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HomeMy WebLinkAboutSW3170603 - Larkin Subidivision Phase 6B (4)Storm Drain/Erosion Control Project Report for Larkin Golf Club Ph. 613 Iredell County, North Carolina Date: May 19, 2017 Client: Dependable Development, Inc. 2649 Brekonridge Centre Drive, Suite 104 Monroe, North Carolina 28110 Engineer: QR. Joe Harris & Associates. Inc. Engineering • Surveying • Pluuig • Management 127 BEV CASEY DRIVE, SUITE 101 FORT MILL, SC 29708 ,0011111111/"1,,' ``,1111111!!////',, \•��'tN CARof-',,, NO CARO, O • pF ESS �y �DFESS/p�9 : � �y� s SEAL = _ :W SEAL xe - e C-4168 �: ,S? S 1"PA 036836 , • do.Q� ➢A KL.M �''•/// 1 1 111111`,` r '! �y �If1111111111 - Report - Initial Submittal to City of Statesville & Iredell County Larkin Golf Club Ph. 6B Storm Drain/Erosion Control Project Report SECTION I: Project Summary • Project Summary SECTION II: Project Information Vicinity Map • Soil Classification Map • USGS Topographic Map FEMA Map • Rainfall Data SECTION III: Storm Drain Calculations • Storm System 100 o Plan View o Pipe Design— 10 -year Rational Method o Inlet Spread— 1 -year Storm Event o Rip -Rap Apron Calculation Storm System 200 o Plan View o Pipe Design— 10 -year Rational Method o Inlet Spread — 1 -year Storm Event o Rip -Rap Apron Calculation • Storm System 300 o Plan View o Pipe Design— 10 -year Rational Method o Inlet Spread — 1 -year Storm Event o Rip -Rap Apron Calculation • Storm System 400 o Plan View o Pipe Design— 10 -year Rational Method o Inlet Spread — 1 -year Storm Event o Rip -Rap Apron Calculation Storm System 500 o Plan View o Pipe Design — 10 -year Rational Method o Inlet Spread — i -year Storm Event o Rip -Rap Apron Calculation Table of Contents Larkin Golf Club Ph. 6B Storm Drain/Erosion Control Project Report • Storm System 600 o Plan View o Pipe Design — 10 -year Rational Method o Inlet Spread—I -year Storm Event o Rip -Rap Apron Calculation SECTION IV: Erosion & Sediment Control • Initial Phase Erosion Control Basins Calculations • Final Phase Erosion Control Basin Calculation SECTION V: Pre & Post Analysis • Pre & Post -Development Summary • Pre & Post -Development Curve Numbers • Pre & Post -Development TC Values • 2, 10, 50, 100 -year Storm Event Hydrograph Analysis SECTION VI: SNIP Analysis • BMP Curve Number Calculations • Nater Quality Calculations • Hydrograph Analysis SECTION VII: Appendix A • Pre -Development Drainage Area Map • Post -Development Drainage Area Map • Storm Drainage Area Map • BMP Drainage Area Maps (Included in Construction Plans) Table of Contents Larkin Colf Club Ph. 6B Storm Drain/Erosion Control Project Report Section 1: Project Summary Project Summary Larkin Golf Course Ph. 6B Storm Drain/Erosion Control Project Report Project Summary A. PROJECT DESCRIPTION Larkin Golf Course Subdivision is a Planned Development located west of U.S. Interstate 77 off Amity Hill Road in Iredell County, North Carolina. This phase of the project (Phase 613), will encompass approximately 35.32 acres, consisting of 92 single family residential lots. This property consists of a combination of Tax Parcel Numbers; 4743621050, 474518148 & 4743530075 and is located under Deed Book 2390, Pages 5-6 &Deed Book 2448, Pages 2052 - 2056. The predominant soil types within the proposed limits of construction are Cecil sandy clay loam and Pacolet sandy loam; all of which belong to the Soil Hydraulic Group B (as taken from the Web Soil Survey 2.1— National Cooperative Soil Survey by NRCS). The disturbance for the site will encompass roughly 35 acres. The site will encounter two phases of erosion and sediment control management, beginning with an initial phase. Initial clearing, grading and infrastructure placement will occur during this phase. The last phase (stabilization or final phase) will include paving and final seeding/stabilization of the site. Given the amount of grading work that will take place, the majority of the erosion control is best managed through the use of temporary sediment basins and skimmer basin; with temporary and permanent diversion ditches to help channel flow to the aforementioned basins. Accessory features such as inlet protection, silt fence, and concentration outlets will also be used to assist with bypass areas and smaller areas of concentrated flow. Five proposed sediment basins (#100-#400 & #600) and one temporary skimmer basin (Basin #500) have been specified for the initial phase erosion control. Sediment Basins #100-#400 will remain active during E the final phase of erosion control and sediment management. All storm drainage systems will be installed per plans with no stubbed pipes or temporary pipes. B. STORMWATER MANAGEMENT Pre and Post development flows were analyzed to determine if storm water detention would be necessary for the higher level storm events. The pre -development analysis point was conducted along the stream which runs west/east of the property for Area #1. The Post development analysis was analyzed at the same location and includes a bypass area as well as BMP Wet Ponds #'s 100, 200, 300 & 400. Pre and Post Development runoff summaries can be found in Section V of this project report and they show that we meet the pre -development runoff rates for the 2 -year, 10 -year, 50 -year and 100 -year storm events. C. WATER QUALITY There are 4 main drainage areas that make up the combined flow from Larkin Golf Course Ph. 6B. One, being located at the North West part of the site depositing collected runoff into BMP #100, Second area being located at the South West part of the site and deposited into BMP #200, the third being located at the middle North part and deposited into BMP #300 and the fourth and final area located at the North East and placed into BMP #400. I Larkin Golf Course Ph. 6B Storm Drain/Erosion Control Project Report Project Summary All four of these drainage areas have been designed to collect the bulk of the sites impervious runoff and treat it before releasing downstream. The BMP water quality design can be found in Section VI of the report booklet. D. STORM DRAINAGE SYSTEM An analysis of all receiving storm drainage systems within the Larkin Golf Course Subdivision Ph. 6B was conducted to verify that the drainage systems would not surcharge or be beyond capacity due to the drainage areas and the storm water runoff from the site for the 10 -year, 24-hour rainfall intensity. All of the street catch basins have been evaluated for inlet spread using the 1 -year, 24-hour rainfall intensity, and all yard inlets have been evaluated for sump capacity using the 25 -year, 24-hour rainfall intensity. For the analysis of the infrastructure, RJH utilized field-run/Aerial topography to evaluate each of the storm drain systems. Storm systems #'s 100, 200, 400, & 600 are new systems within the limits of the Larkin Golf Course Subdivision Phase 6B. Storm systems #'s 300 and 500 are existing systems from Phases 4 and 6A and have been carried through the site and parts added too system within the limits of the Larkin Golf Course Subdivision Phase 6B. This storm system functions within the design parameters set forth by the City of Statesville, Iredell County and NCDOT for both pipe design and inlet spread capacity. The system has been fitted with a properly sized riprap apron at the outflow for energy dissipation. All proposed storm drain profiles have been designed to limit the hydraulic gradient line (HGL) to no closer than 0.5' below the weir/rim elevation. End Report ! Larkin Colf Club Ph. 6B Storm Drain/Erosion Control Project Report Section Z: Project Information Overall Project Information VICINITY MAP N.T.S. rn /1� 75317 %� oaf �• /l,/ -6 ol ~SITE •,1^""'q. I ., = St� � -, ��,, r'M`77ifil i$if1'i :3 „ - ,,i ,, Lam^': , V' •S ...4;a1._,�' '; ;-�.. �,i • •-•?�, �, ,, �'� " F `?�, �-.:-a`'`, ,,,rte - _ �ieit`�' BAR ^'. �•�• t�i4l� J�' . - - - _ " , -tri, , VICINITY MAP N.T.S. r 3 Hydrologic Soil Group—Iredell County, North Carolina a (2506-Laknn Phase 6i3) � m 511800 511900 5120M 512100 5=0 51mm 512400 35' 457*N .i ~ - / � ij7* ;'�• y .f's � .may "''i`"T;�;"� H �� Ij 7: ] - �-f- 4 '"�l'1,'•.a: 9.y _'sly..` Y � •� - -i/ ice. 'w3 f -"� _ 1_�c`„ :.�,: Lty If ice'. , t•> � e •F t \• ?�,1, l 'Yda y �0``- 4' •� �' • ` It`' � � ^'�, VAN i r5oil►Map m2iFyrlaot<ilie v'�P1cl at`bls .K s . _ - Win.-� ..� ,�. T• - _f sr ._ `y �. ,'; : � ..� ..374 3aN .'�.®.I__ '�`""'®" I I35°.43V 511x0 511900 5T2000 512100 5122)0 51ZW 512400 3 3 N Map Smle: 14,930 ff pnnted on A pertrat (&F X ti') gleet Meters S N 0 50 100 200 300 � Few 0 200 aao 800 t20o Map profeclJon: Web Mermtor Comer won'irons: VIGS84 Edge is UTh9 Zone 17N ME84 USDA Natural Resources Web Sod Survey 4/212017 w Conservation Service National Cooperative Sod Survey Page 1 of 4 Hydrologic Soil Group—Iredell County, North Carolina (2506 -Laken Phase 6B) MAP LEGEND Area of Interest (AOI) 0 Area of Interest (AOI) Soils CID Soil Rating Polygons 0 A Q AID Q B Q BID 0 C Q CID Q D 0 Not rated or not avallabie Soil Rating Lines ,., A Rads AID ry e US Routes BID ry C t J CID Local Roads D r Not rated or not available Soil Rating Points I' A El AID IS B IS BID MAP INFORMATION © C The soil surveys that comprise your AOI were mapped at 1 12,000. CID ® D Warning. Soil Map may not be valid at this scale. 0 Not rated or not available Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil Water Features line placement The maps do not show the small areas of Streams and Canals contrasting soils that could have been shown at a more detailed scale. Transportation Rads Please rely on the bar scale on each map sheet for map Interstate Highways measurements. US Routes Source of Map: Natural Resources Conservation Service Web Soil Survey URL: Major Roads Coordinate System: Web Mercator (EPSG 3857) Local Roads Maps from the Web Soil Survey are based on the Web Mercator projection, which preserves direction and shape but distorts Background distance and area. A projection that preserves area, such as the Aerial Photography Albers equal-area conic projection, should be used if more accurate calculations of distance or area are required. This product is generated from the USDA-NRCS certified data as of the version date(s) listed below Soil Survey Area: Iredell County, North Carolina Survey Area Data: Version 21, Sep 15, 2015 Soil map units are labeled (as space allows) for map scales 1.50,000 or larger Date(s) aerial images were photographed- Feb 11, 2011—Mar 2, 2011 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 USDA Natural Resources Web Soil Survey 4/2/2017 Conservation Service National Cooperative Soil Survey Page 2 of 4 Hydrologic Soil Group—Iredell County, North Carolina Hydrologic Soil Group 2506-Lakrin Phase 6B Hydrologic Soil Group—Summary by Map Unit— lredell County, North Carolina (NC097) Map unit symbol Map unit,name Rating Acres in AOI ,Percpnt of AOI CeB2 Cecil sandy clay loam, 2 B 2.8 8.0% to 6 percent slopes, moderately eroded CeC2 Cecil sandy clay loam, 6 B 3.3 9.2% to 10 percent slopes, moderately eroded ChA Chewacla loam, 0 to 2 BID 3.2 9.0% percent slopes, frequently Flooded DrB Dorian fine sandy loam, C 07 2.0% 0 to 6 percent slopes, rarely flooded PaF Pacolet sandy loam, 25 ; B ( 0.9 2.6% to 45 percent slopes PcB2 Pacolet sandy clay I B 0.0 0.0% loam, 2 to 6 percent slopes, moderately eroded PcC2 Pacclet sandy clay 8 0.0 0.0% loam, 6 to 10 percent slopes, moderately eroded PcD2 Pacolet sandy clay B 72 20.4% loam, 10 to 15 percent slopes, moderately eroded PcE2 Pacolet sandy clay B 1.5 4.3% loam, 15 to 25 percent slopes, moderately eroded PrF Poindexter -Rowan C 1.5 4.1% complex, 25 to 45 percent slopes RiD Rion sandy loam, 8 to C 4.1 11.6% 15 percent slopes RiF Rion sandy loam, 15 to C 8,3 236% 45 percent slopes i RtA Riverview and Toccoa B 1.8 5.0% soils, 0 to 2 percent slopes, occasionally flooded W Water 0.1 0.2% Totals for Area of Interest 35.4 100.0% USDA Natural Resources Web Sod Survey 41212017 +� Conservation Service National Cooperative Soil Survey Page 3 of 4 ; Hydrologic Soil Group—Iredell County, North Carolina Description 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 (AID, BID, and CID). 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. 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 (AID, BID, or CID), 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. Rating Options Aggregation Method: Dominant Condition Component Percent Cutoff. 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USES POINT PRECIPITATION FREQUENCY ESTIMATES GM Bonnin 0 Martin B Lin T Parriock, 141 YekM and D Riley NOAH, National Weamer Ser rice Silver Sprang, MWIL-md PF tabular i PF graphical i Maos & aerials PF tabular PDS -based point precipitation frequency estimates with 90% confidence intervals (in inches)1 Average recurrence interval (years) Duration �1 0� 10 25 50 ( 100 200 500 1000 5-mIn 0 377F (0 347-0409)1 0-. 4-4 -5-1F (0 412-0 486) 0.523 1 (0 481-0 569) 0.578 (0 531-0.629 0.643 (0 586-0 699, ++ 0.689 t(0 624-O'r49);j(0.657-0 fl.731 79 0.770 (0 686-0 842) 0 815 0 717-0 697) 0.848 (0 737-0.938 F -6 -mi -T-0-7-12-1 0.837 0.925 1-03 1-10 1.16 1.22 1.29 1.34 10 -intra (0555-0653)1(0.658-0 777) (0770-0911) (0.848-1.01)11(0934-1.11) (0994-1.19) (105-127) 11 (109-134) Ii (113-142) 1 (116-1.48) 0.896 1.06 1.17 1.30 1.39 -1.4-7--T--1.5-4-] 1.62 1.68 15 -min -0.752 (0 694-0 817) (0 827-0 976) (0 974-1 15) (1.07-1 271 (1 18-1 41) (126-1.51) (1.32-1 60) (137-1.69) (1 43-1 79) (1 46-1 85) 1.03 7 F 1.24 T -51--j 1.701.93 2 09 2.25 2.40 2.58 2.71 30 -min (0 951-1.12) 1 (1 14-1 35) 1 (1 39-1 64) 11 (1.56-1 a4) (1.75-2 09) 11 (1.90-2 28) 11 (202-2.45) 11 (2 14-2 62) 11 (2 27-2 84) 1 (2 36-3 00) F -71-29-7r-71. 55 -1-9-3---IF--2-21---IF--2-5-6--I2.83 3.10 3.36 3.71 3.96 60 -intra (1 19-140) 1 (1 43-1 69) 1 (1 78-2 10) 1 (2.03-2.40) 11 (234-278) 11 (257-3 08) (2 79-3 381 (3 00-3 68) 1 (3 26-4 08) 11 (3 44-4 38) 1.49 1.81 2.26 2.61 3.06 3.42 3.77 4.12 460 1 497 2 -hr (1 37-1 62) 11 (166-1 971 11 (2 08-2 46) (2.38-2 84) 11 (2.79-3 33) (3 08-3 72) (3 37-4 121 ft (3 66-4 52) 1 j (4 02-5 08) 1 (4 28-5 51) 1.60 1.93 2.43 281 3.33 3.74 4.15 4.58 5.17 5.63 3 -hr (1 47-1 74) 1 (1 78-2 11) 11 (2 23-2 65) (2 57-31}6) 11 (3 03-3 63) (3 38-4 08) 1 (3 72-4.54) 11 (4.05-5 03) 1 (4 49-5 70) 11 (4 83-6.25) 1.96 2.37 2.97 --3.4-4--IF-4.08 4.60 5.12 5.66 6.41 6.99 6 -hr (1 82-213) 1 (2 19-2 58) 1 (2 74-3 23) 11 (317-3.74) (3.73-4 43) (417-4 99) 1 (4 60-5 57) 11 (5 02-6 17) 1 (601-768) 2.36 2.85 3.57 4.15 4.94 5S8 624 6.92 7.86 8.61 12 -hr (218-256) (264-31o) (3 30-3 89) (382-450) (4 52-535) 11 (505-603) (SW -674) 1 (6 13-7.48) 1 (6 86-8 51) 1 (740-934) 2.82 3.42 432 5.03 6.00 6.78 7.58 8.40 9.53 10.4 24 -hr (2.62-3 OS) (317-3 70) (4 CO -4 68) (4 64-5.44) (5 52-6 49) (6.22-7.33) (6592-8201 (765-9.10)11(863-103) (939-113) 3. 4. 5.02 5.80 6.87 7.71 8.57 9.44 10.6 11.6 2 -day (3 08-3-3 58 3 72-4-4 34) 11 (4.65-543) 5 37-6 27) 11 (6.33-7-42) 1 (786-9 26) 1 (8 63-10 2) 9 68-11 5) 11 (10 5-12.6) 3.53 4.25 5.2-97F--S.-10---1F--7.-20---j 8.07 8.95 9.85 11.1 12.0 3 day (3 28-3 80) 1 (3 96-4 59) 1 (4 92-5.71) (5 66-6.58) (6 55-7.77) 1 (7.44-8.703) 0 (823-9.666) 11 (9 03-10 6) 1 (101-12.0) 11 (10 9-13 0) 3.74 4.49 5.56 6.40 7.53 8.4210.3 11.5 12.5 4 -day (3 49-4 02) (4 20-4 84) (5 18-5 99) (5 95-6.89) (6 97-811) (7.78-9 08) (8 59-10.1) (9 42-11 1) (10.5-12 5) (114-1351 4.31 5.15 6.27 7.t4 8.31 9.23 10.711.1 12.3 13.3 7 day (4 05-4 61) (4 84-5 51) (5 88-6 71) (6 69-7.64) (7-75-8.891 (8.59-9.87) (942-10.9)11F(10.3-11 9) (11 4-13.3) (122-1431 4.94 5.89 7.07 7.98 9.18 10.1 11.0 12.0 13.2 14.2 10 -day (4 66-5 26) (5 55-6 27) (6 66-7 53) (7 51-8 491 (8.61-9 77) 1 (9.46-108) 10 3-11.81 11 (112-12-8) 12 3-14 1) (131-15.1) 6.63 7.84 9.25 10.4 1-1 -8-1 12.9 14.1 15.211 16.7 7-1 17.9 20 -day (6 29-6 99) (7 44-8 26) 11 (8 77-9-75) (9 80-10.9) 11 (11.2-12.4) 11 (12-2-137) (13-2-14% (143-16 . 1) 1 (15 6-17 7) 11 (16 7-19 0) 8.21 9.fi5 11.1 123 13.7 14.8 F15.8 16.9 18.2 19.2 30 -day (7.84-8 60) (9 22-101)1 (10 6-11 7) (11.7-128) (13.0-14-4) 11 (14.1-15.5) 1 (15 0-16 61 (16.0-17 7) 1 (17 2-19 2) 11 (18 1-20.3) 10.3 12.1 13.714.9 16.5 17.6 18.7 19.8 21.1 22.1 45 day (991-108) (11.6-126) (13.1-143) (143-15.6) (15.7-17.2} (16.8-18.4) (178-196) 11 (188-207) 1 (20.1-222) 1 (210-233) 12.3 14 4 16-1 ` 17.5 19.2 20.d 21.7 22.8 24.3 25.4 60 -day (11 8-12 8} (13 8-15 O) (15 5-16 8) j (16.8-182) (18 4-2(1.0) (19.6-21.3) (237-22-6) (21 8-23 8) (23 2-25 4) (242-266) Precipitation frequency (PF) estimates in this table are based on frequency analysis of partial dura:w series (PDS) Numbers in parenthesis are PF estimates at lower and upper bounds of the 90% confidence interval The pmbabdity that precipitation frequency estimates (far a given duration and average recurrence interval) will be greater than the upper bound (cc less than the lover bound) is 5% Estimates at upper bounds are not checked against probable maximum precipitation (PNIP) estimates and may be higher that currentty valid PfAP va'ues Please refer to NOAA Atlas 14 document for more information Back to Top http://hdsc.n,vvs.noaa.aov/hdsc/pfds/pfds_printpage.html?lot=35.745 1&ton=-80.8648&data... 4/28/2017 Precipitation Frequency Data Server PF graphical PDS -based depth -duration -frequency (DDF) curves Lati_ude- 35.751°, Longitude= -80.8648° 30 25 70 n. 0 30 25 ---- 20 a C 15- C-1 CL 0 1 2 5 10 25 50 100 200 500 1000 Average recurrence interiat (y --ars) NOAA Atlas 14, Volume 2. Version 3 Created tGM11T;_ Fri Apr 2S 14 -CO -23 2017 Back to Top Paye 2 of 4 Average recurrence enteral (ye _ars) — f — 2 — 5 t0 — 25 s0 100 200 500 loco Duration mn mea m mm P C - - N &.Ii-;? — 15 -min — '-day .a i7? -9 7 0 p p — Go -min O O O Ul O N M Q 4? .-, - to 10 Duration — 3 -hr — 30 -Jay — 64hr 30 25 ---- 20 a C 15- C-1 CL 0 1 2 5 10 25 50 100 200 500 1000 Average recurrence interiat (y --ars) NOAA Atlas 14, Volume 2. Version 3 Created tGM11T;_ Fri Apr 2S 14 -CO -23 2017 Back to Top Paye 2 of 4 Average recurrence enteral (ye _ars) — f — 2 — 5 t0 — 25 s0 100 200 500 loco Duration 2-dav — 10 -mm — 3 -day — 15 -min — '-day — 30 -mm — T -day — Go -min — t D-day — 2 -hr — 2o•aay — 3 -hr — 30 -Jay — 64hr — 35 -day — 12 -hr — 6c -day — 2l -hr http://hdsc.nws.noaa.yovlhdsc/pfds/pfds_printpage.html?lat=35.7451 &Ion=-80.8648&data... 4/28/2017 Precipitation Frequency Data Server Maps & aerials Small scale terrain ` Staiesvill Gofn� b"' nal t • Barium - _ - spling — v� ; 3Nm, in Lame scale terrain Large scale map Greensboro I jr ,t � �; Garoiu�❑ �' F a 1Ookm OMI { f Page 3 of 4 http://hdse.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=36.7451 &lon=-80.8648&data... 4/28/2017 Precipitation Frequency Data Server Page 4of4 Back to Top US Department of Commerce National Oceanic and Atmospheric Administration National Weather Service National Water Center 1325 East `Nest Hignvay Sdoer 5cnr9 MD 20510 Questions' HDSC Questions(d_)noaa goy Disclaimer http://hdse.nws.noaa.o,ov/hdsc/pfds/pfds�rintpage.html?Iat=35.74� 1&lon=-80.8648&data._. 4!28/2017 Precipitation Frequency Data Server Page 1 of 4 NOAA Atlas 14, Volume 2, Version 3 Dui Location name: Statesville, North Carolina, USA' Latitude: 35.7451°, Longitude: -80.8648° DI Elevation. 808.83 ft" +�_ 'source ESRI Maps 10 " source USGS 50 POINT PRECIPITATION FREQUENCY ESTIMATES G M Scnnin, D Martin B Lin T Parrrbok, 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 Dui Average recurrence interval (years) raton 1 �0 10 25 50 100 200 500 1000 { 4.52 5 34 6.28 6.94 7.72 827 8.77 9.24 9.78 10.2 5 -min I (416-4.91) 11 (4 94-5 83) 1 1 (637-755) (703-839) (749-899) 1 (788-956) 11 (823-10.1) 1(860-108) 1 (884-113) 3.61 4 27 5.02 5 55 6.15 6.58 6.977---732--F.7.73 8.01 10 min (333-392) (3.95-4 66) (462-5.47) (;09-603) 03) (5.60-6 68) (5 96-7.16) (627-760) (653-801) (680-851) (696-8 86) 3.01 3.58 4.24 4.68 5 20 5.56 5.88 6.16 6.49 6.70 15 -min 11 (278-3 27) 11 (3 31-3 90) 1 (3 90-4 61) 1 (4 29-5 08) 11 (4 74-5 64) 1 (5 03-6 04) 1 (5 28-6 40) 1 (5 49-6 74) 1 (5 71-7 14) 1 (5 82-7.42) 2.06 2.47 3.01 3.39 3.85 4.18 4.50 4.79 5.16 5.43 30 -min (1.90-224) 1 (2.29-2.70) (277-3 28) (311-368) (351-418) (379-4.55) 1 (4.05-490) 1 (427-524) 1(454-!568) 11 (4.72-600) 1'29 1.55 1.93 2.21 2 56 2.83 3.10 3.36 3.71 3.96 60 -min (1 19-1.40) 11 (143-169) 11 (1 78-2 10) 1 (2 03-2 40) (2.34-2 78) (2 57-3 08) 1 (2 79-3 38) 1 (3 00-3 68) 1 (3 26-4 08) (3 44-4 38) 0-746 0.904 1.13 130 1.53 1.71 1.89 2.06 2.30 2.48 2 -hr (0686-0810) (0832-0986) 1 (1 04-123) 11 (119-142) (1.39-167) (154-186) 1 (169-206) 1 (183-226) 1 (2.01-254) 11 (214-2.75) 0.532 0.643 0.808 0.935 1.11 1.25 1.38 1.53 1.72 1.87 3 -hr 1(0491-0580)1(0594-0704) (0744-0883)1(0 857-102) 1001-121) (1.12-136) 1 (124-151) 1 035-167) 1 (150-190) 11 (161-208) 0.328 0.395 0.496 0.575 0.682 0.768 0.855 0.945 1.07 1.17 6 -hr 11 (0 303-0 356) (0 366-0 431) (0 458-0 540) (0 529-0 625 (0 623-0 740 (0 696-0 833) (0 768-0 930 1(0.839-103) (0 933-1 17) 0.196 0 236 0.297 -O-.3-45---IF-0-4-10---]F-O--4-63- 0.516 0.574 0.653 0.715 12 -hr 1(0181-0212)1(0219-0257)1(0274-0323)1(0317-0374 1(0375-0444 (0 419-0.501) (0 464-0 559) (0.509-0 621) 0 569-0 706) (0 614-0 776) 0-117 0.142 0.180 0.210 0.250 0 283 0.316 0.350 0.397 0.434 24 -hr (0 109-0127) (0 132-0 154) 0.167-0 195) (0 193-0 227 (0 230-0 2711(0259 -0305)1(0.289-0341)1(()319-0379) 0360-0431)1(0.391-0472)1 F 0.083 F 0-107F 2 -day (0 064 0 075) (0 077 0 090) 0 097 01 13) (0 10.121 102 01131 (0 132 0 155 (0 148 01174) (0 164' 08193) (D.180 0 213) kO 202-0 240) (0 2108-0 262) 0.049 0.059 0.073 0.085 0.100 0.112 0.124 0.137 0.154 0.167 3 -day (0 046-0 053) (0 055-0.064) (0 068-0 079) (0 079-0 091 1(0092-0108 (0 103-0 121) (0.114-0.134) (0 125-0.148) 0.140-0.167) (0 152-0181) 0.039 0.047 F-05-58-7-0--0-67 0.078 0.088 0.097 0.107 0.120 0.130 4 day 10 036-0 042) (0.044-0 050) 0 054-0.062)1(0 062-0 072 (0 073-0 084 (0 081-0.095)1(0.090-0 105) (0.098-0 115) k0A10-0130)1((1119-0 141) 0.026 0.031 0.037 0 043 0 049 0.055 0.060 0.066 0.073 0.079 7 -day (0 024-0 027) (0 029-0 033) (0 035-0 040) (0 040-0 045 (0 046-0 053) (0 051-0.059) (0 056-0 065) (0 061-0 071) 0.068-0 079) ((3 073-0 085) 0.021 0.025 0.029 0 033 0 038 0.042 0.046 0.050 0.055 0.059 10 day 0 019-0 022) ('70 (0023-0.0261 0 028-0 031) (0 031-0 035) (0 036-0 041 0 039-0 045) (0 043-0 049 (0 046-0 053) 0 (151-0 059) (0 055-0 0631 0.014 0.016 0.019 0.022 0 025 0.027 0.029 0.032 0.035 0.037 20 day (0 013-0 015y (0 015-0.017) 0 018-0 020) (0 020-0 023) (0 023-0 026) (0 025-0 028 ) ( 0 028-0 031 { 0 0300 033) 0 Q33-0.037) (0 035-0 040) 30 -day 0.011 011-0.012) 0.013 013-0 014) 0.015 0 015-0.016) 0,017 018 0019 018-0 020) 0 021 020-0 022) 0.022 021-0 023) 0.023 0 022-0 025) 0.025 0 024-0 027) 0.027 028) (0 0.010 (0 0.011 ( 0.013 (0.016-0 0 014 (0 0.015 (0 0.016 (0 0.017 0.018 0.020 (0.025-0 0.021 45 day 1(0009-0010)11(0011-0 012) (0 012-0 013) (0 013-0 014) (0 015-0016)j(0 016-0017)1(0 017-0 018) (0 017-0019) 0 019-0 021 i (0 019-0 022) 60-day0.009 (D COS 0 009) 0.010 (0 010-0 010) 0 011 0 011-0 012) 0.012 (0 012-0 013 0.013 (0 013-0 014) 0.014 (0 014-0 015) 0.015 (0 014-0 016j 0.016 (0 015-0.Dt 6617 0 016-0.018) 0.018 (0.017-0 018) ' Preaplation 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 http:/Ihdsc.n-vvs.noaa.aov/hdsc/pfds/pfds_printpage.html?tat=35.74 1 &ion=-80.8648&data... 4/28/2017 Precipitation Frequency Data Server PF graphical ?DS -based intensity -duration -frequency {IDF} curves Latitude 35.7451°, Longitude -30 3648= 1�0 000 10 000 a �* 2-000 3f � 0100 'J i 0010 0001 �0 000 10.000 0.100 a •i 0-001 1 2 5 10 25 50 loo 200 500 1000 Average recurrence interval (years) 1:'UAA At'as 1C, Volume 2, Merron 3 Created [GMT): Fri Aar 23 11.01:16 2017 Back to Too Pa(Te 2 oF4 Average recurrence nier.al (years) —t —2 5 10 — 25 50 100 200 500 1000 Duration — 5-4nrn — 2 -day — 10 -mm — 3 -day — 15-inm — »-day — 30 -min — 7 -day — 6G-rnin — 10 -day — 2 -hr — 20 -day — 3 -hr N 4 •� — •� 7 — 7 77 u1 O 1n O O "4 c`t �'1 C c� p O O 9 Duration �0 000 10.000 0.100 a •i 0-001 1 2 5 10 25 50 loo 200 500 1000 Average recurrence interval (years) 1:'UAA At'as 1C, Volume 2, Merron 3 Created [GMT): Fri Aar 23 11.01:16 2017 Back to Too Pa(Te 2 oF4 Average recurrence nier.al (years) —t —2 5 10 — 25 50 100 200 500 1000 Duration — 5-4nrn — 2 -day — 10 -mm — 3 -day — 15-inm — »-day — 30 -min — 7 -day — 6G-rnin — 10 -day — 2 -hr — 20 -day — 3 -hr — 30 -day — G -hr — 45 -day — 12 -hr — G"ay — 23 -hr http:l/hdsc.n�vs.noaa.aov/hdsc/p fds/pfds_printpage.html?lat=3 5.7451 &lon=-80.8648&data... 4/28/2017 Precipitation Frequency Data Server Page 3 of 4 Maps & aerials Small scale terrain nom. x "' y�ta esvil{ ; Barium r S A kmt` _ Large scale terrain am: 54 - Large scale map Ell 0 ^Kingsport= Gieensb'oto- '�:isli�.iQa�~�"��•_ Our � ' [H%xFttt, Carolina 100km { _ Oml http://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=�5.745 1 &lon=80.8648&data... 4/28(2017 Precipitation Frequency Data Server Page 4 of 4 Back to Too US Department of Commerce National Oceanic and Atmosphenc Administration National Weather Smote National Water Center 1325 cast;Vest Hignway S.,,,ar Scring MID 20910 CLes;icr; I WSC Questions(o)noaa gov Disclaimer http://hdsc.nws.noaa.gov/hdsc/pfds/pfds_printpage.html?lat=35.74 1 &lon=-80.8648&data... 4/28/2017