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Home My WebLink AboutSW5230801_Design Calculations_20231121 Sitework Calculations 70 Mosswood Blvd. Youngsville, NC Owner/Developer: Allen Pipkin Albemarle Properties LLC 10320 Durant Road Ste 113 Raleigh, NC 27614 CARD • c SC L r: • :` •'••Fib,, ``11',1 „ 4r /Z.5 STOCKS REV.7-26-23 REV. 11-20-23 ENGINEERING 801 E. Washington Street Phone: 252.459.8196 PO Box 1108 Fax: 252.459.8197 Nashville, NC 27856 Mobile: 252.903.6891 Email: mstocks@stocksengineering.com STOCKS ENGINEERING Designing the Future,Today TABLE OF CONTENTS NARRATIVE Site Location Project Description Stormwater Management SUPPORTING DOCUMENTS USGS Map County Soils Map NRCS Soils Report FEMA Floodplain Maps NOAA Precipitation Data Geotechnologies Soils Report CALCULATIONS Constructed Wetland Design Worksheet Buoyancy Resistance Calculations Pre vs Post Runoff Computations Rip Rap Outlet Protection Worksheet NCDENR Forms Stormwater Management Permit Application Supplement EZ Form O&M EZ Form Deed Secretary of State E-File Report SNAP Tool PDF MAPS Pre. Dev. Runoff Map Post Dev. Runoff Map Site Location Allen Pipkin of Albermarle Properties, LLC has contracted with Stocks Engineering to convert a previously designed Bioretention into a Constructed Wetland and pursue permitting of the proposed revision. The property is located in Youngsville, North Carolina. The subject property is located on the south side of NC 2019 (Mosswood Blvd), East of US Hwy 1. The proposed site will have two entrances on Mosswood Blvd. The PIN is 1843-71-6024. The site address is 70 Mosswood Blvd. and is located in the Town of Youngsville in Franklin County. Project Description Albermarle Properties, LLC currently owns the property and is improving the site with buildings, parking lots, and the associated utilities and stormwater control measures. There are three multitenant buildings that will ultimately occupy the site. The onsite storm drainage system will collect and direct the stormwater runoff to the constructed wetland that is proposed at the rear of the property. The Wetland is designed to meet the pre vs. post runoff requirements of the 1-year, 24-hour rainfall event as required bt the State of North Carolina in the Town of Youngsville. The wetland will be equipped with an emergency spillway that is designed to safely release rainfall events greater than the 1-year, 24-hour storm without overtopping the main embankment. Geotechnologies provided a soils boring report for the site that is included in the supporting document section of this calculation packet. Stormwater Management Plan The main project soil consists of Sandy Loams. These onsite soils are mainly Cecil sandy loams. The entire site has a Hydraulic Soil Group classification of Type A Soils. Soils information was obtained through the NRCS website: http://websoilsurvey.nres.usda.gov/app/for Alamance Count. The site ultimately drains to Richland Creek beyond the Southern property line. The States stormwater requirements of this site requires this project to meet Pre vs Post for the 1-year, 24-hour rainfall event. The project meets the Pre vs Post at all points of discharge with the one proposed constructed wetland. The Peak Flow Attenuation is proposed to be accomplished with one (1) constructed wetland located at the rear of the property. There are two (2) storm drainage systems that will be installed to direct the stormwater runoff into the SCM. All proposed impervious area is directed into one of the storm drainage systems and into the SCM. The SCM is designed to safely discharge rainfall events larger than the 1- year, 24-hour storm event. Calculations for the proposed SCM can be found in this calculation packet. The Pre and Post Development flow rates were modeled with the SCS 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. SUPPORTING DOCUMENTS USGS Map ---—" a 91 1k lr-ws" \-1-14,301. le"�V GREEN RD � -, .,_ I 400i. t I . (1, 1 [ 1 SITE z) ' ILLWOOD DR / it `� 90 N A'ao --- , i Youngsysll 84, 400 x / ��o. 0 rir,,7 IA Ipii.v s /4 44E01W/c+: pr: ilK �. , 89 `moo -7 0 .AO -M / �A Y O _ 1117 r n A\\ H) 111 DRtik-_-_,..�R RAA ( � Ao 4 �`GN�t. FDA/ �Aj�, CO_ eo,„,,, Ilk c_ •`� FULWORTy4il ,JM ,1, v ilikii��J_►bo. _ 1 �� 17,47 *:�Yi�t A� v - 88 otitall -4'.'\4*((.4j 0 kl - pe ,4 ,-/_ ,n, L i ' *---44 . /c7 1°4 ,411_,; 1 sq, . 4 t- ) a . FOREST w� vr - 1 (- e ...„ . y _ DIT 1 i j, '� 3987000m N Alma 5 N'14°,;81:16:. NI_ _ Pr"takAl PI 23 24 725000mE -78.5000°36.0000° ROAD CLASSIFICATION M N fri Expressway Local Connector o N LINA Secondary Hwy Local Road co 0 Ramp 4WD -00 n r,..Y •Interstate Route n US Route O State Route M XATION N �x r•cn 1 Stem o 0) 2 Wilton M M 3 Kittrell v 4 Creedmoor -cD O 5 Franklinton Z r` 6 Bayleaf w 7 Wake Forest 8 Rolesville GRISSOM, NC z z S 2019 SUPPORTING DOCUMENTS County Soils Map UNITED STATES FRANKLIN COUNTY,NORTH CAROLINA DEPARTMENT OF AGRICULTURE GRISSOM QUADRANGLE NATURAL RESOURCES CONSERVATION SERVICE SHEET NUMBER 8 OF 17 ae•aT Tammar ss so aa•m as 11, _2_ "-i— • -"?ihi±-y • V.' • ——— - it .; 11. '•-'——— fir,,A— �„'; .�©'! ae•oram f fir ; #�rCmi. p �`' 3 ±dam _t:Vor 0 A �'.a=` .,,i". a • M�^ • ' air y •-• N.•.-&,....,,,1.0.` i sr-, . ts:..I", '. -ilk ?--------e- .-c.-: ,.- •,,,.‘,- 1,4v,1 i 11.-;:: ' • _ `d4. :: \.1/4„. 41, . ,.., ..,- , ,,,, ., -e-ag,:.• - ,.. „0"it: ae oa ar . PI' • 1 / S k ,r r. 1- ®�� 4,,,,_. 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L, i '' 1 , FF er •y, ,� '4 -�p' 1 ???' iiV - M a 4'r 'It c•;:' k 1 . /' ;,;- '- \ x a..',� l ''�. �� 'ate d,' 4 ' ,,,,,tk : .,,...,,. ...,. . „,..,„,„,,,.,,, , ',k,44,t'Y r.� `Y'+ �„�� !•a * �f Pr r.. •!:^.. - 'mac+�" ^'V�+.'.=, .��'�:'+ `i fwO�" n ,A, /cc. _..., , . .. . ,. 4 i 7 •';`�'^a '��';: R - 4. arm t • I, �.�. ,. /� • \. ear • • • _ -r — •..—. _ 2277'80• ns x• xr JB°8600'• '.• ne a MU., m r^ m )a°arvar arnMinea N U.s.oepem-,n�N 8CNE.:apa0 wM e,r�"iavw varv�omu•�wa�a'sneua�sn,ca GRLSSOM,NORTH CAROLINA M><ol�m�n G'W�oO•ula.:yYam+ Y:a•r�tls. .—r— • 1.a MMuIE NOES W]�reEeMv ''Nn9eM aiu n .on . r-' SnFETHUMB.a6)t x�nnrvmIX:°.w.cnwweuo•a:,. \ aCIVIMOCP �Ie _aa(rvon Nl-GAS 90 SpanAO m utyoart a ignM ranea=rro w.ex.,rrE.acanN MOWN. mN]xwxxx.sx.e ew tl SUPPORTING DOCUMENTS NRCS Soils Report 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 RC S Agriculture and other Franklin County Federal agencies, State Naturalagencies including the North Carolina Resources Agricultural Experiment Conservation Stations, and local Service participants 70 Mosswood Blvd ti ,� i = )44 i 7 .T. it `• f •.•~ '41.46'4%....) _ ail ` i • Alt i1� • r � . .v • ili �- �� ,�,o� j I , co. PPP _ / 1111114r _ I ,� G - lb •iot j �� •%r a 7'>flf� ._ ,, _ _ a. ■�1 4, • _' i lii ICIMil I I 300 k AL. -- July 25, 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 Franklin County, North Carolina 13 CaB—Cecil sandy loam, 2 to 6 percent slopes 13 CaC—Cecil sandy loam, 6 to 10 percent slopes 14 Soil Information for All Uses 15 Soil Properties and Qualities 15 Soil Qualities and Features 15 Hydrologic Soil Group (70 Mosswood Blvd) 15 References 20 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 Soil Map N n $ 725070 725100 725130 725160 725190 725220 725250 725280 I I lie % — 36 2'1„N � SI \ 7 / 4 1 :-.1 41i, . , / �, 7I ` ' t j-N-1 I I I I I J i r I.• � t o I S „ • dieaB • ``, ' l . 11li . 111• • :� ' IfliIlYo f at Ar -7 ,4, . il:f 1 r '/ / ,„1 _ . . ..# , @,.. , '4 ' ' . 4 „„„„.._. _.„, 1_, • ie 4.4 , , ,.. t , 4, . ,. .,..,..„ ,. I • - __ t 1 ......... .. , . . ,. .. F . i 6T000 GGap 3avy\7 NEA b,N da011d aI 11M,3�, ROQ° ok 36°1'52"N I I VS 36°1'52"N 725070 725100 725130 725160 725190 725220 725250 725280 3 3 P Map Scale:1:1,470 if printed on A portrait(8.5"x 11")sheet 5' Meters N N 0 20 40 80 120 Feet 0 50 100 200 300 Map projection:Web Mercator Corner coordinates:WG584 Edge tics:UTM Zone 17N WGS84 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: Franklin County,North Carolina + Saline Spot Survey Area Data: Version 26,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 25,2022—May 31 Slide or Slip 20,2022 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 CaB Cecil sandy loam,2 to 6 2.5 45.6% percent slopes CaC Cecil sandy loam,6 to 10 2.9 54.4% percent slopes Totals for Area of Interest 5.4 100.0% 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 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, 11 Custom Soil Resource Report 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 Franklin County, North Carolina CaB—Cecil sandy loam, 2 to 6 percent slopes Map Unit Setting National map unit symbol: 2spnw Elevation: 70 to 1,400 feet Mean annual precipitation: 39 to 47 inches Mean annual air temperature: 55 to 63 degrees F Frost-free period: 200 to 250 days Farmland classification: All areas are prime farmland Map Unit Composition Cecil and similar soils: 95 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Cecil Setting Landform: Interfluves Landform position (two-dimensional): Summit, shoulder Landform position (three-dimensional): Interfluve Down-slope shape: Convex Across-slope shape: Convex Parent material: Saprolite derived from granite and gneiss and/or saprolite derived from schist Typical profile Ap- 0 to 8 inches: sandy loam Bt- 8 to 42 inches: clay BC-42 to 50 inches: clay loam C- 50 to 80 inches: 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: More than 80 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): 2e Hydrologic Soil Group: A Ecological site: F136XY820GA-Acidic upland forest, moist Hydric soil rating: No 13 Custom Soil Resource Report CaC—Cecil sandy loam, 6 to 10 percent slopes Map Unit Setting National map unit symbol: 2spnx Elevation: 70 to 1,400 feet Mean annual precipitation: 39 to 47 inches Mean annual air temperature: 55 to 63 degrees F Frost-free period: 200 to 250 days Farmland classification: Farmland of statewide importance Map Unit Composition Cecil and similar soils: 95 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Cecil Setting Landform: Interfluves Landform position (two-dimensional): Shoulder, backslope Landform position (three-dimensional): Side slope Down-slope shape: Convex Across-slope shape: Linear Parent material: Saprolite derived from granite and gneiss and/or schist Typical profile Ap- 0 to 8 inches: sandy loam Bt- 8 to 42 inches: clay BC-42 to 50 inches: clay loam C- 50 to 80 inches: loam Properties and qualities Slope: 6 to 10 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: More than 80 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): 3e Hydrologic Soil Group: A Ecological site: F136XY820GA-Acidic upland forest, moist Hydric soil rating: No 14 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 (70 Mosswood Blvd) 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. 15 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. 16 Custom Soil Resource Report Map—Hydrologic Soil Group (70 Mosswood Blvd) N W $ 725070 725100 725130 725160 725190 725220 725250 725280 36°2'1"N 3� 167 — 36°2'1"N / fi I Walk, r . II - - . AN411 eaB - rI r I I I ,.. I I I4 -4.114.71.11 . r • yiti 4- . _ . , I _ - i 1 4.4141 i ., J14- '.1411P . . 1— . ii' s . .4 4/ 2 ,4 alin' c3 t ;a rQ �1 • � -- XS aaG�o,X000 GGp ma w Noll bQ da0b7 ec-,aOQ° ?Q� 36°1'52"N 1 I I •.r 36°1'52"N �i 725070 725100 725130 725160 725190 725220 725250 725280 3 3 M Map Scale:1:1,470 if printed on A portrait(8.5"x 11")sheet. PI N Meters 0 20 40 80 120 Feet 0 50 100 200 300 Map projection:Web Mercator Comer coordinates:WGS84 Edge tics:UTM Zone 17N WGS84 17 Custom Soil Resource Report MAP LEGEND MAP INFORMATION Area of Interest(AOI) p c The soil surveys that comprise your AOI were mapped at Area of Interest(AOI) 1:24,000. 0 C/D Soils D Soil Rating Polygons Warning:Soil Map may not be valid at this scale. A Not rated or not available Enlargement of maps beyond the scale of mapping can cause n ND Water Features misunderstanding of the detail of mapping and accuracy of soil Streams and Canals line placement.The maps do not show the small areas of n B Transportation contrasting soils that could have been shown at a more detailed 0 B/D scale. 4_4-+ Rails nC •�i Interstate Highways Please rely on the bar scale on each map sheet for map n CID US Routes measurements. 0 D Major Roads n 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) • r A Aerial Photography Maps from the Web Soil Survey are based on the Web Mercator . ND projection,which preserves direction and shape but distorts •y B distance and area.A projection that preserves area,such as the Albers equal-area conic projection,should be used if more •v B/D accurate calculations of distance or area are required. • • C This product is generated from the USDA-NRCS certified data as • • CID of the version date(s)listed below. • • D Soil Survey Area: Franklin County,North Carolina • • Not rated or not available Survey Area Data: Version 26,Sep 8,2022 Soil Rating Points A Soil map units are labeled(as space allows)for map scales • 1:50,000 or larger. • ND ▪ B Date(s)aerial images were photographed: Apr 25,2022—May 20,2022 ▪ 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. 18 Custom Soil Resource Report Table—Hydrologic Soil Group (70 Mosswood Blvd) Map unit symbol Map unit name Rating Acres in AOI Percent of AOI CaB Cecil sandy loam,2 to 6 A 2.5 45.6% percent slopes CaC Cecil sandy loam,6 to 10 A 2.9 54.4% percent slopes Totals for Area of Interest 5.4 100.0% Rating Options—Hydrologic Soil Group (70 Mosswood Blvd) Aggregation Method: Dominant Condition Component Percent Cutoff:None Specified Tie-break Rule: Higher 19 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 20 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 21 SUPPORTING DOCUMENTS FEMA Floodplain Map 2140000 FEET 2150000 FEET 840000 FEET 78°31'30'W `\f 78°31'0'W 78.30'301W 78°30'0'W 840000 FEET ti �' ' diPrew 'fits a � y ) . ,fiy .., 4q �( as t, d � N� T I. • tIli ° Sf i sioi 405.6 "r' L 1. 36`30'N- at,. S'r / / �r ,``a -'1" ^pMy � �" 4j"�."r 36°3'0°N fM S • - te %- .Aie`; —7 ' ' ''' i ?I' . . .,„ , '1'4_ , Y" Y r r 0 , . „,,, p • h:: . „: __ . . • ,, e r '' 1 4- ,,.,,,;*: . , 390.3_ +i 4 �� John Mitchell Rd tlJ M1n Mtche\1 R4 F kips v , £ .-s Y , w`a or FRANKLIN COUNTY I2>azy a �'� '�� UNINCORPORATED AREAS —�` �� v ^ � - 370377 RnrrhRa --" L^"e tat -, �,� �ct . • t �` r , # V T Cn ,{ 36'2'30"N r / v CY,. t `,t, v\1.' ' `\ '(\ . - X FY2 695, • � Zv SITE -, . , G� r�'� -.a ' 7�'?-. ,map p DX.. �/ TOWN OF+1\a 3,',r�;� + kir.{ 4� n .,,,asr� w t _, ,1. _Y, UN�USVILLE'E J, ,;. � ..,„ „-e, ' - 'c .' /' - 3t70494 ',>(^° 'rr 4;�. , 1.- ,s., ifs r . {; "w� �... y 10 P T ; • r-v r £ r �1 v 36°2'0"N . .. r, , t r---i, .- . ., ,,77 i „ ,„ , , _, ..,. r''''' g5Ta I s O''''' ar' .. 'C n------ 1;!, Imo\ S.SS!) (-NI,...17 /, i • I,i '....a . . „ • 2 830000 FEET - ` ^ _ 830000 FEET 78°31'30"W 78.31'0"W 78°30'301W 78"300"VV 2140000 FEET 2150000 FEET 3� N(IRTH GROIJN"I ' _-'m crating Technical State 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 State's 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 INDEX MAP NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM SEE FIS REPORT FOR ZONE DESCRIPTIONS AND IND For information and questions about this map,available products associated with this FIRM including Map Projection: E NATIONAL FLOOD INSURANCE PROGRAM historic versions of this FIRM,how to order products or the National Flood Insurance Program in general, THE INFORMATION DEPICTED ON THIS MAP AND SUPPORTING North Carolina State Plane Projection Feet(Zone 3200) CO OOD INSURANCE RATE MAP please call the FEMA Map Information eXchange at 1-877-FEMA-MAP(1-877-336-2697)or visit the FEMA Map DOCUMENTATION ARE ALSO AVAILABLE IN DIGITAL FORMAT AT Service Center website at ht4://msefema.gay.An accompanying Flood Insurance Study report,Letter of Map Datum:NAD 1983(Horizontal),NAVD 1988(Vertical) 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 Floodplain Mapping Program websleet hap://www,ncfloodmaps.com, bA NORTH CAROLINA 4]-5,°"ar or contact the FEMA Map Service Center, 1 Inch=500 feet 1:6,000 OWithout Base Flood Elevation BFnn t( `/ Communities annexing land on adjacent FIRM panels must obtain a current copy of the adjacent panel as well as L =Zone A,V,A99 the curtent FIRM Index.These may be ortleretl tlirectly from the Map Service Center at the number listetl above. D 25D 5DD 1,DDD PANEL 1843With BFE or Depth Zone AE,AO,AH,VE,AR FeetCD �F� a6' For community and countywide map dates refer to the Flood Insurance Study report for this junsmctlon. Meters W SPECIAL FLOOD ® Regulatory Floodway To determine if flood insurance is available in the community,contact your Insurance agent or call the National 0 75 150 300 r f FEMA HAZARD AREAS Flood Insurance Program at 1-800-638-6620. 4'1 0.2%Annual Chance Flood Hazard,Areas Base map information shown on this FIRM was provided in digital format by the North Carolina Floodplain Mapping Program(NCFMP).The source of this information can be determined from the metadete available in the PANEL LOCATOR 555 co 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:If an accredited levee note appears on this panel check with your local ]�' " COMMUNITY CID PANEL SUFFIX Areas of Less Than One Square Mile one X community to obtain more information,such as the estimated level of protection provided(which may exceed the !! f/- FRANKLIN COUNTY 370377 1843 J 1 insurance rcent-annual-chance level)and Emergency Action Plan,en the levee syslem(s)shown as providing protection. WARREN COUNTY `•' Cl)v, YOUNGSVILLE,TOWN OF 370494 1843 J Future Conditions 1%Annual To mitigate flood risk in residual risk areas,property owners and residents are encouraged to consider flood ////// and floodprooflng or other protective measures.For more information on flood insurance,interested / We — Chance Flood rd FloZone parties should visit the FEMA ED sae hap TES TO Iusinesvisio ally Accredited pziiiiiiiiii OTHER AREAS OF Area with Reduced Flood Risk due to Levee PROVISIONALLY ACCREDITED LEVEE NOTES TO USERS:If a ProvisioeallyAcoretlitetl Levee(PAL)note VANCE COUNTY / FLOOD HAZARD appears on this panel,check with your local community to obtain more information,such as the estimated level of -,NE See Notes Zone X protection provided(which may exceed the 1-percen.nnualchance level)and Emergency Action Plan,on the I 0 OTHER levee system(s)shown as providing protection.a maintain accreditation,the levee own of community ti :Ira 1111111111111 0 Areas Determined to be Outside the required to submit the data and documentation necessary to comply with Sectionee65.10 owner the NFIP regulations. 846 188 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 ®fiiY®®® ® , hazar a indicates rikin the levee system adoesrea t not comply with Section of the requirements,FEMA will revise the flood 1647 2807 LI— Channel,Culvert,or Storm Sewer hazdu and risk as,pmation for this area to reflect are encourage the levee system.To ne mitigate flood risk in ® ®®®® residual risk areas,measures owners and residents are flood roger to consider flood insurance and sitthe FEMA log �''�� , Accredited or Provisionally Accredited or other protective measures For more Information on flood insurance,Interested parties should vigil the FEMA CZ Webslle at hap://wwwfema.gov/business/nflplindex.sMm ®®® ®®1 0 GENERAL Levee,Dike,or Floodwall 2805 LIMIT ry MODERATE WAVE ACTION NOTES TO USERS:For some coastal flooding zones the he Zone STRUCTURES m m .. m m Non-accredited Levee,Dike,or Floodwal category has been 1.5-foot t a Limit of Moderate Wave A ion(LIMWAd The LIMWA VE Z represents the approximate landward limit ofshe eline and the ing LIMWAwave.are s r VE e are nbetween the Zone and the to LIMWA ®®®®®®®®® • }+ BM5510 X North Carolina Geodetic Survey bench mark (Br between the shoreline and the LIMWA for areas where VE Zones are not Identified)will be similar to,but less 437t1 ere than those In the VE Zone, BM551O® National Geodetic Survey bench mark s Limit of Moderate Wave Action(LiMWA) aSC 2802�� , CTS BM55100 Contractor Est. Survey bench mark ®®�� z 01 with 1,s-2—Cross Sections with %Annual Chance COASTAL BARRIER RESOURCES SYSTEM(CBRS)NOTE This map may include approxmate boundaries of the CBRS for informational purposes only.Flood insurance is not 1860 2820 2830 Water Surface Elevation(BEE) available within CBRS areas for structures that are newly built or substantially improved on or after the date(s) indicated on the map.For more information see http:l/ww.v.fws.govlhabitatcenservation/coastal barrier,html,the �I u171:11:9® 0 Coastal Transect FIS Report,or c\\alll the U.S.Fish end Wildlife Service Customer Servi a Cele er at 1-800-344-WILD. : •1 Coastal Transect Baseline \ Y CBRS Area , \ ,� .\I Otherwise Protected Area WAKE COUNTY ISM —- Profile Baseline i11Yi21W6 NASH COUNTYa Hydrogra hic ature �S ' a am MAP NUMBER S 3720184300J OTHER Limit of Study j ) i/ ' FEATURES t _ •4„„„�w• MAP REVISED Jurisdiction Boundary 4/16/2013 SUPPORTING DOCUMENTS NOAA Precipitation Data NOAA Atlas 14,Volume 2,Version 3 es,""°,e4, Location name:Youngsville, North Carolina, USA* ''' i If a Latitude:36.0327°,Longitude: -78.5011° i norm Elevation:452 ft** 1 I ono s'a Es o,,+`' *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)1 Average recurrence interval(years) Duration 1 2 5 10 25 50 100 - 200 500 1000 5-min 0.404 0.471 0.538 0.602 0.667 0.717 0.762 0.801 0.844 0.881 (0.373-0.440) (0.433-0.513) (0.495-0.585) (0.552-0.654) (0.609-0.725) (0.652-0.779) (0.689-0.827) (0.719-0.872) (0.752-0.919) (0.779-0.961) 10-min 0.646 0.753 0.862 0.963 1.06 1.14 1.21 1.27 1.34 1.39 (0.595-0.702) (0.693-0.820) (0.793-0.937) (0.883-1.05) (0.971-1.16) (1.04-1.24) (1.10-1.31) (1.14-1.38) (1.19-1.45) (1.23-1.51) 15-min 0.807 0.946 1.09 1.22 1.35 1.45 1.53 1.60 1.68 1.74 (0.744-0.878) (0.871-1.03) (1.00-1.19) (1.12-1.32) (1.23-1.46) (1.32-1.57) (1.38-1.66) (1.44-1.74) (1.50-1.83) (1.54-1.90) 30-min 1.11 1.31 1.55 1.77 2.00 2.18 2.34 2.49 2.68 2.82 (1.02-1.20) (1.20-1.42) (1.43-1.68) (1.62-1.92) (1.82-2.17) _(1.98-2.36) (2.12-2.54) (2.24-2.71) (2.38-2.91) (2.49-3.08) 60-min 1.38 1.64 1.99 2.30 ' 2.66 2.95 3.23 3.50 3.84 4.12 (1.27-1.50) (1.51-1.79) (1.83-2.16) (2.11-2.50)i (2.43-2.89) I (2.68-3.20) (2.92-3.50) (3.14-3.81) (3.42-4.18) (3.64-4.49) 2-hr 1.62 1.93 2.36 2.76 3.24 3.64 4.04 4.43 4.94 5.38 (1.48-1.77) (1.77-2.11) (2.16-2.58) (2.51-3.01) (2.92-3.52) (3.28-3.96) (3.61-4.39) (3.94-4.82) (4.35-5.38) (4.70-5.88) 3-hr 1.72 2.05 2.52 2.96 3.51 3.98 4.45 4.94 5.59 6.17 (1.57-1.90) (1.88-2.26) (2.30-2.78) (2.69-3.25) (3.16-3.85) (3.57-4.37) (3.96-4.88) (4.36-5.41) (4.88-6.12) (5.33-6.77) 6-hr 2.06 2.46 3.02 3.56 4.23 1 4.83 5.43 6.05 6.89 7.64 (1.88-2.28) (2.25-2.71) (2.75-3.33) (3.24-3.92) (3.82-4.64) I (4.33-5.29) (4.83-5.94) (5.33-6.60) (5.99-7.52) I (6.56-8.36) 12-hr 2.43 2.90 3.58 4.24 5.08 5.84 6.60 7.42 8.54 9.55 (2.23-2.67) (2.67-3.18)_ (3.29-3.93) (3.88-4.65) (4.62-5.56) (5.26-6.35) (5.88-7.18) (6.54-8.05) (7.41-9.27) (8.17-10.4) 24-hr 2.87 3.47 4.34 5.02 5.95 6.68 7.43 1 8.20 9.25 10.1 (2.68-3.09) (3.24-3.73)_ (4.05-4.66) (4.68-5.38) (5.53-6.38) (6.19-7.17) (6.86-7.98) (7.55-8.81) (8.48-9.95) (9.20-10.9) 2-day 3.34 4.02 4.99 5.74 6.76 7.56 8.37 9.20 10.3 11.2 (3.12-3.58) (3.76-4.31) I (4.66-5.35) (5.36-6.16) I (6.28-7.25) (7.01-8.11) (7.74-8.98) (8.48-9.89) (9.47-11.1) (10.2-12.1) 3-day 3.54 4.24 5.25 6.03 7.09 7.93 8.78 9.66 10.8 11.8 (3.31-3.78) (3.98-4.54) (4.90-5.61) (5.63-6.45) (6.60-7.59) (7.36-8.49) (8.12-9.41) I (8.90-10.4) (9.94-11.7) (10.8-12.7) 4-day 3.73 4.47 5.51 6.32 7.43 8.30 9.19 10.1 11.4 12.3 (3.50-3.99) (4.19-4.78) (5.15-5.88) (5.90-6.75) (6.92-7.94) (7.71-8.88) (8.51-9.84) (9.33-10.8) (10.4-12.2) (11.3-13.3) 7-day 4.32 5.16 6.27 7.15 8.36 9.31 10.3 11.3 12.6 13.7 (4.06-4.62) (4.84-5.50) (5.88-6.69) (6.70-7.64) (7.80-8.92) (8.66-9.94) (9.54-11.0) (10.4-12.1) (11.6-13.6) (12.6-14.8)_ 10-day 4.92 5.85 7.02 7.95 9.19 10.2 11.2 12.2 13.5 I 14.6 (4.62-5.24) (5.49-6.23) (6.60-7.48) (7.45-8.47) (8.59-9.80) (9.48-10.8) (10.4-11.9) (11.3-13.0) (12.5-14.5) (13.4-15.7) 20-day 6.59 7.78 9.18 10.3 11.8 13.0 14.2 15.4 17.1 18.4 (6.22-7.00) (7.33-8.25) (8.65-9.74) (9.69-10.9) (11.1-12.5) (12.2-13.8) (13.2-15.1) (14.3-16.4) (15.8-18.2) (16.9-19.7) 30-day 8.18 9.62 11.2 12.4 14.0 15.2 16.4 17.7 19.3 20.5 (7.73-8.66) (9.09-10.2) (10.6-11.8) (11.7-13.1) (13.2-14.8) (14.3-16.1)_ (15.4-17.4) (16.5-18.8) (17.9-20.5) (19.0-21.9) 45-day 10.4 12.2 13.9 15.3 17.1 18.4 19.7 21.0 22.7 24.0 (9.89-11.0) (11.6-12.8) (13.2-14.7) (14.5-16.1) (16.2-18.0) (17.4-19.4) (18.6-20.8) (19.8-22.2) (21.3-24.1) (22.4-25.5) 60-day 12.5 14.6 16.5 17.9 19.8 21.2 22.5 23.9 25.6 26.8 (11.9-13.1) (13.9-15.3) (15.7-17.3) (17.0-18.8) (18.8-20.8) (20.1-22.3) (21.3-23.7) (22.5-25.2) (24.1-27.0) 1 (25.2-28.4) 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 PDS-based depth-duration-frequency (DDF) curves Latitude: 36.0327°, Longitude: -78.5011° Average recurrence 25 - interval (years) c / — 1 — 20 - _c2 a — 5 a) v 15 - / — 10 o — 25 o — 50 a 10 — 100 rL '. — 200 500 5 -_ ��-� — 1000 c c c c c - - - I >, >,>, >, >, >, >, >,>, — — — — — -c -c -c .ct co co co ru ro N ro ro ro A A lb ry ,r -O -O-O D -9 7 7 77 n41 $ Duration A o N m v$ 25 - • I. 20 - L Duration w 15 - -- -- — 5-nun — 2-day — 10-min — 3-day Y o 15-run — 4-day ra •a 10 - �� W — 30-min — 7-day '0 ��— — 60-nun — 10-day rL 5 —� �� — 2-fir — 20-day "--- .7.,"'"---....... -� ------ — 3-hr — 30-day _ �_ — 6-hr — 45-day 0- — ' _j — 12-hr — 60-day • • 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(GMTI Mon Jun 5 1851:09 2023 Back to Top Maps & aerials Small scale terrain :'. 1 _ At ken Ra - --- -,6 Young sville jg N� C I II 3km �o ' I ) 2mi C.)", f sa. 11 Large scale terrain • Lynchburg '' sburg Roanoke N. \ r l _ •rfol .. • I-Salern 0 ' • • Dui ham • �•� Rocky Mount Greensboro • RJeigh • \a` • H C ARIL INA •Greene + \ :harem-t. I' 100km Il 60mi •Jacksonville., Large scale map al iiii bu �pKoanoKe Norfc istonSalem p Greensboro p Rocky Mount n R leigh Greenvill North + Carolina tart one Fayetteville 100km ' 60mi Jacksonville Large scale aerial Blacksburg • " ' • N orf of ston-Salem Greensboro Durham • Rocky Mount • Raleigh • Gr eerni l le North • Carolina arlotte Fayetteville 100km Jacksonville Er 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 NOAA Atlas 14,Volume 2,Version 3 °° Location name:Youngsville, North Carolina, USA* '''' i If a Latitude:36.0327°,Longitude: -78.5011° i norm I Elevation:452 ft** 1 I ?os�a Es o,,+` *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 4.85 5.65 6.46 7.22 8.00 8.60 9.14 9.61 10.1 I 10.6 (4.48-5.28) (5.20-6.16) (5.94-7.02) (6.62-7.85)_ (7.31-8.70) (7.82-9.35) (8.27-9.92) (8.63-10.5) (9.02-11.0) (9.35-11.5) 10-min 3.88 4.52 5.17 5.78 6.38 6.85 7.27 7.61 8.02 8.33 (3.57-4.21) (4.16-4.92) (4.76-5.62) (5.30-6.28) (5.83-6.93) (6.23-7.44) (6.57-7.88) (6.84-8.29) (7.13-8.72) (7.36-9.08) 15-min 3.23 3.78 4.36 4.87 5.39 5.78 6.12 6.41 6.72 6.97 (2.98-3.51) (3.48-4.12) (4.02-4.74) (4.47-5.29) (4.92-5.86) (5.26-6.28) (5.54-6.64) (5.76-6.97) (5.99-7.32) (6.16-7.60) 30-min 2.21 2.61 3.10 3.53 3.99 4.36 4.69 4.99 5.35 5.64 (2.04-2.41) (2.41-2.85) (2.85-3.37) (3.24-3.83) (3.65-4.34) _(3.96-4.73) (4.24-5.09) (4.48-5.43) (4.76-5.83) (4.99-6.15) 60-min 1.38 1.64 1.99 2.30 ' 2.66 2.95 3.23 3.50 3.84 4.12 (1.27-1.50) (1.51-1.79) (1.83-2.16) (2.11-2.50)i (2.43-2.89) I (2.68-3.20) (2.92-3.50) (3.14-3.81) (3.42-4.18) I (3.64-4.49) 2-hr 0.809 0.965 1.18 1.38 1.62 1.82 2.02 2.22 2.47 2.69 (0.740-0.887) (0.885-1.06) (1.08-1.29) (1.26-1.51) (1.46-1.76) (1.64-1.98) (1.80-2.20) (1.97-2.41) (2.17-2.69) (2.35-2.94) 3-hr 0.572 0.683 0.838 0.986 1.17 1.33 1.48 1.64 1.86 2.05 (0.522-0.631) (0.625-0.753) (0.764-0.924) (0.895-1.08) (1.05-1.28) (1.19-1.45) (1.32-1.62) (1.45-1.80) (1.62-2.04) (1.77-2.25) 6-hr 0.343 0.410 0.504 0.594 0.707 0.806 0.906 1.01 1.15 1.28 (0.313-0.380) (0.375-0.452) (0.459-0.556) (0.541-0.653) (0.638-0.775) (0.723-0.883) (0.806-0.991) (0.889-1.10) (1.00-1.26) (1.10-1.40) 12-hr 0.201 0.240 0.297 0.352 0.422 0.484 0.547 0.615 0.708 0.792 (0.185-0.221) (0.221-0.264) (0.272-0.326) (0.321-0.386) (0.383-0.461) (0.436-0.527) (0.488-0.595) (0.542-0.668) (0.614-0.769) (0.677-0.861) 24-hr 0.119 0.144 0.180 0.209 0.247 0.278 0.309 0.341 0.385 0.419 (0.111-0.128) (0.135-0.155) (0.168-0.194) (0.195-0.224) (0.230-0.265) (0.258-0.298) (0.286-0.332) (0.314-0.367) (0.353-0.414) (0.383-0.452) 2-day 0.069 0.083 0.103 0.119 0.140 0.157 0.174 0.191 ' 0.215 0.233 (0.064-0.074) (0.078-0.089) (0.097-0.111) (0.111-0.128) (0.130-0.151)1(0.145-0.168) (0.161-0.187)1(0.176-0.206) (0.197-0.231) (0.213-0.252) 3-day 0.049 0.058 0.072 0.083 0.098 0.110 0.121 0.134 0.150 0.163 (0.045-0.052) (0.055-0.063) (0.068-0.077) (0.078-0.089) (0.091-0.105) (0.102-0.117) (0.112-0.130) (0.123-0.143) (0.138-0.162) (0.149-0.176) 4-day 0.038 0.046 0.057 0.065 0.077 0.086 0.095 0.105 0.118 I 0.128 (0.036-0.041) (0.043-0.049) (0.053-0.061) (0.061-0.070) (0.072-0.082) (0.080-0.092) (0.088-0.102) (0.097-0.112) (0.108-0.127) (0.117-0.138) 7-day 0.025 0.030 0.037 0.042 0.049 0.055 0.061 0.067 0.075 0.081 (0.024-0.027) (0.028-0.032) (0.035-0.039) (0.039-0.045) (0.046-0.053) (0.051-0.059) (0.056-0.065) (0.062-0.072) (0.069-0.080) (0.074-0.087) 10-day 0.020 0.024 0.029 0.033 0.038 0.042 0.046 0.050 0.056 0.060 (0.019-0.021) (0.022-0.025) (0.027-0.031) (0.031-0.035) (0.035-0.040) (0.039-0.045) (0.043-0.049) (0.047-0.054) (0.052-0.060) (0.055-0.065) 20-day 0.013 0.016 0.019 0.021 0.024 0.027 0.029 0.032 I 0.035 0.038 (0.012-0.014) (0.015-0.017) (0.018-0.020) (0.020-0.022) (0.023-0.026) (0.025-0.028) (0.027-0.031) (0.029-0.034) (0.032-0.038) (0.035-0.040) 30-day 0.011 0.013 0.015 0.017 0.019 0.021 0.022 0.024 0.026 0.028 (0.010-0.012) (0.012-0.014) (0.014-0.016) (0.016-0.018) (0.018-0.020) (0.019-0.022) (0.021-0.024) (0.022-0.026) (0.024-0.028) (0.026-0.030) 45-day 0.009 0.011 0.012 0.014 0.015 0.017 0.018 0.019 0.021 0.022 (0.009-0.010) (0.010-0.011) (0.012-0.013) (0.013-0.014) (0.014-0.016) (0.016-0.017) (0.017-0.019) (0.018-0.020) (0.019-0.022) (0.020-0.023) 60-day 0.008 0.010 0.011 0.012 0.013 0.014 0.015 0.016 0.017 0.018 (0.008-0.009) (0.009-0.010) (0.010-0.011) (0.011-0.013) (0.013-0.014) (0.013-0.015) (0.014-0.016) (0.015-0.017) (0.016-0.018)1(0.017-0.019)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 PDS-based intensity-duration-frequency (IDF) curves Latitude: 36.0327°, Longitude: -78.5011° 101 Average recurrence _ interval (years) Z' 10° - \a 2 0 \ — 5 - 10 — zs o — 50 -, 10-1 �� '� — 100 acu — 200 V \ t_ �= — 500 o. — 1000 10-2 - r I I I I I I I I I I I I I I I E E E E E A A u5 N 4 v vv -o -o -o -o-o i N A4 N 1" O2 4 m $ Duration N 0 N m v V) 101 _ • } - L_ L C Duration .Z' 10° c — 5-nun — 2-day a — 1 0-min — 3-day O 15-min — 4-day 0 0 10-1 — 30-min — 7-day ,a 60-nin - 10-day O — 2fir — 20-day cu a` — 3-hr — 30-day — 6fir — 45-day 10-2 — 12-hr — 60-day 1 i 1 I i i — 24fir 1 2 5 10 25 50 100 200 500 1000 Average recurrence interval (years) NOAA Atlas 14,Volume 2,Version 3 Created(GMT):Mon Jun 5 18:52:29 2023 Back to Top Maps & aerials Small scale terrain :'. 1 _ At ken Ra - --- -,6 Young sville jg N� C I II 3km �o ' I ) 2mi C.)", f sa. 11 Large scale terrain • Lynchburg '' sburg Roanoke N. \ r l _ •rfol .. • I-Salern 0 ' • • Dui ham • �•� Rocky Mount Greensboro • RJeigh • \a` • H C ARIL INA •Greene + \ :harem-t. I' 100km Il 60mi •Jacksonville., Large scale map al iiii bu �pKoanoKe Norfc istonSalem p Greensboro p Rocky Mount n R leigh Greenvill North + Carolina tart one Fayetteville 100km ' 60mi Jacksonville Large scale aerial Blacksburg • " ' • N orf of ston-Salem Greensboro Durham • Rocky Mount • Raleigh • Gr eerni l le North • Carolina arlotte Fayetteville 100km Jacksonville Er 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 SUPPORTING DOCUMENTS Geotechnologies Soils Report GeoTechnologies,Inc. Geotechnical and Construction Materials Testing Services May 8,2019 Mr.Allen Pipken Albemarle Properties,LLC 10320 Durant Road Raleigh,NC 27614 Re: Report of Subsurface Investigation Mosswood Blvd Development Youngsville,North Carolina GeoTechnologies Job No. 1-19-0253-EA Dear Mr. Pipken: GeoTechnologies, Inc. has completed the authorized investigation to evaluate subsurface soil conditions for the proposed warehouse development off of Mosswood Blvd. in Youngsville,North Carolina. Subsurface conditions at the site were investigated by completing thirteen soil test borings at the approximate locations shown on the attached Figure 1. Eighteen borings were originally proposed for the subsurface investigation, but upon request from Allen Pipkin five borings were excluded from the proposed drilling plan (Borings B-2, 4, 5 ,7, and 10). These eliminated borings are lightly crossed out in the attached Figure 1. The boring locations were established in the field using a hand held Trimble with State Plane coordinates. These coordinates were obtained by placing the grading plan in an AutoCAD file and aligning the parcel corners to scale with coordinates obtained from Franklin County GIS website. Elevations were estimated from the provided topographic plan.The State Plane coordinates and estimated elevations are presented on the attached Table 1.Although, it should be noted that the provided topographic plan provided does not include proposed and existing elevation for the entire site. Consequently,we assumed that the southern office building,parking lot areas and bio-retention ponds will receive approximately 5 to 15 feet of fill based on the general trend of the proposed and existing elevations. The soil test borings were extended to depths of about 5 to 15 feet below site grade. The borings were completed utilizing standard penetration test(SPT)procedures at selected intervals to evaluate the consistency and density of the subsurface soils. This report presents the findings of our investigation and our recommendations concerning site grading and foundation support considerations for the proposed office buildings. SITE AND PROJECT INFORMATION The property of interest is located off of the south side Mosswood Blvd in Youngsville,North Carolina. The property is directly west of 30 Weathers Street and directly east of 20 Gatekeeper Drive. The site is currently cleared and undeveloped. Preliminary site plans for the additions have been provided. Future site development will include four one story industrial/flex buildings (ranging from 9,000 to 12,000 SF in footprint), asphalt paved parking lots, bioretention basins, sidewalks and an entrance road.Elevations range from approximately 430 to 472 feet.Anticipated amounts of cuts and fills are displayed in the attached Table 1.The grading plan provided shows proposed grades close to existing grades on the north side of the site. However, on the southern side of the site, fills in excess of 13 feet are proposed. We expect that the buildings will be supported on load bearing walls and isolated columns with a slab on grade.No detailed structural loading information was provided;however,we expect column and wall loads of less than 140 kips and 12 klf,respectively. 3200 Wellington Ct..Ste. 108•Raleigh, NC 27615• Phone 919-954-1514•Fax 919-954-1428•www.geotechpa.com• License No.C-0894 Albemarle Properties,LLC Re: Mosswood Blvd.Development May 8,2019 Page: 2 AREA GEOLOGY The proposed site is located within the Piedmont Geologic and Physiographic Province of North Carolina. The Piedmont Province is characterized by gently to steeply sloping topography, rolling hills and ridgelines, dissected by moderate to well-developed(mature)dendritic type drainage systems and drainages swales,hollows,tributaries,creeks, streams, and rivers. More specifically, the site is located within the Raleigh Belt which is comprised of metamorphic and intrusive rock. The specific bedrock materials in the vicinity of the site generally consist of biotite gneiss and schists with small masses of granitic rock. These materials were deposited during the Cambrian Period approximately 500 to 570 million years ago. The underlying bedrock materials have weathered to form the near surface residual sandy silts and silty sands which are typically found throughout the area. LABORATORY TESTING Laboratory testing included standard proctor(ASTM D-4318), soaked CBR analysis (ASTM D-4318), grain size analysis (ASTM D-1140), and Atterberg limits tests (ASTM D-1883). The results of the laboratory testing are attached. For the samples tested, the percent passing the #200 sieve ranged from 66.5 to 71.9. The samples tested indicated that the predominant soils in the top few feet of existing grade consist of slightly fine sandy clayey high to low plasticity silts with Unified Soil Classifications of ML and MH. Soaked CBR testing of the near surface soils indicated a CBR value of 7.3 %at a penetration depth of 0.1"and a CBR value of 7.1 %at a penetration depth of 0.2", with a swell of 1.0%. SUBSURFACE CONDITIONS Generalized subsurface profiles prepared from the test boring data are attached to this report as Figures 2A and 2B to graphically illustrate subsurface conditions encountered at this site. More detailed descriptions of the conditions encountered at the individual test boring locations are then presented on the attached test boring records. Subsurface conditions on the site were characterized by near surface topsoil that extended to depths of 3 to 9 inches. In approximately 2/3 of the borings performed,the topsoil was underlain by approximately 2 to 4.5 feet of fill material consisting of stiff sandy to clayey silts. The topsoil and/or near surface fill material was underlain by residual soils. The residual soils typically consisted of micaceous soft to very stiff low plasticity clayey to sandy silt. Based on the results of the laboratory testing,some of the near surface soils are highly plastic in nature with a USCS classifications of MH.However,high plasticity soils in this geology generally have high plasticity characteristics but behave like low plasticity clays with respect to swell and design CBR values,which is confirmed by the results of our laboratory CBR testing. Therefore, no special provisions to mitigate highly plastic soils on this site are likely necessary. Groundwater was only directly encountered in one of the thirteen borings performed. Groundwater was encountered in boring B-1 at 7 feet below existing elevation at the time of boring completion. Borings B-3, B-6, and W-2 had samples that were moist in the final drive which is likely indicative that the groundwater table was very close to the termination depth of the boring. All other borings were dry at the time of completion. However, it should be noted that the near surface soils at the site are conducive to the temporary development of perched groundwater conditions during periods of wet weather,and that groundwater levels will fluctuate during different periods of the year. 6eoTechnologies,Inc www geotechpa com Albemarle Properties,LLC Re: Mosswood Blvd.Development May 8,2019 Page: 3 RECOMMENDATIONS The following recommendations are made based upon a review of the attached test boring data, our understanding of the proposed construction,and past experience with similar projects and subsurface conditions.Once fmal site grading and structural plans are available,we would appreciate being provided with that information so that these recommendations may be confirmed, extended, or modified as necessary. Additionally, should subsurface conditions adverse to those indicated by this report be encountered during construction, those differences should be reported to us for review and comment. Site Grading Considerations. Site grading should initially begin with the removal of all topsoil and vegetation from within the limits of the proposed construction. Following stripping, GeoTechnologies recommends that all areas at grade or designated to receive fill be proofrolled with a partially loaded dump truck in the presence of a geotechnical engineer. Any area which ruts or pumps excessively in the opinion of the engineer should then be undercut to firm bearing and be backfilled with properly compacted structural fill. The majority of the borings encountered near surface soils that were relatively stiff. However, a majority of the near surface soils consisted of fill, which if placed in an unmonitored manner can be variable and inconsistent. Additionally,the fill and native soils are moisture sensitive,and the consistency of the top several feet is likely to vary seasonally and following rain events. Therefore, it should be anticipated that some of these soils will rut and pump beneath a proofroll and require some degree of repair. Based on the borings performed, if the area is graded during a warm and dry time of the year, repair areas are likely to be isolated and will generally be contained to the top 1 to 2 feet of existing grade. If the site can be graded during a period of warm and dry weather when unstable near surface soils can be disced, dried, and recompacted, the quantity of undercut due to soft near surface soils can be reduced significantly. Use of a farming disc can also generally expedite drying of any on-site soils which are above optimum moisture content. However, during the wetter months of the year,the near surface soils will likely be wet of optimum moisture and more extensive repairs will be needed for proper grading. It is highly recommended to include fair unit pricing for removal of unsuitable material in the contact documents. The on-site soils,excluding topsoil should be suitable for reuse as structural fill provided compaction moisture is maintained near optimum during placement. Soil moisture contents must be maintained within 2%of optimum with could require some drying or the addition of moisture.If off-site borrow is required,low plasticity clays,silts,or sands with Unified Soil Classifications of CL,ML, SM,and SC may be imported for use as structural fill.All new fill should be compacted to not less than 95% of the standard Proctor maximum dry density except in the final foot where this requirement should be increased to 98%of the standard Proctor maximum. Difficult Excavation Considerations. No difficult excavation material was encountered within the borings performed. Although conditions can vary intermediate of borings performed, based on the borings performed and the proposed grading plan, it is unlikely to encounter difficult excavation material in general grading for the site. Foundation Support Considerations.Following repair of any soft near surface soils,the proposed building may be supported on shallow spread footing foundations designed for a bearing pressure of 3,000 psf subject to the restriction that column and wall footings have least dimensions of not less than 24 and 16 inches,respectively. These foundations may bear at nominal depth below finished exterior grade in residual soils or in properly compacted fill except that a minimum embedment depth of not less than 18 inches for exterior footings is recommended for frost protection.Careful inspection of the foundation excavations by a geotechnical engineer is recommended.This should include hand augers and DCP testing in the foundation excavations. Areas which are found to be soft or otherwise unsuitable should be repaired as directed by the engineer.A typical repair would consist of neat line undercut, followed by backfilling with washed#57 or#67 stone. 6eoTechndogies,Inc. F';� www geotechpa com Albemarle Properties,LLC Re: Mosswood Blvd.Development May 8,2019 Page: 4 Most soils encountered in the borings encountered were firm to stiff.However,because the top several feet of the site encountered fill soils which were not monitored during placement, the consistency of the fill soils may vary. Additionally,borings for the proposed office buildings were relatively widely spaced. Therefore, some soft soils may be encountered which would require repair within the foundations.If a better estimate of the quantity of repair required within the building pads is desired,GeoTechnolgies would be happy to perform investigations with either hand operated equipment or excavator test pits in order to further investigate and estimate the presence of any near surface soft soils. In order to evaluate potential settlement for the assumed loadings, GeoTechnologies utilized the FHA settlement estimation procedure which correlates soil compressibility to soil type and standard penetration resistances. The results of our analyses indicates total estimated maximum settlements are anticipated to be less than 1 inch for column loads of up to 140 kips and wall loads of up to 12 klf. If heavier loads are anticipated undercut and stone replacement techniques could be used to reduce settlements. Typically, differential settlement will be approximately one-half of the maximum settlement. Once structural loads and site grading plans are available, GeoTechnologies should be provided with that information so that settlement estimates can be finalized. Subgrade Protection. It is important that the contractor protect the subgrade soils to minimize rutting from heavy rubber tired equipment, sealing off the site with a smooth drum roller in advance of rain events, grading to promote drainage and prevent ponding, and covering finalized on-grade areas with compacted CABC stone as appropriate. Consideration could also be given to leaving subgrades a few inches high during construction and cutting to grade just prior to placement of stone base. Even with the above provisions, it should be recognized that the contractor's production and ability to limit undercut will in part be a function of weather conditions at the time of site grading. Slab-on-Grades. Approved soils or compacted structural fill will provide adequate support for conventional concrete slab-on-grades, and a subgrade modulus of 100 pci may be used. We recommend capping the subgrade soils with 4 inches of CABC to protect the subgrade. Segmental Type Retaining Walls. Our experience has been that the near surface soils on this site are not well suited for use as backfill in the reinforced zone for segmental unit retaining walls. Consideration can be given to using the on-site behind low walls (less than 5 foot maximum height) away from structures; however, this should be determined on a case-by-case basis.If we can be provided with planned wall locations and height,GeoTechnolgies can help determine which walls (if any) can use on-site soils for backfill. In general, GeoTechnologies recommends that backfill for segmental walls consist of an approved imported granular quarry material.If an import material is selected, GeoTechnologies can provide recommended design parameters. We recommend that all retaining wall designs include an assessment of global stability,to include tiered walls and walls located in or on slopes. These analyses should be considered part of the wall design package, and designs which do not explicitly address global stability should not be considered complete.Additionally,all wall designs should include appropriate drainage provisions both directly behind the face block as well as behind the reinforced zone. Although true groundwater is not prevalent near surface at this site,it may be encountered in cuts,and the potential for perched water also exists. As such, adequate provisions should be included in the wall design details, and the designer/contractor should be prepared to modify drainage provisions should areas of heavier than expected flows be observed behind walls. Fill Induced Settlements. In areas where site grades will be raised by more than 6 feet, some settlement of the underlying residual soils will occur. It is recommended that fill induced settlements be allowed to subside before construction begins. As such, we recommend that the project surveyors establish monitoring points in deep fill areas (any area with more than 6 feet)to verify that fill induced settlements have subsided.Based on experience,we anticipate that the monitoring period will not exceed 30 days following the completion of filling. — 6eoTechndogies,Inc. F';� www geotechpa com Albemarle Properties,LLC Re: Mosswood Blvd.Development May 8,2019 Page: 5 Below Grade Walls and Retaining Walls. Below grade walls may be designed using the soil parameters indicated in the table below for on-site soils. The design values assume level grade behind or in front of the wall and should be modified for sloping grades.A buoyant unit weight should be used below the water table. At-rest EP Active EP Passive EP Friction Base Friction Unit Weight Coeff. Coeff. Coeff. Angle (pcf) 0.5 0.33 3.0 30° 0.35 120 Hydrostatic conditions should be considered for any walls extending below the water table (not expected). Below grade walls must include an effective drainage medium which intercepts water moving towards the wall such that hydrostatic conditions do not develop above the static water level. Appropriate safety factors should be used in conjunction with these design values. Any fill material placed adjacent to below grade walls should be compacted to a minimum of 95% of the standard Proctor maximum dry density,except where 98%is required at subgrade.Additionally,any soils placed within 3 to 4 feet of below grade walls should be compacted with light hand held equipment to prevent overstressing of the walls. This will necessitate that backfill be placed in 4 to 6 inch lifts. Dewatering Considerations. Our borings generally indicate that cuts of at least 7 feet can be made without encountering significant groundwater.We anticipate that any water encountered in general grading will be minor such that it can be handled with a sump pump operation. If deeper utility installations (bearing more than 7 feet below existing grade) are anticipated, these excavation may encounter heavier flows and may require more extensive dewatering measures such as well points. Ultimately, dewatering is the responsibility of the contractor performing the work. Temporary Excavations. Trench excavation methods are the responsibility of the contractor. Temporary excavations into residual soils should be designed in accordance with OSHA guidelines assuming that the on-site soils can be classified as Type "B" soils. Excavations exceeding 20 feet in depth must be designed by an engineer. Once open,all excavations should be observed on a daily basis by qualified personnel. Storm Water Pond Considerations: The provided drawing shows that ponds are proposed on the south side of the site. In recent years we have seen wet ponds which appear to meet plan infiltration criteria(typically 0.01 in/hr), but which do not perform as expected. This is due to the fact that the boundary conditions of the field infiltration test typically do not match those of the pond under normal pool conditions. Essentially,the hydraulic head(and therefore gradient) of the pond under normal operating conditions is higher(often significantly higher) than the head from the standard double ring infiltrometer test. Common problems we have seen associated with this issue include water levels which cannot support the required vegetation and unacceptably low water levels for a project amenity such as a fountain. Our experience has been that,when required,a soil liner constructed from a properly tested(lab and field)and placed low permeability soil can be used to maintain water levels reasonably close to the intent of the infiltration specification, even when accounting for the hydraulic head/liner thickness at normal pool levels. However,the higher the head and/or thinner the liner, the more impervious the liner material should be. As such, a soil liner material may be acceptable for one combination of hydraulic head/liner thickness, but not for another. If a wet pond will be incorporated as an architectural amenity, it is recommended that a manufactured synthetic liner be used in conjunction with a soil liner or as a replacement. In this case, if a synthetic liner is not used, consideration should be given to installing a make-up well to maintain pond water levels. Permanent Slopes. In this geology,dry and well compacted unreinforced fill slopes built at 2.5H:1 V are stable without exception. Steeper fill slopes can be used with properly designed and installed geosynthetic reinforcement.Cut 6eoTechndogies,Inc. F';� www geotechpa com Albemarle Properties,LLC Re: Mosswood Blvd.Development May 8,2019 Page: 6 slopes should also be about 2.5H:1V or flatter. Any water encountered on the face of slopes should be brought to the attention of the geotechnical engineer so that necessary provisions can be made. Pavement Design. Following proper completion of grading, the site should be suitable for support of conventional pavement structures. Based on the results of the CBR testing performed we recommend using a design CBR of 6%for the design of flexible pavements and a subgrade modulus of 100 pci for rigid pavements. This design CBR value is based upon samples that were typical in the top several feet of existing grade on the site.Any areas which receive fill should be resampled at design subgrade elevation for laboratory CBR testing to verify that the soils at subgrade elevation can provide the design CBR values. Soils which do not provide the design CBR value may necessitate thickening of the stone base section. Some of the underlying soils contain a significant amount of mica and will likely be unstable during a proof roll. If these micaceous soils are used to support pavements, a thickened stone section may be necessary. Any new pavement subgrades should be moisture conditioned and recompacted to not less than 98% of the standard Proctor maximum dry density immediately prior to placement of base course stone.The subgrades should also be proofrolled for stability. Site grades should be detailed to promote drainage away from the pavement areas, and underdrains or ditches should be provided along the high side of all pavements. If irrigated planter islands will be utilized,French drains should be installed around the edge of the curbing to intercept and divert perched water during the wetter winter months of the year. The design CBR value may generate pavement sections which are unsuitably thin. Therefore, for drive areas we typically recommend a minimum pavement section consisting of 8 inches of CABC and 3 inches of asphalt. For parking areas we typically recommend a minimum pavement section consisting of 8 inches of CABC and 2 inches of asphalt.Pavement sections(rigid and flexible)can be provided once traffic loading and volume details are known Seismic Design. This site is a seismic site class"D"under the building code based on the test boring data and past experience in the area of the site. CLOSING GeoTechnologies, Inc. appreciates the opportunity to have provided you with our services on this project. Please contact us if you should have questions regarding this report or if we may be of any further assistance. 0,%11111,,Sincerely, �.� k CAROB OQ•FESS/p/V. -7 GeoTechnologies,Inc., :Q 9�• 9 SEAL 046382 Sean A.Corcoran,P.E. NC License No.46382 q CCR�' 'll llllllll\\\\ SAC/pr-mrp (.\ 6eoTechndogies,Inc. r www geotechpa com Table 1 Mosswood Blvd. Development Borings Job # 1-19-0253EA Boring Northing (ft) Easting (ft) Depth (ft) Proposed Depth (ft) Existing Depth (ft) Fill (-) / Cut (+) (ft) B-1 2,147,435 830,790 15 ? ? ? B-2 2,147,508 830,762 15 ? ? ? B-3 2,147,506 830,970 15 459 446 -13 B-4 2,147,581 830,942 15 459 446 -13 B-5 2,147,560 831,110 15 459 454 -5 B-6 2,147,634 831,078 15 459 455.5 -3.5 B-7 2,147,628 831,284 15 463 462 -1 B-8 2,147,703 831,254 10 463 462.5 -0.5 B-9 2,147,647 831,335 15 467.6 465 -2.6 B-10 2,147,649 831,393 15 467.6 467.5 -0.1 B-11 2,147,798 831,335 15 467.6 466 -1.6 B-12 2,147,798 831,393 15 467.6 467.5 -0.1 P-1 2,147,601 830,739 5 ? ? ? P-2 2,147,671 830,929 5 457 449 -8 P-3 2,147,769 831,135 5 460 459.5 -0.5 P-4 2,147,678 831,480 5 470 472 2 W-1 2,147,392 830,719 15 ? ? ? W-2 2,147,691 830,770 15 ? ? ? 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I 1 -1 1 \ 111 r I 1 I 1 ;, i I ' \� � ' ,,1 c /m o I i g I I / �_ At4111/ /- I F I /0 �N 1 8 7 i / alt I;ir ,, 1 ,4)''''',P ./ 0_ 0 0 /6 / /, / / / B 1Z '°°'w I / I 4,,,, ♦I LLJ co / /�� // /11 �I 1 III (n / I(l/j// 1 /I ii I/ DATE FEB.14,19 ; n o TOPOGRAPHIC SURVEY FOR I F%f SCALE r=40' g SHELTER BUILDING CORPORATION I ,I/, ,,, A III DRAWN BTB y OWNER: SHELTER BUILDING CORPORATION YOUNGSNUE C311ERCE CENTER I I m LOT 2, YOUNGSVILLE COMMERCE CENTER 1AAP eooK 199)sr I JOB NO. `o REF: MAP BOOK 1997-371 I I REVISIONS a YOUNGSVILLE TOWNSHIP FRANKLIN COUNTY,NORTH CAROLINA 40 20 0 40 80 C SCALE 1"=40' MAY 12, 1998 SHEET ZONED HIGHWAY BUISNESS AND LIGHT INDUSTRY C 1 . 0 E 0 6 Elevation (Feet) GENERALIZED SUBSURFACE PROFILE LEGEND ■ Topsoil 475 Low Plasticity Silt P-4 Silty Sand 470 1•1•. 0 Low Plasticity Clay B-12 B_11 17 High Plasticity Silt B - 9 / 465 % 9 B -8 11 12 14 Fill 7 460 13 15 P'3 18 Standard Penetration Resistance B - 6 9 15 11111 7 V Groundwater at Time of Boring 455 17 15 !II!•t3 / ii Auger Refusal 10 13 14 =Proposed Elev. 13 450 11 .. .. 15 P-2 B - 3 20 Iiiii 445 12 ...��6 13 440 .... 16 6 435 22 430 8 PROJECT: SCALE: As Shown JOB No:1-19-0253-EA Mosswood Blvd Development Ir//////4••••••• GeoTechnologies, Inc Youngsville, North Carolina FIGURE No:2A Elevation (Feet) GENERALIZED SUBSURFACE PROFILE LEGEND ■ Topsoil 448 W-2 Low Plasticity Silt 446 14 444 p_1 --•••• Fill 442 13 11 Standard Penetration Resistance 440 Groundwater at Time of Boring 438 .11 7 Auger Refusal B - 1 9 436 • W-1 No Proposed Elevations Were 434 119 AIR Provided For These Borings 432 .. .IQ .4 8 430 V 6 428 ••• 426 6 ••• 424 ••• 422 ••• 7 420 ••• 6 418 PROJECT: SCALE: As Shown JOB No:1-19-0253-EA Mosswood Blvd Development I........ GeoTechnologies, Inc. Youngsville, North Carolina FIGURE No:2B Borings Logs / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 436.00 10 20 40 60 100 0.5 Topsoil and Occasional Rocks FILL-Stiff Red Clayey SILT ML • 3-4-5 3.0 Firm Micaceous Red,Orange,and Black Clayey 1ML SILT 431 3-4-4 a 426 � . 2-3-3 a, m H O H C7 • 3-3-4 a 15.0 421_ w Boring Terminated At 15 Feet Below Existing Elevation z I I Groundwater Encountered At 7 Feet Below Exisitng Elevation JOB NUMBER 1-19-0253-EA BORING NUMBER B- 1 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 446.00 10 20 40 60 100 0.4 Topsoil and Occasional Rocks FILL-Stiff Red Clayey SILT ML 4-5-7 3.0 Very Stiff Red and Brown Clayey SILT ML 441 • 5-7-9 8.0 Very Stiff to Firm Micaceous Red,Brown,and ML Yellow Fine Sandy SILT 436 . . . . . . 8-12-10 a, m H O H C7 3-4-4 `?a 15.0 431 Boring Terminated At 15 Feet Below Existing N Elevation z (- Moist at Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-3 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 455.50 10 20 40 60 100 0.3 Topsoil and Occasional Rocks FILL-Stiff Red Clayey SILT ML 6-4-6 3.5 Firm Micaceous Red,Orange,and Yellow Clayey ML SILT 451 5-5-6 446 • 2-3-3 a, m H O H C7 2-3-3 c? 15.0 441 Boring Terminated At 15 Feet Below Existing Elevation z Moist at Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-6 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 462.50 10 20 40 60 100 Topsoil and Occasional Rocks 0.8 Stiff Red Clayey SILT MH • 5-6-7 3.0 Stiff Micaceous Red and Orange Fine Sandy SILT ML 458 1 4-4-5 453 • 5-6-7 a, m C) 13.5 0 Very Stiff Micaceous Red and Orange Silty Fine to ISM, (.9 Coarse SAND with Quartz Fragments 8-12-8 (.9 15.0 • 448 w Boring Terminated At 15 Feet Below Existing Elevation z I- Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-8 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 465.00 10 20 40 60 100 Topsoil and Occasional Rocks 0.7 -71 Stiff Red and Orange Clayey SILT ML 5-5-7 3.5 Very Stiff Micaceous Red,Orange,and Black Fine ML Sandy SILT 460 7-8-10 455 6-8-9 a, m H O C7 H C7 5-7-8 c? 15.0 450 w Boring Terminated At 15 Feet Below Existing N Elevation z cal Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-9 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 466.00 10 20 40 60 100 Topsoil and Occasional Rocks 0.7 -71 Stiff Red and Orange Clayey SILT ML • 7-6-5 3.5 Stiff Micaceous Orange,Red,and Yellow Fine ML Sandy SILT 461 • 7-8-7 456 •. 5-7-8 a, m H O H C7 5-6-7 c? 15.0 451 Boring Terminated At 15 Feet Below Existing N Elevation z (79 Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-11 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 467.50 10 20 40 60 100 0.5 Topsoil and Occasional Rocks FILL-Stiff Red Silty CLAY CL/ // 6-4-5 4.5 Stiff Red Clayey SILT ML 463 4-6-8 7.0 Stiff Micaceous Red,Yellow,Orange Clayey SILT ML� 458 •. 4-7-8 a, m H O C7 H C7 6-6-8 `? 15.0 453 Boring Terminated At 15 Feet Below Existing Elevation z (79 Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER B-12 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 443.00 10 20 40 60 100 Topsoil and Occasional Rocks 0.3 71111 FILL-Stiff Micaceous Red and Orange Clayey ML SILT • 4-5-6 2.5 Stiff Micaceous Red and Orange Clayey SILT ML • 3-5-6 5.0 438 . . . . . . . Boring Terminated At 5 Feet Below Existing Elevation m H O C7 H C7 a C7 w m N O m Z Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER P-1 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 449.00 10 20 40 60 100 Topsoil and Occasional Rocks 0.7 FILL-Firm Red Fine Sandy SILT ML 3.0 Stiff Micaceous Red Clayey SILT ML • 5-6-7 5.0 444 . . . . . . . Boring Terminated At 5 Feet Below Existing Elevation m H O C7 H C7 a C7 w m N O m Z Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER P-2 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 459.50 10 20 40 60 100 Topsoil and Occasional Rocks 0.8 FILL-Firm Red and Brown Fine Sandy SILT ML • 5-3-4 2.5 Stiff Micaceous Red and Orange Fine Sandy SILT • ML 5-6-7 5.0 455 . . . . . . . Boring Terminated At 5 Feet Below Existing Elevation io H O C7 H C7 a C7 w m N O m Z Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER P-3 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 472.00 10 20 40 60 100 Topsoil and Occasional Rocks 0.7 Stiff Red Clayey SILT ML • 5-6-5 2.5 Very Stiff Micaceous Red Clayey SILT ML • 6-7-10 5.0 467 . . . . . . . Boring Terminated At 5 Feet Below Existing Elevation m H O C7 H C7 C7a w m N O m Z Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER P-4 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 434.00 10 20 40 60 100 0.5 Topsoil and Occasional Rocks FILL-Stiff Orange and Red Clayey SILT ML 2-4-6 3.0 Firm to Soft Micaceous Orange,Tan,and Red Fine ML Sandy SILT 429 • . 2-3-3 424 • 2-1-2 a, m H O C7 H C7 • a 2-3-3 c? 15.0 419 Boring Terminated At 15 Feet Below Existing Elevation z (79 Dry At Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER W-1 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 / TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 0.0 447.00 10 20 40 60 100 0.3 _ Topsoil and Occasional Rocks FILL-Stiff Orange and Brown Fine Sandy SILT ML • 5-6-8 3.5 Stiff to Soft Orange and Yellow Fine Sandy SILT ML 442 4-5-8 437 3-4-5 a, m H O C7 H C7 2-2-2 `? 15.0 432 w Boring Terminated At 5 Feet Below Existing N Elevation z Moist at Time of Boring JOB NUMBER 1-19-0253-EA BORING NUMBER W-2 DATE 5-1-19 J GeoTechnologies, Inc. PAGE 1 OF 1 3200 Wellington Court,Ste 108 Raleigh,NC 27615 Laboratory Data GeoTechnologies, Inc. CBR DATA SHEET ASTM D-1883 JOB#: 1-19-0253-EA JOB NAME: Mosswood Blvd. Development DATE: 5/7/2019 SAMPLE I.D.: S-1 Depth: 0.0-3.0' NOTES: PROCTOR DATA: TEST PROCEDURE: ASTM D-698 Opt. Moisture= 26.8% Max.Dry Density = 94.5 PCF SOIL DESCRIPTION: Red Brown Micaceous Sandy Silt CBR SPECIMEN DATA Swell Data MOISTURE CONTENT 25.5% Initial Reading 0.485 WET DENSITY 116.4 Ibs./cu.ft. Final Reading 0.530 DRY DENSITY 92.7 lbs./cu.ft. Mold Height 4.594 %COMPACTION 98.1% % Swell 0.98 LOAD CELL 5000 LB. RATE OF DEFORMATION .05 in./min. SURCHARGE USED 10 lbs. 180.00 I 160.00 - 1 . 140.00 120.00 . o. 100.00 - d Q 80.00 60.00 40.00 - 20.00 - 0.00 1 0.00 0.10 0.20 0.30 0.40 0.50 0.60 Penetration (in.) CBR @ 0.1" 7.3 CBR @ 0.2" 7.1 %SWELL 1.0 1 ASTM D-4318 80 01CH 70 • P 60 . • A S T 50 • 1 C T 40 . Y I 30 - • N D . X 20 . 10 • CL-ML , CD CD 0 0 20 40 60 80 100 LIQUID LIMIT(LL) Specimen Identification LL PL PI Fines Classification •B-8 S-1 0.5-2.0' 54 32 22 66.5 Red Brown Micaceous Medium to Fine Sandy Clayey Silt I P-4 S-1 0.5-2.0' 39 25 14 71.9 Red Brown Micaceous Medium to Fine Sandy Clayey Silt PROJECT Mosswood Blvd Development-Youngsville, NC JOB NO. 1-19-0253-EA DATE 5/7/19 Date Recieved• ATTERBERG LIMITS' RESULTS Dates Tested: 3200 Wellington Court, Ste 108 Raleigh, NC 27615 135 GcoTechnologies, Inc. Job No: 1-19-0253-EA Date: 5/7/19 130 Job Name: Mosswood Blvd Development Job Location: Youngsville, NC Boring No: Sample No: S-1 125 Depth: 0.0-3.0' TEST RESULTS Method of Test: ASTM D 698 120 Maximum Dry Density: 94.5 PCF Optimum Moisture Content: 26.8% \ Natural Moisture Content: 0 115 Atterberg Limits: LL PI Soil Description: Red Brown Micaceous Sandy Silt N110 0 a Date Recieved• 5/2/2019 Dates Tested: 5/2-5/7/2019 2 105 >- ❑ re 100 CURVES OF 100%SATURATION 95 FOR SPECIFIC GRAVITY EQUAL TO: 2.80 90 2.70 \ 2.60 85 80 75 0 5 10 15 20 25 30 35 40 45 WATER CONTENT(Percent Dry Weight) MOISTURE-DENSITY RELATIONSHIP 3200 Wellington Court, Ste 108 Raleigh, NC 27615 U.S. Standard Sieve Sizes Cr N CO 1" " #4 #10 #20 #40 #60 #100 #200 100 60 m c m 2 40 0 100 8 6 4 2 10 8 6 4 2 1 8 6 4 2 0.1 8 6 4 2 0.01 8 6 4 2 0.0018 6 Grain Size In Millimeters GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat.W.C. L.L. P.L. P.I. Soil Description or Classification B-$ GRAIN SIZE DISTRIBUTION 0.5-2.0' 54.0 32.0 22.0 Red Brown Micaceous Medium to Fine Sandy S-1 Clayey Silt % GeoTechnologies, Inc. Project: Job No.: 1-19-0253-EA Mosswood Blvd Development Date Recieved• 3200 Wellington Court, Ste 108 Youngsville, NC Date: 5/7/19 Dates Tested: Raleigh, NC 27615 U.S. Standard Sieve Sizes V N CO 1" " #4 #10 #20 #40 #60 #100 #200 100 60 m c m 2 40 0 100 8 6 4 2 10 8 6 4 2 1 8 6 4 2 0.1 8 6 4 2 0.01 8 6 4 2 0.0018 6 Grain Size In Millimeters GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat.W.C. L.L. P.L. P.I. Soil Description or Classification P_4 GRAIN SIZE DISTRIBUTION 0.5-2.0' 39.0 25.0 14.0 Red Brown Micaceous Medium to Fine Sandy S-1 Clayey Silt % GeoTechnologies, Inc. Project: Job No.: 1-19-0253-EA Mosswood Blvd Development Date Recieved• 3200 Wellington Court, Ste 108 Youngsville, NC Date: 5/7/19 Dates Tested: Raleigh, NC 27615 CALCULATIONS Constructed Wetland Design Worksheet STOCKS ENGINEERING Wetland Design Project: Allen Pipkin Youngsville Location: Youngsville, NC Date: 7-Nov-23 REVISED Basin ID: Bioretention to Wetland Conversion Drainage Area (A) 5.1 Acres Impervious Area 3.97 Acres *Includes all offsite drainage area % Impervious (I) 77.84% as impervious. Water Quality Volume Calculate Rv: Rv= 0.05+.9 X I Rv= 0.75 WQV= 3630XRDXRvXA RD= 1.00 Inch WQV= 13,896 CF Surface Area Design Depth = 15.00 INCHES Surface Area= 11,117 SF Orifice Sizing Design Orifice Q= CoAo /2gHo CD= 0.6 g= 32.2 FT/S2 Ho= H/3= 0.33 FT H= 1 FT Ao= 0.02 FEET Design Pipe= 2 INCH Design Orifice Q= 0.06 CFS Days to Drain = 2.7 Grass-like Wetland Zones Herbaceous Herbaceous Area in SF %of Total Plants Plants Shrubs Trees Deep Pool (Non-Forebay) 1553.49 0.113302 NA NA NA NA Deep Pool (Forebay) 2019.7 0.147304 NA NA NA NA Shallow Water 5862.18 0.427551 1465.545 NA NA NA Temporary Inundation Zone 4275.71 0.311843 1068.9275 855.142 171.0284 1 Total Wetland Area 13711.1 The Temp. Inundation zone shall be planted with one of the three following combinations of plants: 1. Herbaceous Plants 2. Shrubs 3.Trees and Grass-like Herbaceous Plants CALCULATIONS Buoyancy Resistance Calcs Buoyancy Resistance Calculations for Wetwell Assumptions: Unit Weight of Saturated Soil [gsat] = 120 pcf Unit Weight of Concrete [g�o��] = 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 Wetwell (ft) = ID 3.39 Outside Diameter of Wetwell (ft) = OD 4.51 Depth of Structure (ft) = D 6.8 Minimum Base Slab Thickness (in) = T 6 Minimum Top Slab Thickness (in) = Tts 0 Average Invert Thickness (in) = Ti 0 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)2T;gconc Structure Weight, Top Slab = Wts pi(OD/2)z(Tts/12)gconc 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 6942.90 0 0.00 1442.438 8385.339 Vw Vbs B S W+ S = 9818.11 (ft) (ft3) (Ibs) (Ibs) B = 7387.41 FOS 108.58 9.81 7387.41 1432.77 Is W+ S > B? YES 1.33 Conclusion: Since the weight of the structure and the base slab is greater than the buoyancy for of the wetwell, the resistance to buoyant force is provided. CALCULATIONS Pre. vs Post Runoff Computations 1 Watershed Model Schematic Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 1 2 CP fp v ipt Project: 70 Mosswood Blvd Wetland Conversion.gpw Thursday, 06/29/2023 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 1.714 4.034 12.07 Pre Dev.Runoff 2 SCS Runoff 14.76 19.44 31.82 Post Dev.Runoff 3 Reservoir 2 1.202 5.655 21.05 Constructed Wetland Proj.file: 70 Mosswood Blvd Wetland Conversion.gpw Thursday, 06/29/2023 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 1.714 1 720 5,495 Pre Dev.Runoff 2 SCS Runoff 14.76 1 718 30,045 Post Dev.Runoff 3 Reservoir 1.202 1 751 23,124 2 442.09 16,333 Constructed Wetland 70 Mosswood Blvd Wetland Conversion.gpw Return Period: 1 Year Thursday, 06/29/2023 4 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 1 Pre Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 1.714 cfs Storm frequency = 1 yrs Time to peak = 12.00 hrs Time interval = 1 min Hyd. volume = 5,495 cuft Drainage area = 5.100 ac Curve number = 60 Basin Slope = 4.3 % Hydraulic length = 885 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 2.87 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev. Runoff Q (cfs) Hyd. No. 1 -- 1 Year Q (cfs) 2.00 2.00 1.00 1 1.00 0.00 - - 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 26 Hyd No. 1 Time (hrs) 5 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 2 Post Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 14.76 cfs Storm frequency = 1 yrs Time to peak = 11.97 hrs Time interval = 1 min Hyd. volume = 30,045 cuft Drainage area = 5.100 ac Curve number = 86.3 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 2.87 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev. Runoff Q (cfs) Hyd. No. 2-- 1 Year Q (cfs) 15.00 15.00 12.00 1 12.00 9.00 9.00 6.00 6.00 3.00 3.00 7( 0.00 - ' 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 Hyd No. 2 Time (hrs) 6 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 3 Constructed Wetland Hydrograph type = Reservoir Peak discharge = 1.202 cfs Storm frequency = 1 yrs Time to peak = 12.52 hrs Time interval = 1 min Hyd. volume = 23,124 cuft Inflow hyd. No. = 2 - Post Dev. Runoff Max. Elevation = 442.09 ft Reservoir name = Proposed Wetland Max. Storage = 16,333 cuft Storage Indication method used. Constructed Wetland Q (cfs) Hyd. No. 3-- 1 Year Q (cfs) 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 5 10 15 20 25 30 35 40 45 50 Time (hrs) Hyd No. 3 Hyd No. 2 I I Total storage used = 16,333 cuft Pond Report 7 Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Pond No. 1 - Proposed Wetland Pond Data Contours-User-defined contour areas.Average end area method used for volume calculation. Begining Elevation =440.75 ft Stage/Storage Table Stage(ft) Elevation(ft) Contour area(sqft) Incr.Storage(cuft) Total storage(cuft) 0.00 440.75 9,435 0 0 0.25 441.00 11,187 2,578 2,578 1.25 442.00 13,711 12,449 15,027 2.25 443.00 16,718 15,214 30,241 2.75 443.50 21,310 9,507 39,748 Culvert/Orifice Structures Weir Structures [A] [B] [C] [PrfRsr] [A] [B] [C] [D] Rise(in) = 18.00 2.00 0.00 0.00 Crest Len(ft) = 12.00 16.00 0.00 0.00 Span(in) = 18.00 2.00 0.00 0.00 Crest El.(ft) = 442.00 442.90 0.00 0.00 No.Barrels = 1 1 0 0 Weir Coeff. = 3.33 2.60 3.33 3.33 Invert El.(ft) = 435.20 440.75 0.00 0.00 Weir Type = 1 Broad --- --- Length(ft) = 38.00 0.67 0.00 0.00 Multi-Stage = Yes Yes No No Slope(%) = 0.50 0.01 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) 3.00 443.75 2.00 442.75 1.00 - 441.75 0.00 440.75 0.00 2.00 4.00 6.00 8.00 10.00 12.00 14.00 16.00 18.00 20.00 22.00 24.00 Total Q Discharge(cfs) 8 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 4.034 1 719 9,900 Pre Dev.Runoff 2 SCS Runoff 19.44 1 717 40,029 Post Dev.Runoff 3 Reservoir 5.655 1 725 33,087 2 442.27 19,064 Constructed Wetland 70 Mosswood Blvd Wetland Conversion.gpw Return Period: 2 Year Thursday, 06/29/2023 9 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 1 Pre Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 4.034 cfs Storm frequency = 2 yrs Time to peak = 11.98 hrs Time interval = 1 min Hyd. volume = 9,900 cuft Drainage area = 5.100 ac Curve number = 60 Basin Slope = 4.3 % Hydraulic length = 885 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 3.47 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev. Runoff Q (cfs) Hyd. No. 1 --2 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 1 - 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 26 Hyd No. 1 Time (hrs) 10 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 2 Post Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 19.44 cfs Storm frequency = 2 yrs Time to peak = 11.95 hrs Time interval = 1 min Hyd. volume = 40,029 cuft Drainage area = 5.100 ac Curve number = 86.3 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 3.47 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev. Runoff Q (cfs) Hyd. No. 2--2 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 4 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 7( --,—.. 0.00 - ' 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 Hyd No. 2 Time (hrs) 11 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 3 Constructed Wetland Hydrograph type = Reservoir Peak discharge = 5.655 cfs Storm frequency = 2 yrs Time to peak = 12.08 hrs Time interval = 1 min Hyd. volume = 33,087 cuft Inflow hyd. No. = 2 - Post Dev. Runoff Max. Elevation = 442.27 ft Reservoir name = Proposed Wetland Max. Storage = 19,064 cuft Storage Indication method used. Constructed Wetland Q (cfs) Hyd. No. 3--2 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 5 10 15 20 25 30 35 40 45 50 Time (hrs) Hyd No. 3 Hyd No. 2 I Total storage used = 19,064 cuft 12 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 12.07 1 718 25,063 Pre Dev.Runoff 2 SCS Runoff 31.82 1 717 67,120 Post Dev.Runoff 3 Reservoir 21.05 1 722 60,139 2 442.69 25,497 Constructed Wetland 70 Mosswood Blvd Wetland Conversion.gpw Return Period: 10 Year Thursday, 06/29/2023 13 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 1 Pre Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 12.07 cfs Storm frequency = 10 yrs Time to peak = 11.97 hrs Time interval = 1 min Hyd. volume = 25,063 cuft Drainage area = 5.100 ac Curve number = 60 Basin Slope = 4.3 % Hydraulic length = 885 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 5.02 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Pre Dev. Runoff Q (cfs) Hyd. No. 1 -- 10 Year Q (cfs) 14.00 14.00 12.00 12.00 10.00 10.00 8.00 f 8.00 6.00 6.00 4.00 4.00 2.00LI.--------11 - 2.00 0.00 - 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 26 Hyd No. 1 Time (hrs) 14 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 2 Post Dev. Runoff Hydrograph type = SCS Runoff Peak discharge = 31.82 cfs Storm frequency = 10 yrs Time to peak = 11.95 hrs Time interval = 1 min Hyd. volume = 67,120 cuft Drainage area = 5.100 ac Curve number = 86.3 Basin Slope = 0.0 % Hydraulic length = 0 ft Tc method = User Time of conc. (Tc) = 5.00 min Total precip. = 5.02 in Distribution = Type II Storm duration = 24 hrs Shape factor = 484 Post Dev. Runoff Q (cfs) Hyd. No. 2-- 10 Year Q (cfs) 35.00 35.00 30.00 30.00 25.00 25.00 20.00 20.00 15.00 15.00 10.00 10.00 5.00 5.00 0.00 - ' 0.00 0.0 2.0 4.0 6.0 8.0 10.0 12.0 14.0 16.0 18.0 20.0 22.0 Hyd No. 2 Time (hrs) 15 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk®Civil 3D®by Autodesk, Inc.v2022 Thursday,06/29/2023 Hyd. No. 3 Constructed Wetland Hydrograph type = Reservoir Peak discharge = 21.05 cfs Storm frequency = 10 yrs Time to peak = 12.03 hrs Time interval = 1 min Hyd. volume = 60,139 cuft Inflow hyd. No. = 2 - Post Dev. Runoff Max. Elevation = 442.69 ft Reservoir name = Proposed Wetland Max. Storage = 25,497 cuft Storage Indication method used. Constructed Wetland Q (cfs) Hyd. No. 3-- 10 Year Q (cfs) 35.00 35.00 30.00 30.00 25.00 25.00 20.00 20.00 15.00 15.00 10.00 10.00 5.00 5.00 0.00 uullll I 111 - 0.00 0 2 4 6 8 10 12 14 16 18 20 22 24 26 Time (hrs) Hyd No. 3 Hyd No. 2 I Total storage used = 25,497 cuft CALCULATIONS Rip Rap Outlet Protection Worksheets STOCKS ENGINEERING Rip-Rap Outlet Protection Pipe# FES 8 .:4• •...r-4radp ! Known: ado A ;ik:�ii�.��1i,A ir 18 RCP �..tj./r�•.�:�r�e. Q10= 9.5 CFS do WM:S•alig11 V10= 5.38 FPS ltdiil:�e��il1 l fGr 1:41 1 0.0 /• Min. Required: Plan La= 8 FT La W= 13 FT irlill�� 3do= 5 FT • +��-• •.•.;;+_•;;11=1 I d50= 0.4 (Rip Rap Size, FT) Filter Section AA ,blanket *Use Class B Rip Rap over Mirafi 140N 18 " in depth. Rip-Rap Outlet Protection Pipe# FES 16 4tig ii rre roll_ Known: �••��a��I+��• 30 RCP 3d0 A rih ire p rOoIii A raj str ram-: Qio= 18.35 CFS fo ��4�1:�ISSj��: Vio= 3.74 FPSg•ikidp �"var•��. r 011313 Min. Required: Plan La= 15 FT _ W= 18 FT ■ La �1 3do= 8 FT d5o= 0.6 (Rip Rap Size, FT) Section AA 'Filter blanket *Use Class B Rip Rap over Mirafi 140N 18" " in depth. Rip-Rap Outlet Protection Pipe# FES 19 .+•�.�.1 •/(4,0°i�.NW Known: j�%a�•Iien" 18 " RCP 3do A ��i��i��iiA �� ttaii.,f��eb•il Qio= 21.05 CFS do ��;1�;•�°�•ig� Vio= 11.92 FPS •�-.1,140.sio: �++r Min. Required: Plan La= 10 FT W= 6 FT 7 ,, La 7 3do= 4.5 FT d50= 0.6 (Rip Rap Size, FT) ---. ICJ. _ 'i•.i,:••• s.4��:-iii -"1 Filter Section AA 'blanket *Use Class B Rip Rap over Mirafi 140N 18" " in depth. NCDENR FORMS Stormwater Management Permit Application Form DEMLR USE ONLY Date Received Fee Paid Permit Number Applicable Rules: £ Coastal SW—1995 £ Coastal SW—2008 £ Ph II-Post Construction (select all that apply) £ Non-Coastal SW-HQW/ ORW Waters £ Universal Stormwater Management Plan £ Other WQ Mgmt Plan: State of North Carolina Department of Environment and Natural Resources Division of Energy, Mineral and Land Resources STORMWATER MANAGEMENT PERMIT APPLICATION FORM This form may be photocopied for use as an original I. GENERAL INFORMATION 1. Project Name(subdivision, facility,or establishment name -should be consistent with project name on plans, specifications,letters,operation and maintenance agreements,etc.): Allen Pipkin Youngsville SCM Conversion 2. Location of Project(street address): 70 Mosswood Boulevard City:Youngsville County:Franklin Zip:27596 3. Directions to project(from nearest major intersection): At the intersection of Rt 1 and SR 2019 in Youngsville,NC head East on Mosswood Boulevard. The property is on the south side of the road approximately 700' from Rt 1 and 330'beyond Gatekeeper Rd. 4. Latitude:36Y'2'0.1212"N Longitude:781/30' 1.1664"W of the main entrance to the project. II. PERMIT INFORMATION: 1.a.Specify whether project is(check one): New ❑Modification ❑ Renewal w/ Modificationt tRenewals with modifications also requires SWU-102—Renewal Application Form b.If this application is being submitted as the result of a modification to an existing permit,list the existing permit number ,its issue date(if known) , and the status of construction: ❑Not Started ❑Partially Completed* ❑ Completed* *provide a designer's certification 2. Specify the type of project (check one): ❑Low Density ®High Density ❑Drains to an Offsite Stormwater System ❑Other 3. If this application is being submitted as the result of a previously returned application or a letter from DEMLR requesting a state stormwater management permit application,list the stormwater project number, if assigned, and the previous name of the project,if different than currently proposed, 4.a.Additional Project Requirements (check applicable blanks;information on required state permits can be obtained by contacting the Customer Service Center at 1-877-623-6748): ❑LAMA Major ®Sedimentation/Erosion Control: 5.11 ac of Disturbed Area ❑NPDES Industrial Stormwater 0404/401 Permit:Proposed Impacts b.If any of these permits have already been acquired please provide the Project Name,Project/ Permit Number, issue date and the type of each permit:FRANK-2019-033 5. Is the project located within 5 miles of a public airport? No ❑Yes If yes,see S.L. 2012-200,Part VI:http://portal.ncdenr.org/web/lr/rules-and-regulations Form SWU-101 Version Oct. 31,2013 Page 1 of 6 III. CONTACT INFORMATION 1.a.Print Applicant/ Signing Official's name and title(specifically the developer,property owner,lessee, designated government official,individual, etc.who owns the project): Applicant/Organization:Albermarle Properties LLC Signing Official&Title:Allen Pipkin,Manager b.Contact information for person listed in item la above: Street Address:10320 Durant Road Suite 113 City:Raleigh State:NC Zip:27614 Mailing Address (ifapplicable):10320 Durant Road Suite 113 City:Raleigh State:NC Zip:27614 Phone: (919 ) 524-1144 Fax: ( ) Email:tapipkinliahoo.com c.Please check the appropriate box.The applicant listed above is: ® The property owner(Skip to Contact Information,item 3a) n Lessee*(Attach a copy of the lease agreement and complete Contact Information,item 2a and 2b below) n Purchaser*(Attach a copy of the pending sales agreement and complete Contact Information,item 2a and 2b below) n Developer*(Complete Contact Information,item 2a and 2b below.) 2.a.Print Property Owner's name and title below,if you are the lessee,purchaser or developer. (This is the person who owns the property that the project is located on): Property Owner/ Organization: Signing Official&Title: b.Contact information for person listed in item 2a above: Street Address: City: State: Zip: Mailing Address (if applicable): City: State: Zip: Phone: ( ) Fax: ( ) Email: 3.a. (Optional)Print the name and title of another contact such as the project's construction supervisor or other person who can answer questions about the project: Other Contact Person/Organization: Signing Official&Title: b.Contact information for person listed in item 3a above: Mailing Address: City: State: Zip: Phone: ( ) Fax: ( ) Email: 4. Local jurisdiction for building permits:Franklin County Builidng Inspections Point of Contact:Tommy Harris Phone#: (919 ) 496-2281 Form SWU-101 Version Oct. 31,2013 Page 2 of 6 IV. PROJECT INFORMATION 1. In the space provided below,briefly summarize how the stormwater runoff will be treated. The stormwater runoff will be collected in an underground drainage system,treated by a constructed wetland and then will be discharged from the site. 2.a.If claiming vested rights,identify the supporting documents provided and the date they were approved: n Approval of a Site Specific Development Plan or PUD Approval Date: n Valid Building Permit Issued Date: n Other: Date: b.If claiming vested rights,identify the regulation(s)the project has been designed in accordance with: n Coastal SW—1995 n Ph II—Post Construction 3. Stormwater runoff from this project drains to the Neuse River basin. 4. Total Property Area: 5.11 acres 5. Total Coastal Wetlands Area:0 acres 6. Total Surface Water Area:0 acres 7. Total Property Area(4)—Total Coastal Wetlands Area(5)—Total Surface Water Area(6)=Total Project Area+: 5.11 acres + Total project area shall be calculated to exclude the following: the normal pool of impounded structures,the area between the banks of streams and rivers,the area below the Normal High Water(NHW)line or Mean High Water (MHW)line,and coastal wetlands landward from the NHW(or MHW)line.The resultant project area is used to calculate overall percent built upon area(BUA). Non-coastal wetlands landward of the NHW(or MHW)line may be included in the total project area. 8. Project percent of impervious area:(Total Impervious Area/ Total Project Area)X 100 =68.2 9. How many drainage areas does the project have?1 (For high density, count 1 for each proposed engineered stormwater BMP. For low density and other projects,use 1 for the whole property area) 10. Complete the following information for each drainage area identified in Project Information item 9. If there are more than four drainage areas in the project,attach an additional sheet with the information for each area provided in the same format as below. Basin Information Drainage Area 1 Drainage Area_ Drainage Area_ Drainage Area Receiving Stream Name Richland Creek Stream Class * C;NSW Stream Index Number * 27-21-(0.5) Total Drainage Area(sf) 222,847 On-site Drainage Area(sf) 202,061 Off-site Drainage Area(sf) 20,786 Proposed Impervious Area'`(sf) 152,024 %Impervious Area'`(total) 68.2 Imp ervious**Surface Area Drainage Area 1 Drainage Area_ Drainage Area_ Drainage Area On-site Buildings/Lots (sf) 42,600 On-site Streets (sf) 0 On-site Parking (sf) 105,000 On-site Sidewalks (sf) 4,424 Other on-site (sf) 0 Future (sf) 0 Off-site (sf) 0 Existing BUA p'a (sf) 0 Total (sf): 152,024 * Stream Class and Index Number can be determined at: http://portal.ncdenr.org/web/wq/ps/csu/classifications Impervious area is defined as the built upon area including,but not limited to,buildings,roads,parking areas, sidewalks,gravel areas, etc. Form SWU-101 Version Oct. 31,2013 Page 3 of 6 ''''''Report only that amount of existing BUA that will remain after development. Do not report any existing BUA that is to be removed and which will be replaced by new BUA. 11. How was the off-site impervious area listed above determined?Provide documentation. Construction Docs. provided by owner and original site designer.The original plans are included with 11-6-23 resubmittal. Projects in Union County: Contact DEMLR Central Office staff to check if the project is located within a Threatened& Endangered Species watershed that may be subject to more stringent stormwater requirements as per 15A NCAC 02B.0600. V. SUPPLEMENT AND O&M FORMS The applicable state stormwater management permit supplement and operation and maintenance(O&M)forms must be submitted for each BMP specified for this project. The latest versions of the forms can be downloaded from http://portal.ncdenr.org/web/wq/ws/ su/bmp-manual. VI. SUBMITTAL REQUIREMENTS Only complete application packages will be accepted and reviewed by the Division of Energy,Mineral and Land Resources (DEMLR). A complete package includes all of the items listed below. A detailed application instruction sheet and BMP checklists are available from http://portal.ncdenr.org/web/wq/ws/ su/ statesw/ forms_docs. The complete application package should be submitted to the appropriate DEMLR Office. (The appropriate office may be found by locating project on the interactive online map at http://portal.ncdenr.org/web/wq/ws/ su/maps.) Please indicate that the following required information have been provided by initialing in the space provided for each item.All original documents MUST be signed and initialed in blue ink. Download the latest versions for each submitted application package from http://portal.ncdenr.org/web/wq/ws/ su/ statesw/ forms_docs. Initials 1. Original and one copy of the Stormwater Management Permit Application Form. 2. Original and one copy of the signed and notarized Deed Restrictions&Protective Covenants Form. (if required as per Part VII below) 3. Original of the applicable Supplement Form(s)(sealed,signed and dated)and O&M agreement(s)for each BMP. 4. Permit application processing fee of$505 payable to NCDENR. (For an Express review,refer to http://www.envhelp.org/pages/ onestopexpress.html for information on the Express program and the associated fees. Contact the appropriate regional office Express Permit Coordinator for additional information and to schedule the required application meeting.) 5. A detailed narrative(one to two pages)describing the stormwater treatment/management for 6. A USGS map identifying the site location. If the receiving stream is reported as class SA or the receiving stream drains to class SA waters within %mile of the site boundary,include the 'h mile radius on the map. 7. Sealed,signed and dated calculations(one copy). 8. Two sets of plans folded to 8.5"x 14" (sealed,signed,&dated),including: a. Development/Project name. b. Engineer and firm. c. Location map with named streets and NCSR numbers. d. Legend. e. North arrow. f. Scale. g. Revision number and dates. h. Identify all surface waters on the plans by delineating the normal pool elevation of impounded structures,the banks of streams and rivers,the MHW or NHW line of tidal waters,and any coastal wetlands landward of the MHW or NHW lines. Delineate the vegetated buffer landward from the normal pool elevation of impounded structures,the banks of streams or rivers,and the MHW (or NHW)of tidal waters. i. Dimensioned property/project boundary with bearings&distances. j. Site Layout with all BUA identified and dimensioned. k. Existing contours,proposed contours,spot elevations,finished floor elevations. 1. Details of roads,drainage features,collection systems,and stormwater control measures. m.Wetlands delineated,or a note on the plans that none exist. (Must be delineated by a qualified person. Provide documentation of qualifications and identify the person who made the determination on the plans. n. Existing drainage (including off-site),drainage easements,pipe sizes,runoff calculations. o. Drainage areas delineated (included in the main set of plans,not as a separate document). Form SWU-101 Version Oct. 31,2013 Page 4 of 6 p. Vegetated buffers (where required). 9. Copy of any applicable soils report with the associated SHWT elevations(Please identify elevations in addition to depths)as well as a map of the boring locations with the existing elevations and boring logs. Include an 8.5"xl l" copy of the NRCS County Soils map with the project area clearly delineated. For projects with infiltration BMPs,the report should also include the soil type,expected infiltration rate,and the method of determining the infiltration rate. (Infiltration Devices submitted to WiRO: Schedule a site visit for DEMLR to verify the SHWT prior to submittal, (910)796-7378.) 10. A copy of the most current property deed.Deed book:2186 Page No:463 11. For corporations and limited liability corporations(LLC):Provide documentation from the NC Secretary of State or other official documentation,which supports the titles and positions held by the persons listed in Contact Information,item la,2a,and/or 3a per 15A NCAC 2H.1003(e). The corporation or LLC must be listed as an active corporation in good standing with the NC Secretary of State, otherwise the application will be returned. http://www.secretary.state.nc.us/Corporations/CSearch.aspx VII. DEED RESTRICTIONS AND PROTECTIVE COVENANTS For all subdivisions,outparcels,and future development,the appropriate property restrictions and protective covenants are required to be recorded prior to the sale of any lot. If lot sizes vary significantly or the proposed BUA allocations vary,a table listing each lot number,lot size,and the allowable built-upon area must be provided as an attachment to the completed and notarized deed restriction form. The appropriate deed restrictions and protective covenants forms can be downloaded from http://portal.ncdenr.org/web/lr/state- stormwater-forms docs.Download the latest versions for each submittal. In the instances where the applicant is different than the property owner,it is the responsibility of the property owner to sign the deed restrictions and protective covenants form while the applicant is responsible for ensuring that the deed restrictions are recorded. By the notarized signature(s)below,the permit holder(s)certify that the recorded property restrictions and protective covenants for this project,if required, shall include all the items required in the permit and listed on the forms available on the website,that the covenants will be binding on all parties and persons claiming under them,that they will run with the land,that the required covenants cannot be changed or deleted without concurrence from the NC DEMLR,and that they will be recorded prior to the sale of any lot. VIII. CONSULTANT INFORMATION AND AUTHORIZATION Applicant: Complete this section if you wish to designate authority to another individual and/or firm (such as a consulting engineer and/or firm)so that they may provide information on your behalf for this project(such as addressing requests for additional information). Consulting Engineer:J.Michael Stocks Consulting Firm: Stocks Engineering Mailing Address:PO Box 1108 City:Nashville State:NC Zip:27856 Phone: (252 ) 459-8196 Fax: (252 ) 459-8197 Email:astockstocksengineering.com IX. PROPERTY OWNER AUTHORIZATION (if Contact Information,item 2 has been filled out,complete this section) I, (print or type name ofperson listed in Contact Information,item 2a) ,certify that I own the property identified in this permit application,and thus give permission to (print or type name ofperson listed in Contact Information,item la) with (print or type name of organization listed in Contact Information,item la) to develop the project as currently proposed. A copy of the lease agreement or pending property sales contract has been provided with the submittal,which indicates the party responsible for the operation and maintenance of the stormwater system. Form SWU-101 Version Oct. 31,2013 Page 5 of 6 As the legal property owner I acknowledge,understand,and agree by my signature below,that if my designated agent(entity listed in Contact Information,item 1)dissolves their company and/or cancels or defaults on their lease agreement,or pending sale,responsibility for compliance with the DEMLR Stormwater permit reverts back to me,the property owner.As the property owner,it is my responsibility to notify DEMLR immediately and submit a completed Name/Ownership Change Form within 30 days;otherwise I will be operating a stormwater treatment facility without a valid permit. I understand that th r treatment facility without a valid permit is a violation of NC Gener e 43-215.1 and may result in appropriat orcement action including the assessment o 'vil ies of up to$25,000 per day,pursuant to NCGS 143-215.6. Signature: I, ,a Notary Public for the State of ,County of ,do hereby certify that personally appeared before me this day of ,and acknowledge the due execution of the application for a stormwater permit. Witness my hand and official seal, SEAL My commission expires X. APPLICANT'S CERTIFICATION I, (print or type name of person listed in Contact Information, item la)Albemarle Properties LLC(Allen Pipkin) certify that the information included on this permit application form is,to the best of my knowledge,correct and that the project will be constructed in conformance with the approved plans,that the required deed restrictions and protective covenants will be recorded,and that the proposed project complies with the requirements of the applicable stormwater r under 15A NCAC 2H.1000 and any other applicable state stormwater requirements. )Signature: Datee11 �r� — I, i4rr r r�1 ,a Notary Public for the State of A10(411 IA)It( ►nG ,County of w4I ,do hereby certify that TMtn A(I&n l 1p kr% 3 r personally appeared before me this 14 day of 21E3 ,and acknowledge the due execution of the application for 44/re) a stormwater permit. Witness and and official seal, (411!4i4 SEAL AMANDA BURGESS Notary Public,North Carolina Wake County My Commission Expires 4�//�� February 15,2028 My commission expires I Form SWU-101 Version Oct. 31,2013 Page 6 of 6 NCDENR FORMS Supplement EZ Form SUPPLEMENT-EZ COVER PAGE FORMS LOADED PROJECT INFORMATION 1 Project Name Allen Pipkin Youngsville SCM Conversion 2 Project Area(ac) 5.1 • 3 Coastal Wetland Area(ac) 0 4 Surface Water Area(ac) 0 5 Is this project High or Low Density? High 6 Does this project use an off-site SCM? No COMPLIANCE WITH 02H.1003(4) 7 Width of vegetated setbacks provided(feet) 50 8 Will the vegetated setback remain vegetated? Yes 9 If BUA is proposed in the setback,does it meet NCAC 02H.1003(4)(c-d)? N/A 10 Is streambank stabilization proposed on this project? No NUMBER AND TYPE OF SCMs: 11 Infiltration System 12 Bioretention Cell 13 Wet Pond 14 Stormwater Wetland 1 15 Permeable Pavement 16 Sand Filter 17 Rainwater Harvesting(RWH) 18 ,Green Roof 19 Level Spreader-Filter Strip(LS-FS) 20 Disconnected Impervious Surface(DIS) 21 Treatment Swale 22 Dry Pond 23 StormFilter 24 Silva Cell 25 Bayfilter 26 Filterra FORMS LOADED DESIGNER CERTIFICATION 27 Name and Title: J.Michael Stocks,PE 28 Organization: Stocks Engineering 29 Street address: 801 E Washington St. 30 City,State,Zip: Nashville,NC 27856 31 Phone number(s): 252-459-8196 32 Email: astocks@stocksengineering.com Certification Statement: I certify,under penalty of law that this Supplement-EZ form and all supporting information were prepared under my direction or supervision;that the information provided in the form is,to the best of my knowledge and belief,true,accurate,and complete;and that the engineering plans, specifications,operation and maintenance agreements and other supporting information are consistent with the information provided here. Designer `‘`��fltEtltlt��, or% t...S S .o. 1,,Z-c4g 04/%1. s 4C 17ignatu of Designer i SEAL i 19843 •• :: . • • w 4*p,...s.„.....,c0-14/-7/1.--3 t(/7/ 3 Seal :t f:s i l l%S Date DRAINAGE AREAS 1 Is this a high density project? Yes 2 If so,number of drainage areas/SCMs 1 3 Does this project have low density areas? No 4 If so,number of low density drainage areas 0 Is all/part of this project subject to previous rule 5 versions? No FORMS LOADED DRAINAGE AREA INFORMATION Entire Site 7 4 Type of SCM Wetland 5 Total drainage area(sq ft) 219029 sf 219029 sf 6 Onsite drainage area(sq ft) 198243 sf 198243 sf 7 Offsite drainage area(sq ft) 20786 sf 20786 sf 8 Total BUA in project(sq ft) 152024 sf 152024 sf New BUA on subdivided lots(subject to 9 permitting)(sq ft) sf sf New BUA not on subdivided lots(subject to 10 permitting)(sf) 154024 sf 154024 sf 11 Offsite BUA(sq ft) 20786 sf 20786 sf 12 Breakdown of new BUA not on subdivided lots: -Parking(sq ft) 105000 sf 105000 sf -Sidewalk(sq ft) _ 4424 sf 4424 sf -Roof(sq ft) 42600 sf 42600 sf -Roadway(sq ft) sf sf -Future(sq ft) sf sf -Other,please specify in the comment box below(sq ft) sf sf New infiltrating permeable pavement on 13 subdivided lots(sq ft) sf sf New infiltrating permeable pavement not on 14 subdivided lots(sq ft) sf sf Existing BUA that will remain(not subject to 15 permitting)(sq ft) sf sf 16 Existing BUA that is already permitted(sq ft) sf sf 17 Existing BUA that will be removed(sq ft) sf sf 18 Percent BUA 68% 79% 19 Design storm(inches) 1.0 in 20 Design volume of SCM(cu ft) 15027 cf 21 Calculation method for design volume Simple ADDITIONAIIVFORMATION Please use this space to provide any additional information about the 22 drainage area(s): STORMWATER WETLAND 1 Drainage area number 1 2 Minimum required treatment volume (cu ft) 13896 cf GENERAL MDC FROM 02H .1050 3 Is the SCM sized to treat the SW from all surfaces at build-out? Yes 4 Is the SCM located away from contaminated soils? Yes 5 What are the side slopes of the SCM (H:V)? 3:1 6 Does the SCM have retaining walls, gabion walls or other engineered No side slopes? 7 Are the inlets, outlets, and receiving stream protected from erosion Yes (10-year storm)? 8 Is there an overflow or bypass for inflow volume in excess of the Yes design volume? 9 What is the method for dewatering the SCM for maintenance? Pump (preferred) 10 If applicable, will the SCM be cleaned out after construction? Yes 11 Does the maintenance access comply with General MDC (8)? Yes 12 Does the drainage easement comply with General MDC (9)? _ Yes 13 If the SCM is on a single family lot, does (will?) the plat comply with N/A General MDC (10)? 14 Is there an O&M Agreement that complies with General MDC (11)? Yes 15 Is there an O&M Plan that complies with General MDC (12)? Yes 16 Does the SCM follow the device specific MDC? Yes 17 Was the SCM designed by an NC licensed professional? Yes STORMWATER WETLAND MDC FROM 02H .1054 18 Design volume of SCM (cu ft) 13896 cf 19 Are the inlet(s) and outlet located in a manner that avoids short- Yes circuiting? 20 Are berms or baffles provided to improve the flow path? No 21 Does the orifice drawdown from below the top surface of the Yes permanent pool? Does the wetland minimize impacts to the receiving channel from the 22 Yes 1-yr, 24-hr storm? 23 Is a trash rack or other device provided to protect the outlet system? Yes 'Elevations 24 Elevation, peak attenuation above temporary pool (if applicable) 442.90 (fmsl) I 25 Elevation, temporary pool (top of the temporary inundation zone) 442.00 (fmsl) 26 Elevation, permanent pool (top of the shallow water zone) (fmsl) 440.75 27 Elevation, bottom of shallow water zone (fmsl) 440.00 28 Elevation, bottom of forebay deep pool at deepest point (at forebay 436.00 entrance) (fmsl) 29 Elevation, bottom of forebay deep pool at shallowest point (at forebay 437.00 exit) (fmsl) 30 Elevation, bottom of non-forebay deep pool at deepest point (fmsl) 439.00 'Planting Zones 31 Area, total surface area of the SW wetland at temporary pool elev. 13,711.00 32 Area, temporary inundation zone at temporary pool elev. (sq ft) 4,276.00 33 Area, shallow water zone at temporary pool elev. (sq ft) 5,862.00 Wetland 1 1:26 PM 11/7/2023 STORMWATER WETLAND 34 Area, forebay at temporary pool elev. (sq ft) 2,020.00 35 Area, non-forebay deep pool at temporary pool elev .(sq ft) 1,553.00 36 Percent area provided, temporary inundation zone (should be 30- 31 45%) _ 37 Percent area provided, shallow water zone (should be 35-45%) 43% 38 Percent area provided, deep pool (forebay) (should be 10-15%) 15% 391 Percent area provided, deep pool (non-forebay) (should be 5-15%) 11% 1Depths and Outlet 40 Peak attenuation depth above temporary inundation zone (inches) 10.80 in 41 Temporary inundation zone depth (temporary pool to permanent 15.00 in pool) (inches) 42 Shallow water zone depth (permanent pool to bottom of wetland) gin (inches) 43 Depth, forebay at entrance (permanent pool to bottom of forebay 48 in entrance) (inches) 44 Depth, forebay at exit (permanent pool to bottom of forebay exit) 36 in (inches) 45 Depth, non-forebay deep pools (permanent pool to deep pool bottom)1 24 in (inches) 46 If there is an orifice, diameter (inches) 2 in 47 If there is a weir, weir height (inches) NA 48 If there is a weir, weir length (inches) NA 49 Drawdown time for the temporary pool (days) 2.7 Wetland 2 1:26 PM 11/7/2023 STORMWATER WETLAND Soil and Plants 50 Soil amendment depth (inches) 12 in 51 Has a soil amendment specification been provided? Yes 52 Has a landscaping plan that meets SW Wetland MDC (12) been Yes provided? 53 Number of plants per 200 square feet (#) in the shallow water zone: 54 Does the temporary inundation zone planting comply with SW Yes Wetland MDC (14)? 55 Are the dam structure and temporary fill slopes planted in non- Yes clumping turfgrass? 56 Will cattails be planted in the wetland? No ADDITIONAL INFORMATION T T 57 Please use this space to provide any additional information about the stormwater wetland(s): Wetland 1 1:26 PM 11/7/2023 NCDENR FORMS O&M EZ Form Operation & Maintenance Agreement Project Name: Allen Pipkin SCM Conversion Project Location: 70 Mosswood Blvd. Youngsville, NC Cover Page Maintenance records shall be kept on the following SCM(s). This maintenance record shall be kept in a log in a known set location. Any deficient SCM elements noted in the inspection will be corrected, repaired,or replaced immediately. These deficiencies can affect the integrity of structures,safety of the public,and the pollutant removal efficiency of the SCM(s). The SCM(s)on this project include(check all that apply&corresponding O&M sheets will be added automatically): Infiltration Basin Quantity: Location(s): Infiltration Trench Quantity: Location(s): Bioretention Cell Quantity: Location(s): Wet Pond Quantity: Location(s): Stormwater Wetland Quantity: 1 Location(s): rear of site Permeable Pavement Quantity: Location(s): Sand Filter Quantity: Location(s): Rainwater Harvesting Quantity: Location(s): Green Roof Quantity: Location(s): Level Spreader-Filter Strip Quantity: Location(s): Proprietary System Quantity: Location(s): Treatment Swale Quantity: Location(s): Dry Pond Quantity: Location(s): Disconnected Impervious Surface Present: No Location(s): User Defined SCM Present: No Location(s): Low Density Present: No Type: I acknowledge and agree by my signature below that I am responsible for the performance of the maintenance procedures listed for each SCM above,and attached O&M tables. I agree to notify NCDEQ of any problems with the system or prior to any changes to the system or responsible party. Responsible Party: Allen Pipkin Title&Organization: Albemarl Properties LLC Street address: 10320 Durant Road Suite 113 City,state,zip: Raleigh,NC 27614 Phone number(s): 1.919.524.1144 Email: tapipkinl@yahoo.com Signature: L /t 4 .-, �� Date: ) ) )`-f'-2 3 I .41))11 CA j 1 /1v�� ,a Notary Public for the State of N C County of (A.)Ct K(} ,do hereby certify that 77 v .L S 4Ji on p p it i`n personally appeared before me this rh day of Alaimo f 70(} and acknowledge the due execution of the O er ion nd Maintenance Agreement. Witness my hand and official seal, y.01111111 •`` Ca..\ ......... b ��e�ri••07 „0• %, My commission expires 7'?G "— 'OZ C0 t to• STORM-EZ 11/7/2023 Version 1.5 O&M Agreement Page 1 of 4 Stormweter Wetland Maintenance Requirements Important operation and maintenance procedures: Immediately following construction of the stornmater wetland,conduct bi-weekly inspections and water wetland plants bi- weekly until vegetation becomes established(commonly six weel6). Before and immediately after plant installation,monitor water level and adjust to ensure that plants are not completely inundated. No portion of the stormwater wetland will be fertilized after the initial fertilization that is required to establish the wetland plants. - Stable g roundcover will be maintained in the drainage area to reduce the sediment load to the wetland. At least once annually,a dam safety expert will inspect the embankment.Any problems that are found will be repaired - immediately. After the wetland is established,it shall be inspected quarterlyand within 24 hours after everystorm event greater than 1.0 inches(or 1.5 inches if in a Coastal County). Records of operation and maintenance shall be kept in a(mown set location and shall be available upon request. Inspection activities shall be performed as follows.Any problems that are found shall be repaired immediately. SCM element: Potential problem: Howl will remediate the problem: The entire wetland Trash/debris is present. Remove the trash/debris. The perimeter of the wetland Areas of bare soil and/or erosive Regrade the soil if necessary to remove the gully,plant ground cover and gullies have formed. water until it is established. Provide lime and a one-time fertilizer application. The inlet pipe is clogged(if Unclog the pipe. Dispose of the sediment off-site. applicable). The inlet pipe is cracked or otherwise damaged(if Repair or replace the pipe. The inlet device applicable). Erosion is occurring in the Regrade the swale if necessary and provide erosion control devices such as swale(if applicable). reinforced turf matting or riprap to avoid future problems with erosion. Sediment has accumulated in the forebayto a depth of less Search for the source of the sediment and remedy the problem if possible. than 15"or that inhibits the Remove the sediment and dispose of it in a location where it will not cause forebay from functioning well. impacts to streams or the SCM. The forebay Erosion has occurred. Provide additional erosion protection such as reinforced turf matting or riprap if needed to prevent future erosion problems. Weeds are present. Remove the weeds,preferably by hand. If pesticide is used,wipe it on the plants rather than spraying. Stormwater Wetland Maintenance Requirements(Continued) SCM element: Potential problem: Howl will remediate the problem: A tree has started to grow on the If the tree is<6"in diameter,remove the tree. If the tree is>6"in diameter, embankment. consult a dam safety specialist to remove the tree. An annual inspection by an Embankment appropriate professional shows that the embankment needs Make all needed repairs immediately. repair. Evidence of muskrat or beaver Consult a professional to remove muskrats or beavers and repair any holes or activity is present. erosion. Algal growth covers over 30%of the deep pool and shallow water Consult a professional to remove and control the algal growth. areas. Cattails,phrag mites or other invasive plants cover 30%of the Remove the plants by hand or by wiping them with pesticide(do not spray)- deep pool and shallow water consult a professional. areas. The temporary inundation zone remains flooded more than 5 Unclog the outlet device immediately. days after a storm event. Deep pool,shallowwater and shallowland areas Determine the source of the problem: soils,hydrology,disease,etc. Remedy Plants are dead,diseased or the problem and replace plants. Provide a one-time fertilizer application to dying. establish the ground cover if necessary. Best professional practices show that pruning is needed to Prune according to best professional practices. maintain optimal plant health. Sediment has accumulated and reduced the depth to 75%of the Search for the source of the sediment and remedy the problem if possible. original design depth of the Remove the sediment and dispose of it in a location where it will not cause deep pools. impacts to streams or the SCM. Sediment has accumulated and Search for the source of the sediment and remedy the problem if possible. Micropool reduced the depth to 75%of the Remove the sediment and dispose of it in a location where it will not cause original design depth. impacts to streams or the SCM. Clogging has occurred. Clean out the outlet device. Dispose of the sediment in a location where it will o9g g not cause impacts to streams or the SCM. The outlet device The outlet device is damaged Repair or replace the outlet device. Stormwater Wetland Maintenance Requirements(Continued) SCM element: Potential problem: Howl will remediate the problem: Erosion or other signs of damage hake occurred at the Repair the damage and improve;the flow dissipation structure. outlet. The receiving water Discharges from the wetland are causing erosion or sedimentation in the receiving Contact the local NCDEQ Regional Office. water. NCDENR FORMS Deed BK 2186 PG 463 - 464 (2) DOC# 10016311 This Document eRecorded : 08/28/2019 03: 59:20 PM Fee: $26. 00 Tax: $950. 00 Franklin County, North Carolina Brandi Smith Davis, Register of Deeds Excise Tax: S950.00 Recording Time, Book and Page Parcel Number: 03 108 5 Mail after recording to Grantee This instrument was prepared by Hamrick & Galanis, PLLC, licensed North Carolina attorneys. Delinquent taxes, if any, to be paid by the closing attorney to the county tax collector upon disbursement of closing proceeds. NORTH CAROLINA GENERAL WARRANTY DEED THIS DEED made this 31st day of July, 2019, by and between GRANTOR GRANTEE Shelter Building Corporation Albermarle Properties, LLC a NC corporation a NC limited liability company Mailing address: 10320 Durant Road Suite 113 Raleigh, NC 27614 Enter in appropriate block for each party: name, address, and, if appropriate, character of entity, e.g, corporation or partnership. The designations Grantor and Grantee as used herein shall include said parties, their heirs, successors, and assigns, and shall include singular, plural, masculine, feminine, or neuter as required by context. WITNESSETH, that the Grantor, for a valuable consideration paid by the Grantee, the receipt of which is hereby acknowledged, has and by these presents does grant, bargain, sell, and convey unto the Grantee, in fee simple, all that certain lot or parcel of land situated in the Township, Franklin County, North Carolina, and more particularly described as follows: BEING all of Lot 2, containing 5.113 acres, as said lot is shown on map recorded in Book of Maps 2002, page 236, Franklin County Registry. All or a portion of the property herein conveyed does not include the primary residence of a Grantor. Submitted electronically by "Hamrick & Galanis , PLLC" in compliance with North Carolina statutes governing recordable documents and the terms of the submitter agreement with the Franklin County Register of Deeds . BK2186 PG 464 DOC# 10016311 The property hereinabove described was acquired by Grantor by instrument recorded Book 1033, Page 236, Franklin County and anent recorded in Book 1277, Page 180, Franklin County Regjstry4 A map showing the above-described property is recorded in Book of Maps 2002, Page 236, Franklin County Registry. TO HAVEAND TO HOLD the aforesaid lot or parcel of land and an privileges and appurtenances thereto, belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee that Grantor is seized of the premier in fee simple, has the right to convey the same in fee simple, that tie is marketable and free and clear of all encumbrances, and that Grantor will want and defend the title against the lawful claims of all persons whomsoever, except for the exceptions hereinafter stated. Title to the propeny hereinabove described is subject to the following exceptions: (1) Easements and other matters as may be shown on recorded map. (2) Public utility easements and rights of way to public roads and streets. (3) Restrictive Covenants recorded in Book 1068, Page 558, Franklin County Regislry, IN WITNESS WHEREOF, the Grantor has caused this instrument to be properly executed the day and year first above Witten. Shelter Building Co .: .i. I_:ration \\4\1, A _J., 44i;\\k\ a, � c \; .7 . ..,.. .,_ . (SEAL) By: lktha l L. Alley, President :.; I. W W.. W. - _ -- — ea._. , .n.,r„r- - -- -� SEAL-ST } :' State of North Carolina, County of e _ } /W `6knr\tk Notary Public of the County are State aforesaid, certify M 4:::. ' . L. Alley, Press ofSh .. : . :: , Carper : i , Gnuat r, personally appeared betive me this day and ac n ledz.: the execution of the foregoing ent. WITNESS my hand : I I official stamp or seal, 0 14-- day i . k 2O1 . Dui• .. 11 , i A IGLESIAS Notary Public Wake Co North Carolina . . I 'i $40 „i. : t ‘.411, My Commission Expires June 91 2021 4 Notary blie ' on Expire s is: . .. .i g,_0A _ , ; NCDENR FORMS Secretary of State E-File Report ,t ! `` LIMITED LIABILITY COMPANY ANNUAL REPORT k= z 1/6/2022 NAME OF LIMITED LIABILITY COMPANY: ALBERMARLE PROPERTIES, LLC Filing Office Use Only SECRETARY OF STATE ID NUMBER: 0678196 STATE OF FORMATION: NC E-Filed Annual Report 0678196 C138 REPORT FOR THE CALENDAR YEAR: 2023 4/170/20237 0:30 SECTION A: REGISTERED AGENT'S INFORMATION (Changes 1. NAME OF REGISTERED AGENT: Pipkin, T. Allen. , Jr. 2. SIGNATURE OF THE NEW REGISTERED AGENT: SIGNATURE CONSTITUTES CONSENT TO THE APPOINTMENT 3. REGISTERED AGENT OFFICE STREET ADDRESS&COUNTY 4. REGISTERED AGENT OFFICE MAILING ADDRESS 10320 Durant Road,Suite 113 10320 Durant Road,Suite 113 Raleigh, NC 27614-6466 Wake County Raleigh, NC 27614-6466 SECTION B: PRINCIPAL OFFICE INFORMATION 1. DESCRIPTION OF NATURE OF BUSINESS: Rental 2. PRINCIPAL OFFICE PHONE NUMBER: (gig) 5j24-1 144 3. PRINCIPAL OFFICE EMAIL: Privacy Redaction 4. PRINCIPAL OFFICE STREET ADDRESS 5. PRINCIPAL OFFICE MAILING ADDRESS 10320 Durant Road,Suite 113 10320 Durant Road,Suite 113 Raleigh, NC 27614-6466 Raleigh, NC 27614-6466 6. Select one of the following if applicable. (Optional see instructions) The company is a veteran-owned small business The company is a service-disabled veteran-owned small business SECTION C: COMPANY OFFICIALS(Enter additional company officials in Section E.) NAME: T. Allen Pipkin Jr. NAME: NAME: TITLE: Managing Member TITLE: TITLE: ADDRESS: ADDRESS: ADDRESS: 10320 Durant Road,Suite 113 Raleigh, NC 27614 SECTION D: CERTIFICATION OF ANNUAL REPORT. Section D must be completed in its entirety by a person/business entity. T.Allen Pipkin Jr., by T.Allen Pipkin Jr. Manager 4/17/2023 SIGNATURE DATE Form must be signed by a Company Official listed under Section C of This form. T.Allen Pipkin Jr., by T.Allen Pipkin Jr. Manager Managing Member Print or Type Name of Company Official Print or Type Title of Company Official This Annual Report has been filed electronically. MAIL TO:Secretary of State, Business Registration Division,Post Office Box 29525,Raleigh,NC 27626-0525 NCDENR FORMS SNAP Tool PDF Project Information Complete this sheet if required by your reviewing authority. Contact them for any questions. Grey boxes/text are optional. SNAPv4.2.0 LOCATION Project Name(optional): Parcel ID(optional): Submission Date(optional): date Nutrient Management Watershed: Neuse menu Local Jurisdiction/Reviewing Agency: Youngsville menu Subwatershed: Neuse Upper menu Project Latitude Coordinates(optional): N Phosphorus Delivery Zone: Neuse- Upper 03020201 menu Project Longitude Coordinates(optional): W Nitrogen Delivery Zone: Neuse- Upper 03020201 menu PROJECT DETAILS Development Land Use Type: Commercial menu Disturbed Area: 222,156 ftz Part of Common Development Plan? no y/n Project Activity: New Development menu Designated Downtown Area? no y/n Project Drains to SA Waters? yes y/n Public Linear Road/Sidewalk Project? no y/n Pre-Project Land Use: fallow/open menu .Project Owner Type: Private menu Project Description(optional): STORM WATER DETAILS (Falls ONLY)Onsite Reduction%Req. % Project Uses LID/Runoff Volume Match? no y/n Existing BUA/Development Onsite? no y/n Local Gov't nutrient req's same as State? N/A y/n .Local Gov't cutoff date for Existing BUA: NA date Project Drains to Regional SCM? no yin Nitrogen Export Rate Target: 3.60 lb/ac/yr Total Nitrogen Offset Credits Needed: 4.9 lb/yr Phosphorus Export Rate Target: lb/ac/yr Total Phosphorus Offset Credits Needed: lb/yr SNAP v4.2.0 Project Area and Offsite Land Cover Characteristics Precipitation Louisburg Station: Copy t' Paste VALUES ONLY for Best Results Click here to scroll down to error messages on this sheet. I I PROJECT AREA LAND COVERS TN EMC (mg/L) TP EMC (mg/L) Pre-Project Area (ft2) Post-Project Area (ft2) Change pre-to-post(ft2) Roof 1.18 0.11 0 42,600 42,600 Roadway 1.64 0.34 0 0 0 Parking/Driveway/Sidewalk 1.42 0.18 0 109,424 109,424 Protected Forest 0.97 0.03 0 0 0 Managed Pervious/Landscaping 2.48 1.07 222,156 56,421 -165,735 Offsite or Existing Roof _ 1.18 0.11 0 0 0 Offsite or Existing Roadway _ 1.64 _ 0.34 _ 0 20,786 20,786 Offsite or Existing Parking/Driveway/Sidem 1.42 0.18 _ 0 0 0 Offsite Protected Forest 0.97 0.03 0 0 0 Offsite Managed Pervious 2.48 1.07 20,786 0 -20,786 CUSTOM LAND COVER 1 0 CUSTOM LAND COVER 2 _ 0 CUSTOM LAND COVER 3 0 LAND TAKEN UP BY SCM 1.18 0.11 13,711 13,711 Total (Regulated & UnReg)Area 242,942.00 242,942.00 Project (Regulated) Area 222,156.00 222,156.00 SCM Characteristics Stormwater Control Measure (SCM) Characteristics Click here to go to Copy Ft Paste VALUES ONLY SCM101's Land Cover Data SNAP v4.2.0 for Best Results Catchment ID 1 1 1 Drains to Drains to I SCM ID 101 102 103 LType of SCM Stormwater Wetland IHydrologic soil group at SCM location A ISCM Description Near Rear of Site ` Design Storm Size(inches/24hrs) 1.00 ■ Percent of Full Size 108% I 1 %Annual Effluent 52% 0% 0% IME %Annual Overflow 13% 0% 0% ■ %Annual ET/Infiltrated 35% 0% 0% ■ Custom %Annual Effluent I. Custom%Annual Overflow imCustom%Annual ET/Infiltrated ISCM Effluent TP EMC (mg/L) 0.15 0.00 0.00 SCM Effluent TN EMC(mg/L) 0.94 0.00 0.00 rCustom Effluent TP EMC 1 Custom Effluent TN EMC ISCM Land Cover TP EMC(mg/L) 0.11 0.00 0.00 ISCM Land Cover TN EMC(mg/L) 1.18 0.00 0.00 ■This SCM Drains to Numbered SCM 0 0 0 Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 101 SCM 102 SCM 103 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 Catchment 6 Error Check-Missing SCM Area: SCM Characteristics Error Check-Min/Max Size: Ilim Error Check-Hydrology: Error Check-Missing SCM Info: Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 101 102 103 Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 101(ft2) SCM 102(ft2) SCM 103(ft2) Roof 42,600 Roadway 0 Parking/Driveway/Sidewalk 109,424 Protected Forest 0 Managed Pervious/Landscaping 32,508 Offsite or Existing Roof 0 Offsite or Existing Roadway 20,786 Offsite or Existing Parking/Driveway/Sidem 0 Offsite Protected Forest 0 Offsite Managed Pervious 0 CUSTOM LAND COVER 1 0 CUSTOM LAND COVER 2 0 CUSTOM LAND COVER 3 0 LAND TAKEN UP BY SCM 13,711 TOTAL AREA DRAINING TO SCM (ft2): 219,029 0 0 CATCHMENT AREA(ft2): 219,029 SCM Characteristics Stormwater Control Meast. Click here to go to Click here to go back to the Click here to review Errors Summary Data top SNAP v4.2.0 _ Catchment ID 2 2 2 II SCM I D I 201 Drains to 202 Drains to 203 Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size (inches/24hrs) LPercent of Full Size %Annual Effluent 0% 0% 0% I. %Annual Overflow 0% 0% 0% I. %Annual ET/Infiltrated . 0% 0% 0% I. Custom%Annual Effluent I. Custom%Annual Overflow I. Custom %Annual ET/Infiltrated IIM SCM Effluent TP EMC(mg/L) 0.00 0.00 0.00 ' SCM Effluent TN EMC (mg/L) Al 0.00 0.00 0.00 I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC (mg/L) 1 0.00 0.00 0.00 ' SCM Land Cover TN EMC(mg/L) l 0.00 0.00 0.00 ' This SCM Drains to Numbered SCM 0 0 0 L Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 201 SCM 202 SCM 203 1 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 Catchment 6 Error Check-Missing SCM Area: SCM Characteristics L _ Error Check-Min/Max Size: Inm Error Check-Hydrology: Error Check-Missing SCM Info: I _ Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 201 202 203 I Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 201 (ft2) SCM 202(ft2) SCM 203 (ft2) , Roof Roadway Parking/Driveway/Sidewalk Protected Forest Managed Pervious/Landscaping Offsite or Existing Roof Offsite or Existing Roadway Offsite or Existing Parking/Driveway/Sidev Offsite Protected Forest Offsite Managed Pervious CUSTOM LAND COVER 1 CUSTOM LAND COVER 2 CUSTOM LAND COVER 3 LAND TAKEN UP BY SCM TOTAL AREA DRAINING TO SCM (ft2): 0 0 0 CATCHMENT AREA(ft2): 0 SCM Characteristics Stormwater Control Measi SNAP v4.2.0 Catchment ID 3 3 3 Drains to Drains to II SCM ID 301 > 302 303 Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size(inches/24hrs) LPercent of Full Size %Annual Effluent 0% 0% 0% %Annual Overflow ■ 0% 0% 0% I. %Annual ET/Infiltrated , 0% 0% 0% I. Custom%Annual Effluent I. Custom%Annual Overflow I. Custom%Annual ET/Infiltrated IIM SCM Effluent TP EMC(mg/L) 0.00 0.00 0.00 ' SCM Effluent TN EMC(mg/L) J 0.00 0.00 0.00 I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC(mg/L) 1 0.00 0.00 0.00 ' SCM Land Cover TN EMC(mg/L) I 0.00 0.00 0.00 ' This SCM Drains to Numbered SCM 0 0 0 L Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 301 SCM 302 SCM 303 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 Catchment 6 Error Check-Missing SCM Area: SCM Characteristics LError Check-Min/Max Size: F.— Error Check-Hydrology: Error Check-Missing SCM Info: I _ Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 301 302 303 I Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 301 (ft2) SCM 302(ft2) SCM 303 (ft2) , Roof Roadway Parking/Driveway/Sidewalk Protected Forest Managed Pervious/Landscaping Offsite or Existing Roof Offsite or Existing Roadway Offsite or Existing Parking/Driveway/Sidev Offsite Protected Forest Offsite Managed Pervious CUSTOM LAND COVER 1 CUSTOM LAND COVER 2 CUSTOM LAND COVER 3 LAND TAKEN UP BY SCM TOTAL AREA DRAINING TO SCM (ft2): 0 0 0 CATCHMENT AREA(ft2): 0 SCM Characteristics Stormwater Control Meast. SNAP v4.2.0 Catchment ID 4 4 4 Drains to Drains to 1� SCM ID 401 402 403 Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size (inches/24hrs) LPercent of Full Size IMI %Annual Effluent 0% 0% 0% I. %Annual Overflow 0% 0% 0% I. %Annual ET/Infiltrated . 0% 0% 0% I. Custom%Annual Effluent I. Custom%Annual Overflow I. Custom %Annual ET/Infiltrated IIM SCM Effluent TP EMC(mg/L) 0.00 0.00 0.00 ' SCM Effluent TN EMC (mg/L) Al 0.00 0.00 0.00 I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC (mg/L) 1 0.00 0.00 0.00 ' SCM Land Cover TN EMC (mg/L) I 0.00 0.00 0.00 ' This SCM Drains to Numbered SCM 0 0 0 L Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 401 SCM 402 SCM 403 1 Catchment 1 Catchment 2 Catchment 3 Catchment 4 . ■ ■ Catchment 5 Catchment 6 Error Check-Missing SCM Area: SCM Characteristics LError Check-Min/Max Size: F.— Error Check-Hydrology: Error Check-Missing SCM Info: I _ Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 401 402 403 I Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 401 (ft2) SCM 402(ft2) SCM 403 (ft2) , Roof Roadway Parking/Driveway/Sidewalk Protected Forest Managed Pervious/Landscaping Offsite or Existing Roof Offsite or Existing Roadway Offsite or Existing Parking/Driveway/Sidev Offsite Protected Forest Offsite Managed Pervious CUSTOM LAND COVER 1 CUSTOM LAND COVER 2 CUSTOM LAND COVER 3 LAND TAKEN UP BY SCM TOTAL AREA DRAINING TO SCM (ft2): 0 0 0 CATCHMENT AREA(ft2): 0 SCM Characteristics Stormwater Control Meast. SNAP v4.2.0 Catchment ID 5 5 5 Drains to Drains to 1� SCM ID 501 502 -1> 503 Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size (inches/24hrs) LPercent of Full Size %Annual Effluent 0% 0% 0% I. %Annual Overflow 0% 0% 0% I. %Annual ET/Infiltrated . 0% 0% 0% I. Custom%Annual Effluent I. Custom%Annual Overflow I. Custom %Annual ET/Infiltrated IIM SCM Effluent TP EMC(mg/L) 0.00 0.00 0.00 ' SCM Effluent TN EMC (mg/L) Al 0.00 0.00 0.00 I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC (mg/L) 1 0.00 0.00 0.00 ' SCM Land Cover TN EMC (mg/L) I 0.00 0.00 0.00 ' This SCM Drains to Numbered SCM 0 0 0 L Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 501 SCM 502 SCM 503 1 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 ■ ■ Catchment 6 Error Check-Missing SCM Area: SCM Characteristics LError Check-Min/Max Size: F.— Error Check-Hydrology: Error Check-Missing SCM Info: I _ Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 501 502 503 I Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 501 (ft2) SCM 502(ft2) SCM 503 (ft2) , Roof Roadway Parking/Driveway/Sidewalk Protected Forest Managed Pervious/Landscaping Offsite or Existing Roof Offsite or Existing Roadway Offsite or Existing Parking/Driveway/Sidev Offsite Protected Forest Offsite Managed Pervious CUSTOM LAND COVER 1 CUSTOM LAND COVER 2 CUSTOM LAND COVER 3 LAND TAKEN UP BY SCM TOTAL AREA DRAINING TO SCM (ft2): 0 0 0 CATCHMENT AREA(ft2): 0 SCM Characteristics Stormwater Control Meast. SNAP v4.2.0 Catchment ID 6 6 6 Drains to Drains to 1� SCM ID 601 602 > 603 Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size (inches/24hrs) LPercent of Full SizeL____ I in_ %Annual Effluent 0% 0% 0% I. %Annual Overflow 0% 0% 0% I. %Annual ET/Infiltrated 0% 0% 0% I. Custom%Annual Effluent I. Custom%Annual Overflow ■ I. Custom %Annual ET/Infiltrated - IIM SCM Effluent TP EMC(mg/L) 0.00 0.00 0.00 ' SCM Effluent TN EMC (mg/L) Al 0.00 0.00 0.00 I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC (mg/L) 1 0.00 0.00 0.00 ' SCM Land Cover TN EMC (mg/L) I 0.00 0.00 0.00 ' This SCM Drains to Numbered SCM 0 0 0 L Catchment Routing Catchments Draining to Catchments Draining to Catchments Draining to SCM 601 SCM 602 SCM 603 1 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 Catchment 6Ilimm MI Error Check-Missing SCM Area: SCM Characteristics L _ Error Check-Min/Max Size: Inm Error Check-Hydrology: Error Check-Missing SCM Info: I _ Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: SCM ID: 601 602 603 I Area Draining Directly to Area Draining Directly to Area Draining Directly to SCM Drainage Area Land Covers SCM 601 (ft2) SCM 602(ft2) SCM 603 (ft2) , Roof Roadway Parking/Driveway/Sidewalk Protected Forest Managed Pervious/Landscaping Offsite or Existing Roof Offsite or Existing Roadway Offsite or Existing Parking/Driveway/Side Offsite Protected Forest Offsite Managed Pervious CUSTOM LAND COVER 1 CUSTOM LAND COVER 2 CUSTOM LAND COVER 3 LAND TAKEN UP BY SCM TOTAL AREA DRAINING TO SCM (ft2): 0 0 0 CATCHMENT AREA(ft2): 0 SCM Characteristics Stormwater Control Meast. SNAP v4.2.0 Catchment ID ii SCM ID Type of SCM ' Hydrologic soil group at SCM location ' SCM Description ' Design Storm Size (inches/24hrs) LPercent of Full Size %Annual Effluent I. %Annual Overflow I. %Annual ET/Infiltrated I. Custom%Annual Effluent I. Custom%Annual Overflow I. Custom %Annual ET/Infiltrated IIM SCM Effluent TP EMC(mg/L) ' SCM Effluent TN EMC (mg/L) I. Custom Effluent TP EMC . Custom Effluent TN EMC ' SCM Land Cover TP EMC (mg/L) ' SCM Land Cover TN EMC (mg/L) ' This SCM Drains to Numbered SCM Catchment Routing 1 Catchment 1 Catchment 2 Catchment 3 Catchment 4 Catchment 5 Catchment 6 Error Check-Missing SCM Area: SCM Characteristics L _ Error Check-Min/Max Size: Ism Error Check-Hydrology: Error Check-Missing SCM Info: Error Check-Drainage Data w/o SCM: Error Checks-SCM Type: sCM ID: I Allowable Total Land Use Total Land Use Area Post-Project Untreated SCM Drainage Area Land Covers z Area to be Treated Based z Treated By All SCMs (ft ) Z Land Area (ft2) on Post-Project Areas(ft2) •— Roof 42,600 42,600 0 Roadway 0 0 0 Parking/Driveway/Sidewalk 109,424 109,424 0 Protected Forest 7 0 0 0 Managed Pervious/Landscaping 32,508 56,421 23,913 Offsite or Existing Roof 0 0 0 Offsite or Existing Roadway 20,786 20,786 0 Offsite or Existing Parking/Driveway/Sidevk 0 0 0 Offsite Protected Forest 0 0 0 Offsite Managed Pervious 0 0 0 CUSTOM LAND COVER 1 0 0 0 CUSTOM LAND COVER 2 0 0 0 CUSTOM LAND COVER 3 0 0 0 LAND TAKEN UP BY SCM 13,711 13,711 0 TOTAL AREA DRAINING TO SCM (ft2): 219,029 242,942 23,913 CATCHMENT AREA(ft2): Nutrient Export Summary Landcover Et SCM Data Review Errors/Advisories Avg Annual precip (in) = 45.63 Total(Regulated+ 242,942 Unregulated)Area (ft2)= Project(Regulated) 222,156 Area (ft2)= Net BUA(Project Area 152,024 Net BUA indicates new development or expansion. BUA only ft2)= Custom Landcovers are present: no Total Nitrogen Export Target Scaled to Project Area (Ib/yr): 18.36 , Total Area Total Area Project Area Project Area (Onsite+ Post-Project Post-Project Nutrient Export Summary (Onsite Only) Offsite) before before Pre-Project Pre-Project Treatment Treatment Area(All Landcover Types)(acres) _ 5.5772 5.1000 5.5772 5.1000 Percent Built-Upon Area (BUA)(%) _ 0% 0% 71% 63% Built-Upon Area (BUA)(sqft) _ 0 0 172,810 139,017 Annual Runoff Volume(ft3/yr) 41,570 38,014 618,406 550,828 Annual Runoff%Change \ 1388% 1349% Total Runoff Change(cuft/yr) 576,835 512,814 Total Nitrogen EMC(mg/L) 2.48 2.48 _ 1.39 1.36 Total Nitrogen Load Leaving Site(Ib/yr) 6.44 5.89 53.62 [ 46.70 Total Nitrogen Loading Rate(1b/ac/yr) 1.15 1.15 1 9.61 9.16 Total Nitrogen Change Pre-to-Post , �� N 733% 693% Total Nitrogen Change (Ib/yr) Pre-to-Post 1 �� 47.18 + 40.81 Total Phosphorus EMC(mg/L) 1.07 1.07 0.19 0.17 Total Phosphorus Load Leaving Site(Ib/yr) 2.78 2.54 7.35 5.92 _ Total Phosphorus Loading Rate(Ib/ac/yr) 0.50 0.50 1.32 _ 1.16 Total Phosphorus Change Pre-to-Post �� 165% 133% Total Phosphorus Change(Ib/yr)Pre-to-Post \ \ 4.57 3.38 SCM/Catchment Summary , SCM ID and Type Volume TN Reduction TP Reduction TN Out I TP Out Reduction (%) (%) (%) (Ibs/ac/yr) I (Ibs/ac/yr) Catchment 1 34.88% _ 51.70% _ 44.79% _ 5.09 _ 0.78 101:Stormwater Wetland 34.88% 51.70% _ 44.79% 5.09 _ 0.78 102:NA 0.00% 0.00% 0.00% 0.00 0.00 103:NA 0.00% 0.00% 0.00% 0.00 0.00 Catchment 2 0.00% 0.00% 0.00% 0.00 0.00 201:NA 0.00% 0.00% 0.00% 0.00 0.00 202:NA 0.00% 0.00% 0.00% 0.00 0.00 203:NA 0.00% 0.00% 0.00% 0.00 0.00 Catchment 3 0.00% 0.00% 0.00% 0.00 0.00 301:NA 0.00% 0.00% 0.00% 0.00 0.00 302:NA 0.00% 0.00% 0.00% 0.00 0.00 303:NA 0.00% 0.00% 0.00% 0.00 0.00 Catchment 4 0.00% 0.00% 0.00% 0.00 0.00 401:NA 0.00% 0.00% 0.00% 0.00 0.00 402:NA 0.00% _ 0.00% _ 0.00% _ 0.00 _ 0.00 403:NA 0.00% 0.00% 0.00% 0.00 0.00 Catchment 5 0.00% 0.00% 0.00% 0.00 0.00 501:NA 0.00% 0.00% 0.00% 0.00 0.00 502:NA 0.00% _ 0.00% _ 0.00% _ 0.00 _ 0.00 503:NA 0.00% 0.00% 0.00% 0.00 0.00 Catchment 6 0.00% 0.00% 0.00% 0.00 0.00 601:NA 0.00% _ 0.00% 0.00% _ 0.00 0.00 602:NA 0.00% 0.00% 0.00% 0.00 0.00 603:NA 0.00% 0.00% , 0.00% 0.00 0.00 SNAP v4.2.0 Errors/Advisories r SCM Area (ft2) = 13,711 SCM Treated Area (ft2) = 219,029 Catchment Routing: No errors Treating Runoff from Offsite Area or Existing BUA drains to an SCM. See yes Users' Manual for instructions to determine nutrient Existing BUA or Offsite: reduction needs and reduction provided by SCMs. Disturbed Area (ft2) = 222,156 Total Phosphorus Export Target o.00 Scaled to Project Area (Ib/yr): r i Total Area Project Area Total Area Project Area Total Area Project Area Post-Project Post-Project Post-Project Post-Project Post-Project Post-Project after after SCM-Treated SCM-Treated Untreated Untreated Treatment Treatment Area Only Area Only Areas Areas 5.5772 5.1000 5.0282 4.5510 0.5490 0.5490 71% 63% 79% 77% 0% 0% 172,810 139,017 172,810 152,024 - 0 _ 0 _ 404,157 360,147 400,065 7 356,056 4,092 4,092 872% 847% NN N , 362,586 322,134 N�\00`\000000 1.04 i 1.04 1.03 1.02 2.48 2.48 26.22 23.27 _ 25.59 I 22.64 0.63 0.63 4.70 4.56 5.09 4.97 1.15 1.15 295% \ 19.790 i 17 38Nk ..\\� 0.17 0.16 4.18 3.67 0.75 0.72 0 51% 44% N 1.40 1.13 N N\ F__ Falls Lake ONLY: Onsite Reduction Compliance Check Nitrogen Phosphorus Onsite% Reduction Requirement Export Target Scaled to Area (Ib/yr) _ 18.36 Export Load Post-Project Before Treatment 46.70 5.92 Total Reduction Need (Ib/yr) _ Onsite Reduction Need (Ib/yr) _ Onsite Export Target(Ib/yr) Project Area Post-Project After Treatment 23.27 3.67 Nutrient Management Strategy Watershed - Nutrient Offset Credit Reporting Form SNAP v4.2.0 Please complete and submit the following information to the local government permitting your development project to characterize it and assess the need to purchase nutrient offset credits. Contact and rule implementation information can be found online at: httpi/deq.nc.gov/about/divisions/water-resources/planning/non point-source-management/nutrient-offset-information PROJECT INFORMATION Applicant Name: Allen Pipkin Project Name: Allen Pipkin Youngsville SCM Conversion Project Address: 70 Mosswood Blvd. Youngsville,NC Date: (mm/dd/yyyy) 11/19/2023 Development Land Use Type: Commercial County: Franklin Project Activity Type: New Development Project Area(sgft): 222,156 Project Latitude: 36.033437 Post-Project Built-Upon Area%: 62.58% I Project Longitude: -78.500374 WATERSHED INFORMATION Nutrient Management Watershed: Neuse N Target Export Rate(Ib/ac/yr): 3.60 Subwatershed:i Neuse-Upper P Target Export Rate(Ib/ac/yr): 0.00 Nitrogen Delivery Zone: Neuse-Upper 03020201 Nitrogen Delivery Factor: 100% Phosphorus Delivery Zone: Neuse-Upper 03020201 Phosphorus Delivery Factor: 100% PERMANENT NUTRIENT OFFSET REQUEST Post-Project Nitrogen Calculations -Projects with No Offsite or Built-Upon Area (A) (B) (C) (D) (F) (G) (Where Applicable) TN Export TN Remaining TN Permanent Additional Total TN TN Untreated TN Treated TN Delivery Offsets Permanent Load(Ib/yr) Target Load Load(Ib/yr) Reduction Factor(%) Required Local Gov't Offsets to (Ib/yr) Need(Ib/yr) (Ib/yr) Offsets(Ib/yr) Buy(Ib/yr) 46.7 18.4 23.3 4.9 100.0% 4.9 I 4.9 Post-Project Phosphorus Calculations-Projects with No Offsite or Built-Upon Area (A) (B) (C) (D) (F) (G) (Where Applicable) • TP Export TP Remaining TP Permanent Additional Total TP TP Untreated TP Treated TP Delivery Offsets Permanent Load(Ib/yr) Target Load Load(lb/yr) Reduction Factor(%) Required Local Gov't Offsets to (Ib/yr) Need(lb/yr) (Ib/yr) Offsets(Ib/yr) Buy(Ib/yr) I I 0.0 I LOCAL GOVERNMENT AUTHORIZATION Local Government Name:I Staff Name: Phone:) Staff Email: Date: Local Government Authorizing Signature: Maps Pre-Development Runoff Map I 1NOTE: BEFORE YOU DIG, o I I NO WETLAND DATA WAS PROVIDED CALL � BY THE OWNER OR ORIGINAL SITE � I DESIGNER SHOWING THERE ARE 21 I ANY WETLANDS ONSITE. THE SITE o� LOT,D `WAS DESIGNED BY TAYLOR BLAKELY', aN 111 OUNGSNLLE COMMERCE CENTER / GATEKEEPER INVESTMENTS.LLCIikk PIN 1843-60-9J66 p \ \ I uNDEv>_LOPeo NORTH CAROLINA a \ I ONE CALL CENTER \ I ;41� ADJOINERS WALL www.ncocc.org EXIST.TREELIN[ r / O \ RETAINING WALL V A �/ ,14G' \ \ \::s\ t AIWNGSMLLE MMERCE G SELF i v� v `\-----.....,,,,,,_ — �MNEPK;N �J W w I N. \ \ V 4 I N. A A - _ � A��V D 0g �� \ \ \ 1 T \ \-\ \ �\ / �_� \ \�,I \q, I - - \ \ \ \ \ - ADJOINERS WALL / �'" \ RETAINING WALL / // / / I I / / / / Was DRAIWS TO \•.I• I / / I / / / / / '/ / / I N RICI�LANLI CREEK O I I / I / / / / / / / / �� / / N 2�. 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I PIN 1843-71-9120 8 / / // / ` =i.IC� O EXISTING COMMERCIAL BUILDING V I / / S 12'35'O6"W �k / / / / !•.NI �� I I OT}A''1 / /TOUNGBVILLE COMgcRCE CENTER / / LONEP RE'AS3S�p1-936.LLC I so 18 PCP 010% EXISTING COMIAERCIAL6BUILDING / / / �• I / / I I I I 14 AN S:WER MH I / I Ng 0P:4 0.13' / dI / I v:4 .9' DISTURBED AREA I/I ' I 5.11 ACRES ."` 11 1•, I I , \ I °o`oF /'-; Z.2lQQ s�.• = ISEAL a I 19843 I Post Dev. Runoff Map e"cii:s.k 1 ��,F1AE4 �, ; ,1+/-5.1 Ac. Drainage Area i +/-3.49 Ac. Impervious PRE DEV. 1 I SITE CONDITIONS J II ` REVISIONS NAD_83 NC_GRI SCALE: 1"=40' FILE NO. 2023-028 0 40 60 70 80 90 100 HORS SCALE: 1'=40' VERT.SCALE: NONE I ` CE-02 L But store up for yourselves treasures In Heaven.where neither moth nor rust destroys...Matthew 6:20