflow hyds. = 3, 10 Contrib. drain. area = 8.430 ac Post Area 1 Sum Q (cfs) Hyd. No. 13-- 10 Year Q (cfs) 14.00 14.00 12.00 12.00 10.00 - 10.00 8.00 8.00 6.00 6.00 4.00 4.00 t;\.lttti:iwi........ .................. _ 2.00 2.00 0.00 -. 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time(min) Hyd No. 13 Hyd No. 3 Hyd No. 10 36 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 14 Post Area 2 Sum Hydrograph type = Combine Peak discharge = 11.38 cfs Storm frequency = 10 yrs Time to peak = 718 min Time interval = 2 min Hyd. volume = 238,936 cuft Inflow hyds. = 6, 11 Contrib. drain. area = 2.660 ac Post Area 2 Sum Q (cfs) Hyd. No. 14-- 10 Year Q (cfs) 12.00 12.00 10.00 10.00 8.00 111 8.00 6.00 6.00 4.00 4.00 N 2.00 2.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 14 Hyd No. 6 Hyd No. 11 37 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 15 Post Area 3 Sum Hydrograph type = Combine Peak discharge = 4.568 cfs Storm frequency = 10 yrs Time to peak = 776 min Time interval = 2 min Hyd. volume = 126,817 cuft Inflow hyds. = 9, 12 Contrib. drain. area = 6.120 ac Post Area 3 Sum Q (cfs) Hyd. No. 15-- 10 Year Q (cfs) 5.00 5.00 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time(min) Hyd No. 15 Hyd No. 9 Hyd No. 12 38 Hydrograph Summary Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Hyd. Hydrograph Peak 1 Time Time to Hyd. Inflow Maximum Total Hydrograph No. type flow interval Peak volume hyd(s) elevation strge used Description (origin) (cfs) (min) (min) (cuft) (ft) (cuft) 1 SCS Runoff 100.41 2 724 294,013 Pre Dev Area 1 2 SCS Runoff 33.44 2 720 86,892 Post Dev Area 1A 3 SCS Runoff 29.80 2 722 79,570 Post Dev Area 1 B 4 SCS Runoff 82.57 2 716 166,960 Pre Dev Area 2 5 SCS Runoff 138.87 2 724 434,739 Post Dev Area 2A 6 SCS Runoff 18.87 2 716 38,243 Post Dev Area 2B 7 SCS Runoff 58.11 2 720 134,811 Pre Dev Area 3 8 SCS Runoff 87.68 2 720 228,781 Post Dev Area 3A 9 SCS Runoff 12.17 2 722 36,221 Post Dev Area 3B 10 Reservoir 11.21 2 732 72,601 2 196.11 38,622 Wet Pond 1 11 Reservoir 39.94 2 742 387,198 5 186.29 204,577 Wet Pond 2 12 Reservoir 27.15 2 732 200,426 8 187.09 107,501 Wet Pond 3 13 Combine 37.83 2 724 152,171 3, 10, Post Area 1 Sum 14 Combine 41.90 2 742 425,441 6, 11, Post Area 2 Sum 15 Combine 35.87 2 726 236,646 9, 12, Post Area 3 Sum 2-20-24 Bryant Road Subdivision.gpw Return Period: 50 Year Monday, 02/26/2024 39 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 1 Pre Dev Area 1 Hydrograph type = SCS Runoff Peak discharge = 100.41 cfs Storm frequency = 50 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 294,013 cuft Drainage area = 33.220 ac Curve number = 54.1 Basin Slope = 0.7 % Hydraulic length = 1368 ft Tc method = KIRPICH Time of conc. (Tc) = 13.47 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 1 Q (cfs) Hyd. No. 1 -- 50 Year Q (cfs) 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time(min) 40 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 2 Post Dev Area 1 A Hydrograph type = SCS Runoff Peak discharge = 33.44 cfs Storm frequency = 50 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 86,892 cuft Drainage area = 5.100 ac Curve number = 72.9 Basin Slope = 0.7 % Hydraulic length = 1220 ft Tc method = KIRPICH Time of conc. (Tc) = 12.27 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 A Q (cfs) Hyd. No. 2-- 50 Year Q (cfs) 35.00 35.00 30.00 30.00 25.00 25.00 t 20.00 20.00 15.00 15.00 10.00 10.00 5.00 5.00 \\******** .""...-----' 0.00 - - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 2 Time(min) 41 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 3 Post Dev Area 1 B Hydrograph type = SCS Runoff Peak discharge = 29.80 cfs Storm frequency = 50 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 79,570 cuft Drainage area = 8.430 ac Curve number = 54.3 Basin Slope = 0.7 % Hydraulic length = 920 ft Tc method = KIRPICH Time of conc. (Tc) = 10.09 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 1 B Q (cfs) Hyd. No. 3-- 50 Year Q (cfs) 30.00 30.00 25.00 25.00 20.00 20.00 15.00 15.00 10.00 10.00 5.00 5.00 111' 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 3 Time(min) 42 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 4 Pre Dev Area 2 Hydrograph type = SCS Runoff Peak discharge = 82.57 cfs Storm frequency = 50 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 166,960 cuft Drainage area = 12.160 ac Curve number = 68.3 Basin Slope = 2.3 % Hydraulic length = 845 ft Tc method = KIRPICH Time of conc. (Tc) = 5.93 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 2 Q (cfs) Hyd. No. 4-- 50 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 ' 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 Hyd No. 4 Time(min) 43 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 5 Post Dev Area 2A Hydrograph type = SCS Runoff Peak discharge = 138.87 cfs Storm frequency = 50 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 434,739 cuft Drainage area = 25.550 ac Curve number = 74.1 Basin Slope = 0.8 % Hydraulic length = 2420 ft Tc method = KIRPICH Time of conc. (Tc) = 19.81 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2A Q (cfs) Hyd. No. 5-- 50 Year Q (cfs) 140.00 140.00 120.00 1 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 - - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 5 Time(min) 44 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 6 Post Dev Area 2B Hydrograph type = SCS Runoff Peak discharge = 18.87 cfs Storm frequency = 50 yrs Time to peak = 716 min Time interval = 2 min Hyd. volume = 38,243 cuft Drainage area = 2.660 ac Curve number = 70 Basin Slope = 2.5 % Hydraulic length = 400 ft Tc method = KIRPICH Time of conc. (Tc) = 3.25 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 2B Q (cfs) Hyd. No. 6-- 50 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 J 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 Hyd No. 6 Time(min) 45 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 7 Pre Dev Area 3 Hydrograph type = SCS Runoff Peak discharge = 58.11 cfs Storm frequency = 50 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 134,811 cuft Drainage area = 15.230 ac Curve number = 53.5 Basin Slope = 1.0 % Hydraulic length = 1069 ft Tc method = KIRPICH Time of conc. (Tc) = 9.76 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev Area 3 Q (cfs) Hyd. No. 7-- 50 Year Q (cfs) 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 - J N 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 7 Time(min) 46 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 8 Post Dev Area 3A Hydrograph type = SCS Runoff Peak discharge = 87.68 cfs Storm frequency = 50 yrs Time to peak = 720 min Time interval = 2 min Hyd. volume = 228,781 cuft Drainage area = 12.580 ac Curve number = 75.6 Basin Slope = 1.1 % Hydraulic length = 1375 ft Tc method = KIRPICH Time of conc. (Tc) = 11.59 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3A Q (cfs) Hyd. No. 8-- 50 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 — 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 8 Time(min) 47 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 9 Post Dev Area 3B Hydrograph type = SCS Runoff Peak discharge = 12.17 cfs Storm frequency = 50 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 36,221 cuft Drainage area = 6.120 ac Curve number = 44.9 Basin Slope = 1.0 % Hydraulic length = 1090 ft Tc method = KIRPICH Time of conc. (Tc) = 10.02 min Total precip. = 7.72 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev Area 3B Q (cfs) Hyd. No. 9-- 50 Year Q (cfs) 14.00 14.00 12.00 12.00 10.00 4 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 1 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 9 Time(min) 48 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 10 Wet Pond 1 Hydrograph type = Reservoir Peak discharge = 11.21 cfs Storm frequency = 50 yrs Time to peak = 732 min Time interval = 2 min Hyd. volume = 72,601 cuft Inflow hyd. No. = 2 - Post Dev Area 1A Max. Elevation = 196.11 ft Reservoir name = Wet Pond 1 Max. Storage = 38,622 cuft Storage Indication method used. Wet Pond 1 Q (cfs) Hyd. No. 10-- 50 Year Q (cfs) 35.00 35.00 30.00 30.00 25.00 25.00 20.00 20.00 15.00 1 15.00 10.00 I 10.00 5.00 1 5.00 11 l ,dl 0.00 AIM ��muuiullllllllllllllllllll�l - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time(min) Hyd No. 10 Hyd No. 2 I I Total storage used = 38,622 cuft 49 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 11 Wet Pond 2 Hydrograph type = Reservoir Peak discharge = 39.94 cfs Storm frequency = 50 yrs Time to peak = 742 min Time interval = 2 min Hyd. volume = 387,198 cuft Inflow hyd. No. = 5 - Post Dev Area 2A Max. Elevation = 186.29 ft Reservoir name = Wet Pond 2 Max. Storage = 204,577 cuft Storage Indication method used. Wet Pond 2 Q (cfs) Hyd. No. 11 -- 50 Year Q (cfs) 140.00 140.00 120.00 120.00 100.00 100.00 80.00 80.00 60.00 60.00 40.00 40.00 20.00 20.00 0.00 miu�u�llllllll�� - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 1680 Time(min) Hyd No. 11 Hyd No. 5 I Total storage used = 204,577 cuft 50 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 12 Wet Pond 3 Hydrograph type = Reservoir Peak discharge = 27.15 cfs Storm frequency = 50 yrs Time to peak = 732 min Time interval = 2 min Hyd. volume = 200,426 cuft Inflow hyd. No. = 8 - Post Dev Area 3A Max. Elevation = 187.09 ft Reservoir name = Wet Pond 3 Max. Storage = 107,501 cuft Storage Indication method used. Wet Pond 3 Q (cfs) Hyd. No. 12-- 50 Year Q (cfs) 90.00 90.00 80.00 80.00 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 II I 20.00 20.00 10.00 10.00 0.00 iiiiitiIIillll 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time(min) Hyd No. 12 Hyd No. 8 1 Total storage used = 107,501 cuft 51 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 13 Post Area 1 Sum Hydrograph type = Combine Peak discharge = 37.83 cfs Storm frequency = 50 yrs Time to peak = 724 min Time interval = 2 min Hyd. volume = 152,171 cuft Inflow hyds. = 3, 10 Contrib. drain. area = 8.430 ac Post Area 1 Sum Q (cfs) Hyd. No. 13-- 50 Year Q (cfs) 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time(min) Hyd No. 13 Hyd No. 3 Hyd No. 10 52 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 14 Post Area 2 Sum Hydrograph type = Combine Peak discharge = 41.90 cfs Storm frequency = 50 yrs Time to peak = 742 min Time interval = 2 min Hyd. volume = 425,441 cuft Inflow hyds. = 6, 11 Contrib. drain. area = 2.660 ac Post Area 2 Sum Q (cfs) Hyd. No. 14-- 50 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 - L 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 1680 Time(min) Hyd No. 14 Hyd No. 6 Hyd No. 11 53 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Monday,02/26/2024 Hyd. No. 15 Post Area 3 Sum Hydrograph type = Combine Peak discharge = 35.87 cfs Storm frequency = 50 yrs Time to peak = 726 min Time interval = 2 min Hyd. volume = 236,646 cuft Inflow hyds. = 9, 12 Contrib. drain. area = 6.120 ac Post Area 3 Sum Q (cfs) Hyd. No. 15-- 50 Year Q (cfs) 40.00 40.00 30.00 30.00 20.00 20.00 10.00 I 10.00 0.00 ' 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time(min) Hyd No. 15 Hyd No. 9 Hyd No. 12 CALCULATIONS Wet Pond Number 1 STOCKS ENGINEERING Wet Pond Design Project: Bryant Road Subdivision Location: Erwin , NC Date: 1-Sep-23 Basin ID: 1 Drainage Area (A) 5.09 Acres Impervious Area 1.7 Acres Impervious (I) 33.40% Water Quality Volume Calculate Rv: Rv= 0.05+.9 X I Rv= 0.35 WQV= 3630XRDXRvXA R°= 1.00 Inch WQV= 6,478 CF Surface Area Average Depth = 4.00 SA/DA Ratio= 1.24 (Choose SA/DA Ration from the NC BMP Maunual Table 1 or 2) Surface Area= (SA/DA Ratio/100)X Area(Ac.)/43,560(SF/Ac.) 2,749 SF Orifice Sizing Design Orifice Q= CDAo ✓2gHo CD= 0.6 g= 32.2 FT/S2 Ho= H/3= 0.76 FT H= 2.27 FT Ao= 0.01 FEET Design Pipe= 1.25 INCH Design Orifice Q= 0.04 CFS Days to Drain = 2.1 Wetland Plants -Vegetative Shelf Vegetative Shelf SurfaceArea= 1332 SF #of Wetland Plants= 333 WET DETENTION FOREBAY VOLUME COMPARISON FOREBAY VOLUME POND VOLUME ELEVATI SURFAC SURFAC INCREME ELEVATI SURFAC INCREME ON E AREA E AREA VOLUME ON E AREA VOLUME 185 2398 2,610.5 188.0 398.0 186 2823 540.5 3,051.0 189.0 683.0 187.0 3,279.0 852.0 3,522.0 190.0 1,021.0 188.0 3,765.0 1,215.0 4,017.5 191.0 1,409.0 189.0 4,270.0 1,757.5 4,542.5 192.0 2,106.0 190.0 4,815.0 2,699.5 5,096.0 193 3293 191.0 5,377.0 SUM = 7,064.5 5,729.0 192.0 6,081.0 6,687.0 193 7293 SUM = 35,255.5 Forebay isl 20.0% I of Pond. Pond Average Depth: 4.0 Feet Buoyancy Resistance Calculations for Outlet Assumptions: Unit Weight of Saturated Soil [gsat] = 120 pcf Unit Weight of Concrete [g�on�] = 147 pcf Unit Weight of Water[gw] = 62.4 pcf Base Length [L] = 4 feet Same if Extended Moorbase Base Width [W] = 5 feet Same if Extended Moorbase Known: Inside Diameter of Structure (ft) = ID 2.78 2'X3' Box Outside Diameter of Structure (ft) = OD 3.44 2'X3' Box Depth of Structure (ft) = D 4.5 Minimum Base Slab Thickness (in) = T 6 Minimum Top Slab Thickness (in) = Tts 0 Average Invert Thickness (in) = Ti 6 Base Slab Area (ft2) = A (L x W) or pi(L/2)2 Displacement Volume, Wetwell (ft2) = Vw pi(OD/2)2D Displacement Volume, Base Slab (ft2) = Vbs A(T/12) Buoyant Force = B (Vw+ Wbs)x gw Effective Weight of Soil Over Slab Extension = S (gsat-gw) x (A-pi(OD/2)2)D Structure Weight, Walls = Ww (pi(OD/2)2 - pi(ID/2)2)Dgconc Structure Weight, Invert = Wi pi(ID/2)2Tigbanc Structure Weight, Top Slab = Wts pi(OD/2)2(Tts/12)g�o�� Structure Weight, Base Slab = Wbs A(T/12)gconc Structure Weight, Total = W Ww+ W; + Wts + Wbs Table of Calculations: A Ww Wi Wts Wbs W (ft2) (Ibs) (Ibs) (Ibs) (Ibs) (Ibs) 12.56 2131.74 445.9094 0.00 923.16 3500.807 Vw Vbs B S W+ S = 4348.55 (ft3) (ft3) (Ibs) (Ibs) B = 3000.33 FOS 41.80 6.28 3000.33 847.75 Is W+ S > B? YES 1.45 Conclusion: Since the weight of the structure and the base slab is greater than the buoyancy for of the structure, the resistance to buoyant force is provided. STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe # FES#1 • 2"4P 'I Tli0�.' Known: + 4 ��00�46.1•�S S . •,:••'aWitI+0•�- 18 RCP 3do A 1:%��2�14�%1ii A iiiii�'� /����ezet. 4do Noliw146.411 .4towitst v 10=Clio= 10.95 fit jt:.�` ��:�, 6�•i1.40:j..."�� Min. Required: Plan iv EP La = 8 W= 8 ■ La --Iii 3do= 4.5 , �,�:, 40.10„aP_l Tri:,lte,.; d50= 0.3 (Rip Rap Size) ii_I(11�J d %d!ii.- :�a•��p_:-,Illltlil Section AA *Filter blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe # FES#2 • f •,•olovei 101 - Known: 30 RCP 3d0 A iii I�%�i�����%ii A Qio= 23.28 do '�C����'•�1��g� Vie= 4.74 46,4vie 6:46lit/• ,..4,,Aselkir Min. Required: ....dlavbsea La = 12 Plan W = 12.3 La 7 3do= 7.5 d50= 0.3 (Rip Rap Size) i Ad i;;;.ew i�i:► '.040: Ia. I Section AA 'blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. CALCULATIONS Wet Pond Number 2 STOCKS ENGINEERING Wet Pond Design Project: Bryant Road Subdivision Location: Harnett, NC Date: 3-Apr-23 Basin ID: 2 Drainage Area (A) 25.55 Acres Impervious Area 12.34 Acres Impervious (I) 48.30% Water Quality Volume Calculate Rv: Rv= 0.05+.9 X I Rv= 0.48 WQV= 3630XRDXRvXA R°= 1.00 Inch WQV= 44,952 CF Surface Area Average Depth = 5.00 SA/DA Ratio= 1.31 (Choose SA/DA Ration from the NC BMP Maunual Table 1 or 2) Surface Area= (SA/DA Ratio/100)X Area(Ac.)/43,560(SF/Ac.) 14,580 SF Orifice Sizing Design Orifice Q= CDAo ✓2gHo CD= 0.6 g= 32.2 FT/S2 Ho= H/3= 0.92 FT H= 2.75 FT Ao= 0.05 FEET Design Pipe= 3 INCH Design Orifice Q= 0.23 CFS Days to Drain = 2.3 Wetland Plants -Vegetative Shelf Vegetative Shelf SurfaceArea= 3324 SF #of Wetland Plants= 831 WET DETENTION FOREBAY VOLUME COMPARISON FOREBAY VOLUME POND VOLUME ELEVATI SURFACE SURFAC INCREME ELEVATI SURFAC INCREME ON AREA E AREA VOLUME ON E AREA VOLUME 175.0 0.0 176.0 175.0 20,046.0 2,068.5 20,693.5 177.0 2,368.0 1,769.0 176.0 21,341.0 4,523.5 22,004.0 178.0 2,767.0 2,143.0 177.0 22,667.0 5,323.0 23,345.0 179.0 3,192.0 2,544.0 178.0 24,023.0 6,173.5 24,714.5 180 3642 2969 179.0 25,406.0 7,196.0 26,109.5 181.0 4,234.0 3,547.0 180 26813 8,788.5 27,637.5 182 5294 4502 181.0 28,462.0 SUM = 34,073.0 30,127.5 182 31793 SUM = 174,631.5 Forebay is 19.5% of Pond. Pond Average Depth: 5.0 Feet Buoyancy Resistance Calculations for Outlet Assumptions: Unit Weight of Saturated Soil [gsat] = 120 pcf Unit Weight of Concrete [g�on�] = 147 pcf Unit Weight of Water[gw] = 62.4 pcf Base Length [L] = 5 feet Same if Extended Moorbase Base Width [W] = 5 feet Same if Extended Moorbase Known: Inside Diameter of Structure (ft) = ID 2.78 2'X3' Box Outside Diameter of Structure (ft) = OD 3.44 2'X3' Box Depth of Structure (ft) = D 4.5 Minimum Base Slab Thickness (in) = T 6 Minimum Top Slab Thickness (in) = Tts 0 Average Invert Thickness (in) = Ti 6 Base Slab Area (ft2) = A (L x W) or pi(L/2)2 Displacement Volume, Wetwell (ft2) = Vw pi(OD/2)2D Displacement Volume, Base Slab (ft2) = Vbs A(T/12) Buoyant Force = B (Vw+ Wbs)x gw Effective Weight of Soil Over Slab Extension = S (gsat-gw) x (A-pi(OD/2)2)D Structure Weight, Walls = Ww (pi(OD/2)2 - pi(ID/2)2)Dgconc Structure Weight, Invert = Wi pi(ID/2)2Tigbanc Structure Weight, Top Slab = Wts pi(OD/2)2(Tts/12)g�o�� Structure Weight, Base Slab = Wbs A(T/12)gconc Structure Weight, Total = W Ww+ W; + Wts + Wbs Table of Calculations: A Ww Wi Wts Wbs W (ft2) (Ibs) (Ibs) (Ibs) (Ibs) (Ibs) 19.63 2131.74 445.9094 0.00 1442.438 4020.085 Vw Vbs B S W+ S = 6699.08 (ft3) (ft3) (Ibs) (Ibs) B = 3220.76 FOS 41.80 9.81 3220.76 2678.99 Is W+ S > B? YES 2.08 Conclusion: Since the weight of the structure and the base slab is greater than the buoyancy for of the structure, the resistance to buoyant force is provided. STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe # FES#1 • 2"4P 'I Tli0�.' Known: + 4 ��00�46.1•�S S . •,:••'aWitI+0•�- 18 RCP 3do A 1:%��2�14�%1ii A iiiii�'� /����ezet. 4do Noliw146.411 .4towitst v 10=Clio= 10.95 fit jt:.�` ��:�, 6�•i1.40:j..."�� Min. Required: Plan iv EP La = 8 W= 8 ■ La --Iii 3do= 4.5 , �,�:, 40.10„aP_l Tri:,lte,.; d50= 0.3 (Rip Rap Size) ii_I(11�J d %d!ii.- :�a•��p_:-,Illltlil Section AA *Filter blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe # FES#2 • f •,•olovei 101 - Known: 30 RCP 3d0 A iii I�%�i�����%ii A Qio= 23.28 do '�C����'•�1��g� Vie= 4.74 46,4vie 6:46lit/• ,..4,,Aselkir Min. Required: ....dlavbsea La = 12 Plan W = 12.3 La 7 3do= 7.5 d50= 0.3 (Rip Rap Size) i Ad i;;;.ew i�i:► '.040: Ia. I Section AA 'blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. CALCULATIONS Wet Pond Number 3 STOCKS ENGINEERING Wet Pond Design Project: Bryant Road Subdivision Location: Harnett, NC Date: 5-Sep-23 Basin ID: 3 Drainage Area (A) 12.58 Acres Impervious Area 6.45 Acres Impervious (I) 51.27% Water Quality Volume Calculate Rv: Rv= 0.05+.9 X I Rv= 0.51 WQV= 3630XRDXRvXA R°= 1.00 Inch WQV= 23,355 CF Surface Area Average Depth = 4.00 SA/DA Ratio= 1.77 (Choose SA/DA Ration from the NC BMP Maunual Table 1 or 2) Surface Area= (SA/DA Ratio/100)X Area(Ac.)/43,560(SF/Ac.) 9,699 SF Orifice Sizing Design Orifice Q= CDAo ✓2gHo CD= 0.6 g= 32.2 FT/S2 Ho= H/3= 1.00 FT H= 3 FT Ao= 0.03 FEET Design Pipe= 2.25 INCH Design Orifice Q= 0.13 CFS Days to Drain = 2.0 Wetland Plants -Vegetative Shelf Vegetative Shelf SurfaceArea= 2166 SF #of Wetland Plants= 542 WET DETENTION FOREBAY VOLUME COMPARISON FOREBAY VOLUME POND VOLUME ELEVATI SURFAC SURFAC INCREME ELEVATI SURFAC INCREME ON E AREA E AREA VOLUME ON E AREA VOLUME 176.0 203.0 435.0 177.0 349.0 656.0 176 9098 9,485.5 178.0 520.0 923.0 177.0 9,873.0 1,700.5 10,274.0 179.0 724.0 1,234.0 178.0 10,675.0 2,242.0 11,090.0 180.0 954.0 1,572.0 179.0 11,505.0 2,835.0 11,932.5 181 1209 1935 180.0 12,360.0 3,589.5 12,800.0 182.0 1,608.0 2,427.0 181 13240 4,884.5 13,760.5 183 2308 3426 180.0 14,281.0 SUM = 15,251.5 15,318.0 181 16355 SUM = 84,660.5 Forebay isl 18.0% I of Pond. Pond Average Depth: 4.5 Feet Buoyancy Resistance Calculations for Outlet Assumptions: Unit Weight of Saturated Soil [gsat] = 120 pcf Unit Weight of Concrete [g�on�] = 147 pcf Unit Weight of Water[gw] = 62.4 pcf Base Length [L] = 5 feet Same if Extended Moorbase Base Width [W] = 5 feet Same if Extended Moorbase Known: Inside Diameter of Structure (ft) = ID 2.78 2'X3' Box Outside Diameter of Structure (ft) = OD 3.44 2'X3' Box Depth of Structure (ft) = D 4.5 Minimum Base Slab Thickness (in) = T 6 Minimum Top Slab Thickness (in) = Tts 0 Average Invert Thickness (in) = Ti 6 Base Slab Area (ft2) = A (L x W) or pi(L/2)2 Displacement Volume, Wetwell (ft2) = Vw pi(OD/2)2D Displacement Volume, Base Slab (ft2) = Vbs A(T/12) Buoyant Force = B (Vw+ Wbs)x gw Effective Weight of Soil Over Slab Extension = S (gsat-gw) x (A-pi(OD/2)2)D Structure Weight, Walls = Ww (pi(OD/2)2 - pi(ID/2)2)Dgconc Structure Weight, Invert = Wi pi(ID/2)2Tigbanc Structure Weight, Top Slab = Wts pi(OD/2)2(Tts/12)g�o�� Structure Weight, Base Slab = Wbs A(T/12)gconc Structure Weight, Total = W Ww+ W; + Wts + Wbs Table of Calculations: A Ww Wi Wts Wbs W (ft2) (Ibs) (Ibs) (Ibs) (Ibs) (Ibs) 19.63 2131.74 445.9094 0.00 1442.438 4020.085 Vw Vbs B S W+ S = 6699.08 (ft3) (ft3) (Ibs) (Ibs) B = 3220.76 FOS 41.80 9.81 3220.76 2678.99 Is W+ S > B? YES 2.08 Conclusion: Since the weight of the structure and the base slab is greater than the buoyancy for of the structure, the resistance to buoyant force is provided. STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe # FES#3 •+l,„,..04. Known: iper•ipze+ is j a..- —�`+- 24 RCP 3d0 A ;i Wi � lie°A �'�.•��teitifiti Qio= 4.112 II.. do ������s�S��li�i Vio= 1.31 t 1;��1��+ +� o�r Min. Required: Plan ` '.�41Irr La = 8 W= 9.2 7.11117759 La 3do= 6 d5o= 0.3 (Rip Rap Size) Fier Section AA blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. MAPS J BEFORE DIG, gRYANT RD (SR 1R�W��pAVED) 0,0 WPB2�opG26 o 0�� VARIABLE -_' ,' % _ >',( mm NORTH CAROLINA 1 ____ _— �4 _tW r� �yIkei '� 1 ,/ , ,;WW W.n000C.OFg �(r --� 20'LANDSCAPE BUF`��� ^'� /�� —'/ +'�J,/%.+'� a lin sr 71 a itkt. , s „,,,;;-/------"-,,-,--,--/ - 7-- „I' it ,,'ct \.1' �y1 / 1- .�I�' ( ( °^' > . r� z 111 f / ..n I I / _ SP-9N �E O ---- ------ %II\ tl air' y °' �� of ��.',". =— �j' I�� I �� <'� ¢e-- 1-7`�/1'/ L rIII IIi `- i �I �! �/ \ ^- 9K, II (1 1. \\ 3 m W 0 ^. __- � �1 m. 140 111�\ 1• �y � �A* ...�� •\ ,, Y. \� '\9ETLAN i �� �usi ro \ > `0 C �� �` � Y �\ 1 PRO.I /( Ir i n 1„.fr�\♦ ; DGE OF WATER \ 1 ,.,° , I scM _ I / / �� V A\` `\ 'o• "e2 BLN-C-1874 \�\��� 4 � �� � '��>% r` � i � \.. \\ 1 t I lam,l/� '�� c:: Y \- ,,,:p11) .,...-..,._...,,,.....„,,,, --3q4140k. >,-"Sr-;."-c\s„ '''', •:', 1.#,AN.,..„4,-.4" Ak • ,„-.4,-\\ \ , ‘S.w. .,„40-swiv\-‘" , 1;,, ,, __ '' ' 00 \ vo•tv- < '40' * '- \ ' ` , .- ' \ fiP# IP-)3'k„, \ ,4,4% ' ''-**449.A1, R - ),„ -c''' ' -'-7,,,' 1 3... . s la 1,‘ \ ikt '‘ i 4 / Ikl N. /;..." ,"\ „A.,\,„ ., .,k444P/4,4 • Ireb \ \ 04•N-,‘ **.tVerrit0v4vri.‘X.---. 8., \ ,.!/..4, .4.,,,,,,. .47A... sliv 4104>'44‘/4, -, , ‘ , 411' °X \‘,40 0,,0\•kk:4)00 ..,, '„..-....,.. # \ \ , ,..7r ''-'''. ti„.....,- v .,. /..„--),,,,,v... , ff• ...„ , ,,, ••4 °2400 _,,_ \ e(`�. _�, ,..# ♦ f _,4 , > 4,40:0,4k � - ���\I EDGE OF WATER \. 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PROVERBS 19:21 4 BEFORE YOU DIG, EROSION CONTROL LEGEND �o 0 c -"- __ SILT - --- aLT�cEw Er coNsrm�onov _ �'� ENTRANCE '� JA P �" "j R PaNRF PR� N ` a 9 �� ,� V i' > aN -- wwwALL CENT ___� N ^A`-S .� i j cwaEre mrca wna�-wr, o NORTH CAROLINA - _ c.org NNE CALL CENTER - _- I -� i .4� --- I // rewalesra®ra 1 I i -- it r _ %// o TOT L AREA .20 AO f ,2° i OsaNNvgnNHfBAryI I ./ e% AROAA DISTURBED r' - / '-' rLw N10RH'>b yei- --__-� 9a \ v[, w I / %/ g BOTTOM LENGTH_Tar r,'y , SKIMMER SEDIMENT BASIN ' BASYN N]lfNE_7.ZOOO ( ; ''--- ' .... .' i TEMPORARY dVERGION 2 UO r\ I I1 ( 1 XDR X10M < ` ' i LI W/NAO DSJB EXCELGKKI MATTNO N u `/ _ -B=,1f�1EEE455p1HJ a..ly M .r ,- _�, r (\ \ 1\ \ R/P RAP SIOESYO CS..2I \ '3' `� ® PRE-FORMED scowl HOLE ��pp I V 1 1 T % Df1VAffRNG TOE •AYB Nq'�� l \ L WI w A 1 I I o1 c>K.w - Q'WHOP SMO PNT A© -� II II \. aLT/DeWATaallo eAO \ BOTTOM MIN F �iLE a- 1 '` I 1 -- BOTTOM LENGTH 98 \ SEDIMENT U FF F BASH VOLUME 10,600 COL \1 \ / \ HARDWARE CLOTH Da INLET PROTEOTKKJ _ _ F,LE ` BASH OEPRH-26' I ©� �_-- ----- i II A A �' _ _ .. EXCELSIOR Mnrnwo - , . SKIMMER 92E 25" \ O \ ' ', \ \ � ` HA91I 3 , BP I' QO7� ORIFlL'E SIZE-25" MDR EfORH-Jz' \ 3z A\ . __ � %A MR OEP1H o..Se ar eeEncs - J v �\ �V � BSI ��v OD OD z \ ,\ m / \ ownerFOXE �_ \ �straAc \ 'l RIP RAPS , 1`` - J \i\ \ owner \�, � \ \i A, v • PRo>Ec / p 4 s I_GE of WATER \ BLN=C-1874 \\ �' 1 ' ,V '' scDalwr eAsrLe tdP /' ,Ry \v / i F I \ eAsx T �AFFLE,' 4 q 1111 -i \, � ` , RAP ` I Q CIE 35 * 7.91 * 1.02 �� Py� \ 4t k 1D2 w\ ---\ \ \ J J/ 1 Q= .35 * 7.91 * 4.76 '_. ______ s� / I \v v _ v,y 13.18 V \ \V A 1 \ e: t• A'c's V 13 I v �\V `, 1 Z br) Q gt 4 Q= CIA `y v v A v �` �v �`v I Weill I Q= .35 * 7.91 * 5.60 I ,-r' % I \ "`:, Q= 15.51 \ � s mi vI yTR y ��- I E \ t vo �'1 v� kll i 1 Ate- '� . /, l V ,i p ,1 \, .�' it 1 1 I IB \ • ^��. �9"' fi I f it iq AFFI MA I 41 CIA \ \ / � / % / I 1si. �1 \,\,,,,,;--,‘, Q= .35 * 7.91 * 0.83 / I �� ( ���11CO) Zk ' A� •Q- 2.31 // aA f � , �iT�C 1 l % ivJ CIA qcr \\ T l `l /�yqf Q _B \ % / �/ C /� I / / 1 I /Oj WAWA STnA T BA Q= .35 * 7.91 * 1.91 �,. 1 ,'� ` r��' ! I BOT1LMlr'm LENGiN_2.RY (/ BASIN ICLUME-21,600 CF 5.29 BASIN OEP N-2s QA\ - / /// /''/ i /��`. / 7l 4� f / I BRNND szE=.S. V `. - - % r ORIFICE NYE=ZJ" 11� se BAFNEPFLES QEPRH-0.T ` 4AaEIi // / % // • SOEBLCP£63 21 Q- A.GAY 1 1114 / I OEWATERM/G TRAP-J GAYS 77- e G' i / Q= .35 * 7.91 * 1.13 o S TOP IMMER BrBASH v, �\ � ' / Q= 3.13 _ /' BOTTOM LDLCT 210' �vcE ` ;'' �/ /' - ,! sour*IENGN=90' pep' ` ' BASN NYUNE=B4O0o a CUTLET ' [y\ -- j' i / / RIP RAP S`, SILT I H ` BASN OEPRH 25' q /' i / \d/RET I 11„L SIMMER szE-zD^ `d_ 5,' % !.. �_c�� r W �..���N I CAR0zj1. MIME SZE=1.9" E� / / CIA DEw�Alml GN 11ME-3 DAYS "� T4" 7/i // // SEAL ��� ,E/, , r/ r // 19843 Q= e• /2 / O SMaI1r9 r:Tor BA$1rl * * - 7 / ,c4.L• / 7 LENGTH 400 L'YGI No . Q= .35 7.91 1.52 i i' / ey ! / rmv xroRH-90 1V'l1/ '( ' BASIN VOLUME-40000 CF / / / @/ ` BASN DEPTH 26' /4OeV oI IEYP.R/W PIPE NPR / -2� / MDR r1_3-SS. 5/23/23 \-; - 7E4 N WRIEi ' - MERR GEPRH=0.50' �gyypp ". IERspy PRorecn / \ s 11JID .smuo - ( Tg n r-Jams EC RUNOFF CA ENTRANCE / _ _ li ,.,./ MAP r I - r \fit, sue.. - - - -------------- --------I REVISIONS 35 * 7.91 * 4.59 v Q= 12.70 1 NaE _..,,.-,.><,.�'� r I 1J_/l V owner FENCEI _ FnE, Q= CIA Q_ .35 * 7.91 * 3.79 Sediment Ba s in Runoff Map i� , _____- , , , FILE NO. 2022-063 Q 10.50 $� HORZ.SCALE: 1"=100' Imo-` ` / SCALE: = 1 DO' VERT.SCALE: NONE / I (::::::::::::) ��0 2002 0 300 • MANY ARE THE PLANS IN A PERSONS HEART,BUT IT IS THE LORD'S PURPOSE THAT PREVAILS. PROVERBS 19:21 ---- I I _ --7,; BEFORE YOU DIG, ;'- ' CALL _ -- 1720) ,-:- i (�/�J YAN(RD W(PAVE) i'�i%��ii o BR PUBLIC 26 VARIABLE WPB p000 PG ! j NORTH CAROLINA - / ONE CALL CENTER r' i www.ncocc.org •-�-- - a i za° �/ o i — i / i -�/ I re to i � 3 I - 1 W 1 t 0 zoo 1 i � v w `i \ 1 \ \ 1 DGE OF WATER J \�` • \ BLN-C-1874 Total Pervious 33.22 Ac , „,, , / / ---', \ \‘`. \\ \( \ . \\. - i L-- .-- 0 < / , / / \ `\ la ri ,' / \ Tbta Pervious 1523 Ac \ 1 `� \ j, \ O \ ' IC 1 Q ` $ `w > t i i , � # % •1`"i�` s. ,a \;y11 1 p� �� //i / // // / ��� v •v ��, / i / i" \` �� %� �i ; �` k' ` i; /;/ ji Total Pervlflfis 129X6 A ';,`Q`�N------0,11111 lO,./ � = SEAL mil i� 19843 �-�------ -- ! ! � `•�FNcINEEc,:�i • ,� �' ' \ 3/30/23 V��.N, � % I I PREDEV RUNOFF /� / 1. _ MAP j- _ma's ' REVISIONS y _ \`, 1 2/28/20 EC&PWS Comments 1 \ _ 4/16/20 RFC—Kolter Rev. - __ `~-'// 3/7/23 30%Plot Set ,,v, ,„TT:T. Pre De ve lop me nt Runoff Map - 3/17/23 50%Plot Set , , , , FILE NO. 2022-063 E'%Y' I`. 2y; , HORZ.SCALE: l'=100' -_ \ ` / SCALE: = 1 00 VERT.SCALE: NONE C , it 0 I 100 zoo 250 300 ar00 1 MANY ARE THE PLANS IN A PERSONS HEART,BUT IT IS TN LORD'S PURPOSE TPA'PFEPiL, PROVERBS 19.2' - BEFORE YOU DIG, ► ► 44. ► . CALL - ► - o m /�� SR VED) ► . ��O IABLE D Hp PG 26W(PA _ -/ J �, -'J' : � X of Q VAR PB 200 - ,- , m� NORTH CAROLINA ► "' ®NE CALL CENTER - - 1r --- }S` . , , -- ,, www.ncocc.org - r - -- _°,:r i a 20 LANDSCAP��.��� - - �� / Filir:.-->------r-forinrm ,0 . :111!".Tvi, , >_,„._,,- , 0 6'''' I /37',*\ li i ',,;,:\titikm .n.:., ,,,coe.,,,r,....041VIIIrlitniatill. ,,, '-'' ,,,,i il ),,,- 0 Total A9�ad i V' litr" ' �i� Onsita lmparvious�Q�O Ac A( \ \ 0 E 0 11, K4 w 1 ItiMi .,z. Iiiii Itoilla - - 0 -:--1 f'\ I y i m„7) 7. \�"71--- ,. ;- to W w ::: ::t7,S-- \\c''ii \�� 0. &, \o- `\• PRO^` / A /.1* . + �\ \ DGE OF WATER \\ \ \ ' BLIV�C-1B7�I e,\ igia/5°O2 -c % 077� o \e,�COS\ \ \Cf` f '\ S �\ ‘04.\ j' e T „\ ,, :„;: , , N. .-'-,„-A1/4 ___ . •,•. . _ • , yr-#$: 4' # , t6,\,.\,,, , \\ \ ye , ;\/ ,.,�� A� _ ;\ate ' ;> /, 0 do ,,, ,,,, ,,,,, , . - - -- ,5•:‘,.,-,.,lir#,:.• 'N----'-\--z---irarA\.;* ,': , -\\ ---' z \ vre #\,*' _'`�� '$ r' -1y./ .,,. .''.`,.s",:,''' , lir-,>\ , ,<, , ,,,4,, *..N. , '41}0,,,,v ' ,‘'' 0 , ��y♦ ♦ , EDGE OF WATER ,,, \ ,,,, ,„, \ , \ \" „0 , , ok. 1. 2 ' 'N''',\\''\ -1.'' -, 644 ,.,, 1, ! ///B mil„,,,,, : ,,, 4, �.\*,,--''.;; --*4..A.',,,,'--,' 41*",„„4 ssle,_''''iode**':\'‘ItioN ),.4,,,,ffr.,>,11 ��, '. YAP.. \ , P „ 1 ,\\♦♦ Total 6.12 Ac /, ___. ,:,,,\,s,,,,s7,),,,\ #,4„,„. f \\\ P ♦,,,..„ . \ , ), _,- � c\isli:. ,7:---?•.A .. . \L ♦,, SPACE \ \ ,,,,, _.________::,,, ,000440p. • 00. 010, ,N . ,,.,, ,a,.,i, ::,..<,N\-*,07' ,,, e ., #0 \ 40",,, ,.;.-... -_,_:: Ali-,,,,1 VI \ 'i \ s\''------,., '% ' --/ ` `\S , Q,A : ,/ am )744410,41100.'•. '''\r. MIL. AN t L.- j.,-1112 § ,, \,,o,r,„_,.( 11: .., r'C't:Z3N' 111*‘....040N''',C.,,,. ,:\''44p.' / • / . r ' .-',' .4', 4/AlILt.i,tt-_1/4,,;-\-N\s ,4. ,"t-y°t k `y .‘11:i i:o i ,_ -\,'i 0lL'i fT--' ttl--1y1',i A-- I 1202(58 c ` 9 ,_s:1-N-1 r,, \-':,,N,\v.:4:4A,1 NeT ' \>>" A" Zii „,‘,..ir.: 4 '14,40 ::*:,:dir-li__,,,.: ,,,,,";,.3),,-, A .•1 1 /// . iio, 11/4.4 , ,,. ,„ ,, ,,... ,, „,_,iim, -..„,,:.T._7,-,-\‘,. :1 7.::::171;4160sr SP Iv ‘2-‘, ,c,..,-,,,, \ ''' \\4k8S) 1"447' ;\*'''\2 ' ',744-0 \Ao ,4104'1404 —4 0,.\)(i , '''''''' `,VC;\.-.,*-,,4.0>4_,0<4 ."4k';\./Y.X_i\V.'•,,.'1',.,vr',A A''tftd2:s e'%'',;4\*/,'4,','\'''''I'lAA r''\\12:r,11'10:11'-'"-'°''.'',,'''\411 14,&:,41::r/ ‘:#•.,-.,,4-*-,,::,',,'"7:i,.,- V ► I. . .,, \ 4 INS a1 _ '--4 .4 0?- *\4 41 , N / , 4 S., e , 9 m!� v v I / SEAL \ �16� _ �� = 19843 c � a //A i Fas VEER; ' 4\, id,r5.55,,'AP �iLYlAEL `` i\ �t \ O�7si iou 11 'Ac . ; � '' ,r Ag•� W;gs r°°ea 3/30/23 \ y = x POST OEV -, RUNOFF MAP ''\ RENSIONS i' lam% j i ogEToia/3 S: / - // SPACE 9J 11 Post Tie ve to me nt Runoff Map °P`�- po r ii:: , , ��/ FILE N0. 2022-063 % / /}9�/ / HORZ.SCALE: 1°=100' VERT.SCALE: NONE 6C, SCALE: 1" = 100' • I. w 0 100 200 250 300 ( /-�C oo MANY ARE THE PLANS IN A PERSONS HEART,BUT IT IS THE LORDS PURPOSE THAT PRE,t,- PROVERBS 19.21 - �L