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SW6200802_2021-01-15 Four Sierra Ranch Storm Calculations_20210115
Stormwater Data For FOUR SIERRA RANCH SUBDIVISION Cumberland County, NC Owner: Crazy Woman Readiness Training rLLC Prepared by: ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P.O. Box 53787 1333 Morganton Road, Suite 201 { Fayetteville, North Carolina 28305 1 P. (910) 483-4300 F. (910) 483-4052 www.LKandA.com NC Firm License #: C-0887 TABLE OF CONTENTS Stormwater Narrative SC-1 Simple Method for Calculating Treatment Runoff Volume SC-2 Time to Peak Calculations - Post -Development SC-3 Basin Volumes SC-4 Infiltration Drawdown Time SC-5 Ditch Calculations APPENDIX A Infil Basin Routing Calcuiations APPENDIX B Misc. Erosion Control Calculations APPENDIX C Site Maps APPENDIX D Soils Report APPENDIX E Site Deed APPENDIX F STORMWATER NARRATIVE The proposed low -density development project is a single-family residential subdivision located off of Doc Bennett Road in Cumberland County. The project is 14 lots (one set aside for an infiltration basin) on 10 acres of land. The parcel is surrounded by open field and wooded lots. There is no obvious natural storm outlet available to discharge runoff from the site. The site is relatively flat with slopes of 1-2% and Type A Hydrologic Group soils. Where existing topographic conditions allow, future stormwater runoff will be captured by roadside ditches. The roadside ditches, designed to meet NCDOT drainage requirements, will discharge into an infiltration basin. The 10 acre parcel is designed with a proposed impervious area of 71,776 sf with 4500 sf allowed per lot. With 13,276 sf of proposed street impervious area and 13 developable lots, the total impervious area allotted for the development is 71,776 sf, or 16.48%. The infiltration basin is sized to infiltrate, not only the design water quality volume, but also will infiltrate up to the 100-year design storm with a 2 foot freeboard per routing calculations. Soil bores were taken at the location of the proposed infiltration basin down to 120 inches deep. Indications of the seasonal high water table elevation were not encountered to that depth. Ksat readings were taken at both 84" deep and 96" deep with average readings of 0.44 in/hr and 0.26 in/hr respectively. An infiltration rate of 0.26 in/hr was assumed for the infiltration basin routing calculations. Supporting calculations are attached. Project Name Outlet: ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Stormwater Wet Pond Design Criteria P18-049 Four Sierra Ranch Calculate Runoff Coefficient A= 6.11 acres Ai= 1.65 acres la= 0.27 Rv=0.05+0.9*la Rv= 0.29 266,341 sf Watershed area 71,776 sf Impervious area Impervious fraction Runoff Coefficient Calculate Runoff Volume Required to be Controlled Rd= 1 in Design storm rainfall depth (typically 1" or 1.5") V=3630*Rd*Rv*A WQV= 6,493 d Volume of runoff that must be 1.79 Ac in controlled for specified design storm SC-2 Project Name Outlet: I NGINEERING - SURVEYING - DESIGNING - DRAFTING �c—iffy King & Associates, R. L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Time to Peak Calculations P18-049 Four Sierra Ranch 1 Calculate Time to Peak & Volume of Runoff Qp 18.3 cfs DA= 6.11 acres Rational C= 0.39 P= 5.70 in (10yr/6hr storm) Cn=ab+cx"d b + x^d Cn= S= 4.43 Q = 2.51 in TP 36.49 min a= 50.82581 b= 1.461704 c= 165.6338 d= 1.350661 69 x= Rational C (1000/CN)-10 Volume of Runoff (10 Year Storm) Vol=1.39 * Qp * Tp Vol= 65,605 cf HVdrograph Shape tc= 6 min Ascending limb= 6.08 Decending limb= 10.16 SC-3 LA ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Pond Volume Calculations Project Name: P18-049 Four Sierra Ranch Outlet: 1 Infil Basin Volumes Stage ev. Diff Contour Area Incr. Vol. ACCUM. Vol. (ft) (ft) (sf) (cf) (cf) 159 0.0 12,748 0 0 160 1.0 14.581 13,665 13,665 161 1.0 16,483 15,532 29,197 162 1.0 18,453 17,468 46,665 163 1.0 20,484 19,469 66,133 164 1.0 22,571 21,528 87,661 165 1.0 24,715 23,643 111,304 SC-4 cA ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Infiltration Drawdown Project Name: P18-049 Four Sierra Ranch Outlet: 1 Drawdown Time T= FS*DV*12 SA*K T= Drawdown Time FS= Factor of Safety (2) DV= Design Volume SA= Surface Area K= Infiltration Rate Desian Storm 11" FS= 2 DV= 6,493 cf SA= 12,748 sf K= 0.26 in/hr T= 47.02 hrs SC-5 Appendix A Runoff Calculations for Open Ditches Using the Rational Method Roaoside Ditches Storm C i A Q (in/hr) (ac) (cfs) 10-yr 0.76 6.3 0.46 2.20 25-yr 0.76 7.13 0.46 2.49 Outfall Ditch Sto , I, C i A Q (in/hr) (ac) (cfs) 10-yr 0.4 6.3 6.11 15.40 25-yr 0.4 7.13 6.11 17.43 Street ditches.txt Channel Calculator Roadside Ditches (Grassed) 10-yr storm Given Input Data: Shape ........................... Trapezoidal Solving for ..................... Depth of Flow Flowrate ........................ 2.2100 cfs Slope ........................... 0.0124 ft/ft Manning's n ..................... 0.0175 Height .......................... 18.0000 in Bottom width .................... 0.0000 in Left slope ...................... 0.5000 ft/ft (V/H) Right slope ..................... 0.2500 ft/ft (V/H) Computed Results: Depth ........................... 5.5602 in Velocity ........................ 3.4312 fps 15Pp5 Full Flowrate ................... 50.6839 cfs Flow area ....................... 0.6441 ft2 Flow perimeter .................. 35.3585 in Hydraulic radius ................ 2.6231 in Top width ....................... 33.3614 in Area ............................ 6.7500 ft2 Perimeter ....................... 114.4651 in Percent full .................... 30.8902 Critical Information Critical depth .................. Critical slope .................. Critical velocity ............... Critical area ................... Critical perimeter .............. Critical hydraulic radius ....... Critical top width .............. Specific energy ................. Minimum energy .................. Froude number ................... Flow condition .................. 6.0925 in 0.0076 ft/ft 2.8579 fps 0.7733 ft2 38.7432 in 2.8742 in 36.5549 in 0.6463 ft 0.7616 ft 1.2568 Supercritical Page 1 (See 9,o5 4) Street Ditch 25.txt Channel Calculator Road°side Ditches (Grassed) 25-yr storm Given Input Data: Shape Trapezoidal Solving for ..................... Depth of Flow Flowrate 2.4900 cfs Slope 0.024 ft/ft Manning's n 0.0175 Height 18.0000 in Bottom width .................... 0.0000 in Left slope ...................... 0.5000 ft/ft (V/H) Right slope ..................... 0.2500 ft/ft (V/H) Computed Results: Depth 5.8146 in Velocity ........................ 3.5351 fps Full Flowrate 50.6839 cfs Flow area ....................... 0.7044 ft2 Flow perimeter 36.9762 in Hydraulic radius ... 2.7431 in Top width ....................... 34.8877 in Area ............................ 6.7500 ft2 Perimeter 114.4651 in Percent full .................... 32.3034 Critical Information Critical depth 6.3902 in Critical slope .................. 0.0075 ft/ft Critical velocity 2.9269 fps Critical area 0.8507 ft2 Critical perimeter .............. 40.6367 in Critical hydraulic radius ....... 3.0147 in Critical top width 38.3415 in Specific energy ................. 0.6788 ft Minimum energy .................. 0.7988 ft Froude number .................... 1.2662 Flow condition .................. Supercritical Page 1 Outlet Ditch.txt Channel Calculator Outlet Ditch (RipRap) 10-yr storm Given Input Data: Shape ........................... Trapezoidal Solving for ..................... Depth of Flow Flowrate ........................ 15.3900 cfs Slope ........................... 0.0200 ft/ft Manning's n ..................... 0.0740 Height .......................... 24.0000 in Bottom width .................... 36.0000 in Left slope ...................... 0.2500 ft/ft (V/H) Right slope ..................... 0.2500 ft/ft (V/H) Computed Results: Depth ........................... 12.3429 in Velocity ........................ 2.1032 fps< S �V5 Full Flowrate ................... 67.7271 cfs Flow area ....................... 7.3176 ft2 Flow perimeter .................. 137.7819 in Hydraulic radius ................ 7.6478 in Top width ....................... 134.7429 in Area ............................ 22.0000 ft2 Perimeter ....................... 233.9091 in Percent full .................... 51.4286 Critical Information Critical depth .................. 8.2780 in Critical slope .................. 0.1056 ft/ft Critical velocity ............... 3.8737 fps Critical area ................... 3.9730 ft2 Critical perimeter .............. 104.2619 in Critical hydraulic radius ....... 5.4872 in Critical top width .............. 102.2238 in Specific energy ................. 1.0973 ft Minimum energy .................. 1.0347 ft Froude number ................... 0.4593 Flow condition .................. Subcritical Page 1 Outlet Ditch 25.txt Channel Calculator Outlet Ditch (RipRap) 25-yr storm Given Input Data: Shape ........................... Trapezoidal Solving for ...................... Depth of Flow Flowrate 17.4300 cfs Slope 0.0200 ft/ft Manning's n ..................... 0.0740 Height 24.0000 in Bottom width 36.0000 in Left slope 0.2500 ft/ft (V/H) Right slope O,2500 ft/ft (V/H) Computed Results: Depth 13.0799 in Velocity ........................ 2.1727 fps Full Flowrate 67.7271 cfs Flow area 8.0223 ft2 Flow perimeter 143.8599 in Hydraulic radius 8.0301 in Top width 140.6394 in Area ............................ 22.0000 ft2 Perimeter 233.9091 in Percent full 54.4997 Critical Information Critical depth .................. 8.8374 in Critical slope .................. 0.1038 ft/ft Critical velocity ............... 3.9805 fps Critical area ................... 4.3788 ft2 Critical perimeter .............. 108.8755 in Critical hydra.:lic radius ....... 5.7915 in Critical top width .............. 106.6996 in Specific energy ................. 1.1634 ft Minimum energy 1.1047 ft Froude number 0.4630 Flow condition .................. Subcritical Page 1 0 Table 8.06a Maximum Allowable Design Velocities' for Vegetated Channels Typical Soil Grass Lining Permissible Velocity' Channel Slope Characteristics2 for Established Grass Application Lining (ft/sec) 0-5% Easily Erodible Bermudagrass 5.0 �— Non-plastic Tall fescue 4.5 (Sands & Silts) Bahiagrass 4.5 Kentucky bluegrass 4.5 Grass -legume mixture 3.5 Erosion Resistant Bermudagrass 6.0 Plastic Tall fescue 5.5 (Clay mixes) Bahiagrass 5.5 Kentucky bluegrass 5.5 Grass -legume mixture 4.5 5-10% Easily Erodible Bermudagrass 4.5 Non -plastic Tall fescue 4.0 (Sands & Silts) Bahiagrass 4.0 Kentucky bluegrass 4.0 Grass -legume mixture 3.0 Erosion Resistant Bermudagrass 5.5 Plastic Tall fescue 5.0 (Clay mixes) Bahiagrass 5.0 Kentucky bluegrass 5.0 Grass -legume mixture 3.5 >10% Easily Erodible Bermudagrass 3.5 Non -plastic Tall fescue 2.5 (Sands & Silts) Bahiagrass 2.5 Kentucky bluegrass 2.5 Erosion Resistant Bermudagrass 4.5 Plastic Tall fescue 3.5 (Clay mixes) Bahiagrass 3.5 Kentucky bluegrass 3.5 Sources USDA-SCS Modified NOTE: 'Permissible Velocity based on 10-year storm peak runoff 2Soil erodibility based on resistance to soil movement from concentrated flowing water. 3 Beforegrass is established, permissible velocity is determined by the type of temporary liner used. Selecting Channel To calculate the required size of an open channel, assume the design flow is Cross -Section uniform and does not vary with time. Since actual flow conditions change throughout the length of a channel, subdivide the channel into design reaches, Geometry and design each reach to carry the appropriate capacity. The three most commonly used channel cross -sections are "W-shaped, parabolic, and trapezoidal. Figure 8.05b gives mathematical formulas for Ehe area, hydraulic radius and top width of each of these shapes. 8.05.4 NOAA Atlas 14, Volume 2, Version 3 Location name: Fayetteville, North Carolina, USA* Latitude: 34.9781*, Longitude:-78.8805* - 61.'M Elevation: 157.57 ft** i source: ESRI Maps n ** 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 incheslhour)1 Average recurrence interval (years) 1 2 5 10 25 50 100 200 500 1000 5.20 6.13 7.18 7.97 8.94 9.66 10.4 5-min ��������� 11.0 11.9 12.6 (4.72-5.76 (5.57-6.79) (6.52-7.94) (7.21-8.81) (8.05.9.85) (8.68-10.6) (9.25-11.4) (9.82-12.1) (10.5-13.0 (11.0-13.8) 4,15 4.91 5.75 6.37 10-mtn 7.13 7.69 8.24 8.75 9.41 9.90 (3.77-4.60) (4.46-5.44) (5.21-6.37) (5.76-7.04) (6.41-7.85) (6.91-8.45) (7.36.9.03) (7.78-9.59) (8.29-10.3) 3.46 4.11 4.85 5.38 6.02 �(8.67-10.9) 6.49 15-min 6.94 7.36 7.90 8.28 (3.14-3.83) 11 (3.74-4.55) (4.40-5.37) (4.86-5.94) 1 (5.42-6.64) (5.83-7.13) (6.20-7.61) 1 (6.54-8.06) (6.96-8.65) (7.25-9.08) 2.37 2.84 3.44 3.89 4.46 4.89 5.31 30-minE(2 5.73 6.28 6.71 15-2.63) (2.58-3.14) (3.12-3.81) (3.52-4.30) (4.01-4.91) (5.54-6.88) (5.87-7.35 (4.39-5.37) (4.75-5.83) (5.09-6.28 �� 1.48 1.78 2.21 2.54 2.97 3.31 [�-:mtn 3.66 4.02 4.51 4.90 (1 34.1.64) (1.62-1.97) (2.00-2.44) (2.29-2.80) (2.67-3.27 J ) ( ) (3.57-4.40) (3.97-4.94) (4.29-5.37) 2 98-3.64) (3.27-4.01 ��� 0.862 1.05 1.33 1.54 1.84 2-hr 2.07 2.32 2.57 2.91 3.19 (0.768-0.991) (0.932-1.20) 1 (1.18-1.52) (1.37-1.76) 1 (1.62-2.10) (1.82-2.37) (2.02-2.65) (2.23-2.93) 1 (2.50-3.32) 1 (2.72-3.64) 0.610 0.739 0.939 1.10 1.33 1.52 3-hr 1.71 1.92 2.22 2.46 (0.544-0.704) (0.658-0.852) (0.834-1.08) (0.977-1.26) 1 (1.17-1.52) (1.33-1.74) 1 (1.49-1.96) 1 (1.66-2.20) 1 (1.89-2.54) 1.(2.08-2.81) 1[ 6-hr 0.365 0.443 0.563 0.662 0.800 {0327-0.414] (0.396-0.501)(0.503-0.637) (0.589 0.748) (0.707-0.902) 0.915 1.04 1.17 1.36 1.51 (0.804-1.03) (0.904-1.17) 1 (1.01.1.31) (1.16-1.52) 1 (1.27-1.69) 12-hr 0.214 0.259 0.331 0.391 0.477 + 0.548 0.625 0.709 0.830 0.931 (0.191-0.242} (0.232-0.293) (0.296-0.375) (0.347-0.441) (0.419-0.535] (0.480-0.614) (0.542-0.698) (0.608-0.790) (0.701-0.924) (0.777-1.03) 0.126 0.153 0.196 0.231 0.280 0.321 0.364 0.410 0.475 0.528 24-hr (0.117-0.137) (0.142-0.166) (0.182-0.213] (0.213-0.251) (0.257-0.304) (0.293-0.348} (0.331-0.395) (0.371-0.445) (0.426-0.516) (0.470-0.575) 0.073 0.088 0.112 0.132 0.159 0.181 0.205 0.230 0.265 0.294 2-da (0.068-0.079) (0.082-0.096) (0.104-0.121) (0.122-0.142) (0.146.0.171 ) (0.166-0.195)[0.186-0.221 ] (0.208-0.248) (0.238-0.287} (0.262-0.319) 0.052 0.063 0.079 0.092 0.111 0.126 0.142 0.158 0.182 0.201 3-da y (0.048-0.056) (0.058-0.067) (0.073-0.085) (0.085-0.099) (0.102-0.119) (0,116-0.135) {0,129-0.153) (0.144-0.171) (0.164-0.197) (0.180-0.218) 0.041 0.050 0.062 --O.-072-71 0.087 11 0.098 0.110 0.123 0.141 0.155 4-day (0.038-0.044) (0.046-0.053) (0.058-0.067) (0.067-0.078) (0.080-0.093) (0.090-0.105) (0.101-0.118) (0.112-0.132) (0.127-0,152) (0.139-0.168) 0.027 0.033 0.041 0.047 0.056 0.063 0.070 0.077 0.088 0.096 7-day 1(0.025-0.029) (0.031 0.035) (0.038-0.044) (0.044-0.050) (0.051-0.060) (0.058-0.067) (0.064-0.075) (0.071-0.083) (0.080-0.095) (0.087-0.105) 0.022 0.026 0.032 0.036 0.043 0.048 0.053 0.058 0.065 0.070 10-day (0.021.0.023) (0.025-0.028) (0.030-0.034)( 0.034-0.039) (0.040-0.046) (0.044-0.051)( 0.048-0.056) (0.053-0.062) (0.059.0.070) (0.064-0.076) 0.015 0.017 0.021 0.024 0.028 0.031 0.034 0.037 0.041 0.044 20-da y (0.014-0.016) (0.016-0.019) (0.020-0.022) (0.022-0.025) (0.026-0.029) (0.028-0.033) (0.031-0.036) (0.034-0.039) (0.038-0.044)(0.040-0.047) 0.012 0.014 7 0.017 0.019 0.022 0.024 0.026 0.028 0.031 0.033 30-da y (0.012-0.013)(0.014-0.015) (0.016-0.00.018-0.020)18)z((0.020-0.023) (0.022-0.025) (0.024-0.028) (0.026-0.030) (0.028-0.033) (0.030-0.035) 0.010 0.012 0.014 0.016 0.018 0.019 0.021 0.022 0.024 0.026 45-da y (0.010-0.011) (0.011-0.013) {0.013 0.015] (0.015-0.017) (0.017-0.019) (0.018-0.020) (0.019.0.022) (0.021-0.023) (0.022-0.026) (0.024-0.027} 0.009 0.011 0.013 0.014 0.015 0.017 0.018 0.019 0.021 0.022 60-day (0.009-0.010) (0.010-0.011) (0.012-0.013) (0.013-0.015) [0.015-0.016) [0.016-0.018} (0.017-0.019) (0.018-0.020) (0.019-0.022) (0.020-0.023) 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: 34.9781*. Longitude: -78.88050 100.000 10-000 E ZI Ln 1.000 0-100 fu U ri 2 0-010 0-001 L- XF ru M M ra M M M M M I Nlr N '0-0 '0 -0 -0 -0 -0-0 r� 6 6 0' Ln' 01 P-1 P-1 rn 0 1.4 N rn �* LD 100.000 L 10-000 -C ZI kA 1-000 ar 0-100 9- 0-010 0-0011 I ......................... ....... ....... ........... JLU 25 50 100 200 500 1000 Average recurrence interval (years) NOAA Atlas 14, Volume 2, Version 3 Created (GMT): Tue Aug 27 18:17:44 2019 Back to Top Maps & aerials Small scale terrain Average recurrence inte,N-al (years) 2 5 10 25 50 100 — 200 500 — 1000 Duration — 5-min — — 1 "in — 3-day 15-min — 4--day 30-min — 7-day 60-min — I0-daG- 2-tir — 20-day 3-hr — 30-day "r — 45-day 12-hr — 60-day 24-hr land � f � irk r! I r' �7FAVE'TTEvI[ RGNL ' 17-IM NN15 FL cs ! I -Pope Mills ` r Urn 2mi Large scale terrain lin stun-5 a em � • r Durham Greensboro RockyMount ■ Raleigh • RT H C A R 0 L IN A ' Greenville 19 ' Charlotte Fayetteville {G ' Jacksonville • C A R Q L I N A wilmington �❑ 100km mi Large scale map insto,Ns lem Greensboro ,+ o DOafham Rocky 144orant ° Raleigh North Greenville © Carolina�Gharl Otte 3 r,ayetteville l Jacksonville l` 6 wilmingt❑n ° 100km ou ` M. Large scale aerial 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 Appendix B Table of Contents Hydraflow Hydrographs by Intelisolve Infil Basin-3.gpw Sunday, Jan 5 2020, 7:6 PM Hydrograph Return Period Recap...................................................................... 1 1 - Year SummaryReport ................................................................................................................. 2 HydrographReports........................................................................................................... 3 Hydrograph No. 1, Rational, Post Dev.............................................................................. 3 Hydrograph No. 2, Reservoir, Post Dev Outlet................................................................. 4 PondReport ................................................................................................................. 5 10 -Year SummaryReport................................................................................................................. 6 HydrographReports........................................................................................................... 7 Hydrograph No. 1, Rational, Post Dev.............................................................................. 7 Hydrograph No. 2, Reservoir, Post Dev Outlet................................................................. 8 PondReport................................................................................................................. 9 25 - Year SummaryReport............................................................................................................... 10 HydrographReports......................................................................................................... 11 Hydrograph No. 1, Rational, Post Dev............................................................................ 11 Hydrograph No. 2, Reservoir, Post Dev Outlet............................................................... 12 PondReport ............................................................................................................... 13 100 - Year SummaryReport ............................................................................................................... 14 HydrographReports......................................................................................................... 15 Hydrograph No. 1, Rational, Post Dev............................................................................ 15 Hydrograph No. 2, Reservoir, Post Dev Outlet............................................................... 16 PondReport ............................................................................................................... 17 Hydrograph Return Period Recap Hyd. No. Hydrograph type (origin) Inflow Hyd(s) -- 2-Yr Peak Outflow (cfs) Hydrograph description Post Dev Post Dev Outlet 5 2020, T05 PM 1-Yr 3-Yr 5 Yr 10-Yr 25-Yr 50-Yr 100-Yr 1 2 Rational Reservoir ------- 1 11.86 0.10 ------- ------- ------- ------- ------- ------- 18.27 0.11 20.51 0.12 ------- ------- 2167 0.12 PrOj. file: Infil Basin-Igpw Sunday, Jan Hvdraflow Hvdroaraohs by Intelisolve Hydrograph Summary Report Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to peak (min) Volume (tuft) Inflow hyd(s) Maximum elevation (ft) Maximum storage (tuft) Hydrograph description 1 Rational 11.86 1 36 34,655 ---- ---- ------ Post Dev 2 Reservoir 0.10 1 95 16,524 1 161.26 33,734 Post Dev Outlet Infil Basin-3.gpw Return Period: 1 Year Sunday, Jan 5 2020, 7:05 PM Hvdraflow Hvdrooranhs by Intelisolve Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 1 Post Dev Hydrograph type = Rational Storm frequency = 1 yrs Drainage area = 6.110 ac Intensity = 4.975 in/hr OF Curve = Thrower.IDF Post Dev Sunday, Jan 5 2020, 7:5 PM Peak discharge = 11.86 cfs Time interval = 1 min Runoff coeff. = 0.39 Tc by User = 6.00 min Asc/Rec limb fact = 6.08/10.16 Hydrograph Volume = 34,655 cult Q (cfs) Hyd. No. 1 -- 1 Yr Q (cfs) 12.00 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 0.00 0.0 0.2 0.3 0.5 0.7 0.8 1.0 1.2 1.3 1.5 1.7 Hyd No. 1 Time (hrs) 3 Hydrograph Plot Hydraflow Hydrographs by Intelisolve Sunday, Jan 5 2020, 7:5 PM Hyd. No. 2 Post Dev Outlet Hydrograph type = Reservoir Peak discharge = 0.10 cfs Storm frequency = 1 yrs Time interval = 1 min Inflow hyd. No. = 1 Max. Elevation = 161.26 ft Reservoir name = New Pond 1 Max. Storage = 33,734 cuft Storage Indication method used. Hydrograph Volume = 16,524 cuft Post Dev Outlet Hyd. No. 2 --1 Yr 10.00 1 M 4.00 2.00 0.00 0 5 10 15 19 24 29 34 — Hyd No. 2 Hyd No. 1 Q (cfs) 12.00 10.00 M$ 4.00 99 0.00 39 44 48 Time (hrs) 4 6 Hydrograph Summary Report Hyd. Hydrograph Peak Time Time to Volume Inflow Maximum Maximum No. type flow interval peak hyd(s) elevation storage (origin) (cfs) (min) (min) (cuff) (ft) (cuft) i 1 Rational 18.27 1 36 53,409 ---- ------ ------ i 2 Reservoir 10.11 1 96 18,594 1 162.28 52,148 Hydrograph description Post Dev Post Dev Outlet Infil Basin-lgpw Return Period: 10 Year Sunday, Jan 5 202017:05 PM Hydrograph Plot Hydraflow Hydrographs by Intelisolve Sunday, Jan 5 2020, 7:5 PM Hyd. No. 1 Post Dev Hydrograph type = Rational Peak discharge = 18.27 cfs Storm frequency = 10 yrs Time interval = 1 min Drainage area = 6.110 ac Runoff coeff. = 0.39 Intensity = 7.667 in/hr Tc by User = 6.00 min OF Curve = Thrower.IDF Asc/Rec limb fact = 6.08/10.16 Post Dev Hyd. No. 1 -- 10 Yr 18.00 15.00 12.00 M I. -Mrs 3.00 Hydrograph Volume = 53,409 cult Q (cfs) 21.00 18.00 15.00 12.00 M . 11 3.00 0.00 -`' . -1 1 1 _ _ 1 I I L - 0.00 0.0 0.2 0.3 0.5 0.7 0.8 1.0 1.2 1.3 1.5 1.7 Hyd No. 1 Time (hrs) 7 Hydrograph Plot Hydraflow Hydrographs by Intelisolve Sunday, Jan 5 2020, 7:5 PM Hyd. No. 2 Post Dev Outlet Hydrograph type = Reservoir Peak discharge = 0.11 cfs Storm frequency = 10 yrs Time interval = 1 min Inflow hyd. No. = 1 Max. Elevation = 162.28 ft Reservoir name = New Pond 1 Max. Storage = 52,148 cuft Storage Indication method used. 18.00 15.00 12.00 M MO] 3.00 M Post Dev Outlet Hyd. No. 2 --10 Yr Hydrograph Volume = 18,594 cuft Q (cfs) 21.00 W-X1I11 15.00 12.00 M 3.00 0.00 5 10 15 19 24 29 34 39 44 48 Hyd No. 2 Hyd No. 1 Time (hrs) 8 10 Hydrograph Summary Report Hyd. No, Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to peak (min) Volume (tuft) Inflow hyd(s) Maximum elevation (ft) Maximum storage (tuft) Hydrograph description 1 Rational 20.51 1 36 59,942 ---- ------ ------ Post Dev 2 Reservoir 0.12 1 96 19,279 1 162.61 58,566 Post Dev Outlet Infil Basin-3.gpw Return Period: 25 Year Sunday, Jan 5 2020, 7:05 PM Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 1 Post Dev Hydrograph type = Rational Storm frequency = 25 yrs Drainage area = 6.110 ac Intensity = 8.605 in/hr OF Curve = Thrower.IDF Post Dev Hyd. No. 1 -- 25 Yr 18.00 15.00 12.00 M . M #] 3.00 Sunday, Jan 5 2020, 7:5 PM Peak discharge = 20.51 cfs Time interval = 1 min Runoff coeff. = 0.39 Tc by User = 6.00 min Asc/Rec limb fact = 6.08/10.16 Hydrograph Volume = 59,942 cult Q (cfs) 21.00 18.00 15.00 12.00 M . �� 0.00 yr I I I I I I I I I 1 0.00 0.0 0.2 0.3 0.5 0.7 0.8 1.0 1.2 1.3 1.5 1.7 Hyd No. 1 Time (hrs) Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 2 Post Dev Outlet Hydrograph type = Reservoir Storm frequency = 25 yrs Inflow hyd. No. = 1 Reservoir name = New Pond Storage Indication method used. Q (cfs) 21.00 18.00 15.00 12.00 9.00 6.00 3.00 0.00 0 Sunday, Jan 5 2020, 7:5 PM Peak discharge = 0.12 cfs Time interval = 1 min Max. Elevation = 162.61 ft Max. Storage = 58,566 cuft Hydrograph Volume = 19,279 cuft Post Dev Outlet Hyd. No. 2 -- 25 Yr Q (cfs) 21.00 18.00 15.00 12.00 9.00 6.00 3.00 — 0.00 5 10 15 19 24 29 34 39 44 48 Hyd No. 2 Hyd No. 1 Time (hrs) 12 Hydrograph Summary Report 14 Hydrograph description ev ev Outlet 020, 7:06 PM Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 1 Post Dev Hydrograph type = Rational Storm frequency = 100 yrs Drainage area = 6.110 ac Intensity = 9.933 in/hr OF Curve = Thrower.IDF Q (cfs) 24.00 20.00 16.00 12.00 M 4.00 Post Dev Hyd. No. 1 --100 Yr Sunday, Jan 5 2020, 7:6 PM Peak discharge = 23.67 cfs Time interval = 1 min Runoff coeff. = 0.39 Tc by User = 6.00 min Asc/Rec limb fact = 6.08/10.16 Hydrograph Volume = 69,190 cuft Q (cfs) 24.00 20.00 12.00 �11 0.00 V ' 1 L 0.00 0.0 0.2 0.3 0.5 0.7 0.8 1.0 1.2 1.3 1.5 1.7 Hyd No. 1 Time (hrs) 15 Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 2 Post Dev Outlet Hydrograph type = Reservoir Storm frequency = 100 yrs Inflow hyd. No. = 1 Reservoir name = New Pond 1 Storage Indication method used. 20.00 16.00 12.00 WE 4.00 Post Dev Outlet Hyd. No. 2 -- 100 Yr Sunday, Jan 5 2020, 7:6 PM Peak discharge = 0.12 cfs Time interval = 1 min Max. Elevation = 163.07 ft Max. Storage = 67,653 cuft Hydrograph Volume = 20,219 cult Q (cfs) 24.00 16.00 12.00 e 4.00 0.00 5 10 15 19 24 29 34 39 44 48 Hyd No. 2 Hyd No. 1 Time (hrs) 16 Appendix G User Input Data Calculated Value Reference Data Designed By: JAN, PE Date: 6/20/2019 Checked By: Date: Company: Larry King & Assoc. Project Name: Four Sierra Ranch Project No.: Site Location (City/Town) Greys Creek, NC Culvert Id. DW Pipe Total Drainage Area (acres) 0.58 Step 1. Determine the tailwater depth from channel characteristics below the pipe outlet for the design capacrry of the pipe If the tw1water depth is less than half the outlet pipe dimueter. it is classified tnuutuuun tailwater condition. If it is g7 eater than half the pipe charnetei it is classified n&.�ruvutnr condition. Pipes that outlet onto wide flat areas with no defined channel are assumed to have a rtruminuin tailwater condition finless reliable flood stage elevation% show otherwise Outlet pipe diameter, Do (in.) Tailwater depth (in.) Minimum/Maximum tailwater? Discharge (cfs) Velocity (ft./s) 18 0 Min TW (Fig. 8.06a) 2.77 4.3 Step 3. Based on the tailwater conditions deteriaittied to step 1. enter Figure 8.06a or Fteutre 8.06b. and determine dib rtprap size and timil ian apron length (Q. The d,, size is the median stone size in a well -graded rtprap apron. Step 3. Determine apron width at the pipe outlet. the apron shape. and the apron width at the outlet end from the same figure used in Step ?_ Minimum TW Figure 8.06a Riprap d50, (ft.) 0.5 Maximum TW Figure 8.06b Minimum apron length, La A) g Apron width at pipe outlet (ft.) 4.5 4.5 Apron shape Apron width at outlet end (ft.) 10.5 1.5 step 4. Determine the maximum stone diameter- d, P K = 1.5 x d,, Minimum TW Max Stone Diameter, dmax (ft.) 0.75 Step 5. Detertlune the apron thickness Apron Thickness(ft.) Apron thickness = 1.5 x d Minimum TW 1.125 Maximum TW 0 Maximum TW 0 5teli 6. Fit the riprap l+pi on to the site by niakmg it level for the nunituum length La_ from Figtue 8 46a or Figure 8 06b Extend the apron farther dottmstream and along channel banks unntil stability is assured. Keep the apron as straight as possible and align it with the floe- of the receiving strew .lake puny uecess in- alignment bends near the pipe outlet so that the entrance into the receiving stream is straight Some locations nnay require lining of the entire channel cross section to assure stability. It ilnay be necessary to increase the size of riprap where protection of the channel side slopes is necess-ary (Appc;&A 8.05) NX7irie overfills evast at Pipe outlets or flows are excessive. a plunge pool should be considered. see page 8.06. 8 Figure 8.06a: Design of outlet protection from a round pipe flowing full, minimum tailwater condition (Tw<0.5 diameter) 30 Outlet IW . D0 + La pipe 1 diameter (00) ilwater -e 0.500 lyalI-11�l' +� of Pp 6f0ve {. 40 i. .... z 50 100 200 500 Discharge (0/sec) Durres may not be extrapolated, Figure 8.08a Dosign of outlet protection protection from a round pipe flowing fall, minimum tailwater condit,on (Tw c 0.5 darria to r). Rev. 12,93 8.06.3 Appendix D mc 'tlP� Ml'mm i�;�asua �i � •d OOfe-fBV 41�oN "al"salla/,ojoa ..IuoBi. VJ fEEt:9Lf5 xo9'O'd'tl'd stl 8 6uq .Wo7 motif 'Vt[I IS':(jo:r (i10," t� N 'b.t+I�:I')\ti'I��l(I l0,) ,MP ti'.LIJI� .111o,{-610 Phl 'IN,) (I(IF•) �I'ltWN 1'.1.1.>t. -MOA 6I0 Pt d : d 'Vf+„M 1'mmmPJ asua lwiy iecm 'f Wft-EB9DI6� d 4VOH •�NW,��'•p+.ry�gviSSl�e�es *oe �o�d:ry a suly wog N I I I I I I I �I if I 5P6P i n� I � � paw 3S I I oCS coo , .,;• — r e d„ �_ on �No Ila $ N w 0 y U JNU �— 't = Q JJ C� 06,E �� I I - n { O � b U 8 a QC,4Q rn�------ N7� I s m.n c vsee 9OAg $�'PY% �Nca `PLBSP i FO❑ %�tF iv_y` i[7€+,I a �� � ❑ y.� .A, }=a a mac cox sw WN INN T ' uu� b p 'ta� �¢WR =Po�a=aasoa�a��o�acx��„� I11O11� -bVd I-o: :r (,Io, 41 ti+p;�')� III?I(I lOJ M)1L,)1N.I,-�ti'O,).ne%p .ulo;I (it0 Phl 'HAL) (I(ltl,) It)ll"N 1110.1 GtO-Hld d ,4 4 g/ 3 1��K/ a" M n M Four Sierra Ranch -Parcel Map U 17P 17J5 3193 ■ 31f • Four Sierra Ranch -Soils Map 47H VAD MI .0, C(P) l7ps Four Sierra Ranch -Zoning Map 1799 17f9 4748 ■ 473 0 Four Sierra Ranch -Contour Map t u k, Jf r ` Jf 14 41,41 �'` F "7 w d,. ';► t, . � ;`� arm. tit ' - - Y ''��-• �: r. '}'" ' i - :5 .f • 'ti' , ti 1; 'ram . 'ci•. - � I - � - ej • 1 fi .`ire [�.er �A. }�} 7 .5 * - f' .� • �� '� 53.wIA . ^ia_s"'{ � �a' F_. i'�� 'i � I ..k s •.n `_ Y b: ,� C .�.. * i%i-_ ,1 r r_ J 'L4'rL Y' , R ,._r.• r .* Y `1� ,'.4• `�l i1. . 1 � � • �'..- � _ •�,♦ Y�r�' �?'f .',�`'' ��� �':! 5 i 1' t �! y �l'~ � s +151e � �� ''* ��� . 5i� •_..l+.� � ai � ::ih 4, r ����' y�l.a•�ti i# � `=.i�. '�+ I � - ' F��' �.s_s- �.. :�:4'f•:i :.; '�4�'� _-';L�i' }ia•�. i+r-' .l�.,r�' � JOIN '1- �y - - - i F: r y1r ! �•k ri M � q.4� -- Appendix E Southeastern Soil & Environmental Associates, Inc. P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4540 Email mike@southeasternsoil.com October 8, 2018 Mr. Jeffrey Nobles, PE Larry King & Associates, RLS, PA 1333 Morganton Road, Suite 201 Fayetteville, NC 28305 Re: Hydraulic conductivity (permeability) analysis & seasonal water table determination (SHWT) for proposed stormwater retention area. Crazy Woman Readiness Training site, portion of PIN 0444-21-3653, Doc Bennett Royal. Cumberland County, North Carolina Dear Mr. Nobles, An evaluation of soil properties and hydraulic conductivity (Ksat) has been conducted on a portion of the aforementioned property at your request. The purpose, r1'the investigation was to determine soil water table depths (SHWT) based on soil profiles. In addition, Ksat was to be provided at a depth 2.0 feet above the SHWT elevation for use with stormwater retention basin design. Saturated hydraulic conductivity of the unsaturated zone was measured in a similar method as described in the Soil Science Society of America Journal, Vol. 53, no 5, Sept. - Oct. 1989, "A Constant Permeameter for Measuring Saturated Hydraulic Conductivity of the Vadose Zone" and Comparison of the Glover Solution with the Simultaneous Equations Approach for Measuring Hydraulic Conductivity." This consists of advancing a small diameter bore hole to a predetermined depth (typically 2 feet above SHWT)_ At this depth, a constant head (pressure) was established and maintained. Flow measurements were made at timed intervals after flow stabilized. Soils at the proposed basin site are most similar to the Autryville soil series (see attached boring logs). Two borings were advanced to 10.00 feet below the soil surface. Seasonal High -Water Table (SHWT) as determined by evidence of colors of chroma 2 or less (and/or concentrations of high redox mottles) was not encountered within 120 inches below the ground surface (see chart attached). SOIUSITE EVALUATION • SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING • WETLANDS GROUNDWATER DRAINAGE/MOUNDING • SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN Four compact constant head permeameter (CCHP) tests were conducted at depths of at least 2.00 feet above the SHWT level. The measured Ksat rates ranged between 0.60 and 1.25 cm/hr (equivalent to 0.24 to 0.49 inches/hour). The attached map shows locations of the sample points as well as Ksat locations. It should be noted that the reported SHWT does not necessarily reflect the elevation of static groundwater (due to variations in groundwater recharge rates, annual rainfall, drought conditions, etc.). The data presented in this report are limited by a number of considerations. The primary consideration is that soil formations can be highly variable. The soils found on this site can be subject to inclusions of other soil types, perched water, artesian conditions and/or layers of undulating low permeability clay seams. These and other soil conditions can have an effect on the steady state of groundwater flow. To the extent possible, we have identified the soil types that will impact the flow of groundwater and have provided a professional opinion as to the depth of SHWT. I trust this is the information you require at this time. Sincerely, Mike Eaker NC Licensed Soil Scientist #1030 soa Southeastern Soil & Environmental Associates Inc. P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4540 Email mike@southeasternsoil.com SHWT and Observed Water Depths, Crazy Woman Readiness Training, Doe Bennett Road, Fayetteville, NC BORING SHWT DEPTH SHWT DEPTH GROUND ELEVATION OBSERVED WATER INCHES (msl — feet) (ms1— feet) (msl —feet) 500 > 120 155.20 165.20 None 501 > 120 154.93 164.93 None SOIUSITE EVALUATION • SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING • WETLANDS GROUNDWATER DRAINAGE/MOUNDING • SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN Southeastern Soil & Environmental Associates, Inc. N.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4540 Email mike@ south easternsoil.com Measured Ksat Rates, Crazy Woman Readiness Training, Doc Bennett Road, Fayetteville, NC Ksat Ksat Location De th in cmlhr inlhr 501 84 0.99 0.39 501 96 0.70 0.27 500 84 1.25 0.49 500 96 0.60 0.24 SOIUSITE EVALUATION • SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING • WETLANDS GROUNDWATER DRAINAGE/MOUNDING • SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN Southeastern Soil & Environmental Associates, Inc. RO. Box 9321 Fayetteville, NC 28311 Phone/Fax(910) 822-4540 Email mike@southeastemsoil.com Typical Soil Boring Log, Crazy Woman Readiness Training Site, Doc Bennett Road, Fayetteville, NC This map unit consists of well drained soils that formed in loamy sediments on uplands. Slopes range from 0 to 1 percent. A - 0 to 10 inches; grayish brown (IOYR 5/2) loamy sand: weak fine granular structure; very friable; common fine and medium roots; abrupt smooth boundary. E - 10 to 26 inches; yellowish brown (IOYR 5/6) loamy sand; weals medium granular structure; very friable; few fine roots; clear smooth boundary. Btl - 26 to 98 inches; strong brown (7.5YR 5/8) light sandy clay loam; moderate medium subangular blocky structure; friable; gradual wavy boundary. Bt2- 98 to 120 inches; yellowish brown (1 [ i 1- R 5/8), sandy clay loam; weak fine subangular blocky structure; firm. SHWT > 120 inches in boring 500 SHWT > 120 inches in boring 501 SOIUSITE EVALUATION - SOIL PHYSICAL ANALYSIS - LAND USE/SUBDIVISION PLANNING - WETLANDS GROUNDWATER DRAINAGE/MOUNDING - SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN ®osi.®�t�z■ y, / / / / / / \� sjFj �y \ FQQ. 6pFS \ nlAu 997 � �l FiF7 Z 'Flalrlrlslall NE �Y 4 aRyL \ \� . .girl ftm= Hc" � Appendix F B K 10106 PG 0251 NOW - I CAROLINA SPECIAL WARRANTY DEED Excise Tax: $220.00 Parcel Identifier No. Part of 0444-12-4550 Verified by By: Mail/Box to: McGeaehv. Hudson and Zuravel This instrument was prepared by: Williara Lockett Tall FILED ELECTRONICALLY CUMBERLAND COUNTY NC J. LEE WARREN, .:.F.. FILED Jun 06, 2017 AT 02:47:46 PM BOOK 10106 START PAGE 0251 END PAGE 0253 INSTRUMENT # 17814 RECORDING $26.00 EXCISE TAX $220.00 County on the day of , 20 Brief description for the Index: ` TITLE NOT CERTIFIED BY PREPARER*** THIS DEED made this 31" day of May _ , 2017, by and between GRANTOR I GRANTEE(S) Teresa W. Wood as Executrix of the Estate of Crazy Woman Readiness Training Facility, LLC, Bruce Wayne Wood; a North Carolina limited liability company Teresa W. Wood, widow; 2033 Tailwinds Court Kenneth Wood, unmarried; Eastover, NC 28312 Teresa W. Wood as Custodian of Cue and Thatcher Wood The designation 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 City of Township, Cumberland County, North Carolina and more particularly described as follows: SEE ATTACHED EXHIBIT "A" FOR LEGAL DESCRIPTION. See Estate file of Bruce Wayne Wood, located in Cumberland County Clerk of Superior Court file number 17 E 74"'. The property hereinabove described was acquired by Grantor by instrument recorded in Book 8955 page 536. A map showing the above described property is recorded in Plat Book 139 Page _50_ NC Bar Association Form No. 6U 1/1/20t0 Printed by AlWeemert with the NC. Bar Association submitted electronically by "MCGeachy, Hudson & zuravel" in compliance with North Carolina statutes governing recordable documents and the terms of the submitter agreement with the Cumberland County Register of Deeds. BK 10106 PG 0252 And the Grantor covenants with the Grantee, that Grantor is seized ofthe premises in fee simple, has the right to convey the same in fee simple, that title is marketable and free and clear of all encumbrances, and that Grantor will warrant and defend the title against the lawful claims of all persons whomsoever except for the exceptions hereinafter stated. Title to the property hereinabove described is subject to the following exceptions: A. Restrictions, easements and right-of-ways of record. IN WITNESS WHEREOF, the Grantor has duly executed the foregoing as of the day and year fast above written. Estate of Bruce WaInc Woo By:�1� �-�6n�L� Name & Title: Teresa W. Wood, Executrix Cue and Thatcher Woo under e C l �Z�,p�� -/-/-) &LW By e G�J• Teresa W. Wood Mduall Name & Title: Teresa W. Wood, Cust0 "an Kenneth Wood, Individually State of 1 e_ria [:I-,. County of cv.a � c. I,_t.? E,�,,,■{� { %;t (L/ the undersigned Notary Public of the Countyof [,,,,.��, [ and State aforesaid, certify that Teresa W. Wood, Executrix ❑f e Estate of Bruce Wayne Wood, personally appeared before me this day and acknowledged the due execution of the "oregoing instrument for th `k cfiAw Wdto* expressed. Witness my hand and notarial stamp or seal this day of �' .. , 2017.,,�1.00Kt;TTT�i,�'�- My Commission Expires: - '" 2_QL� = = v = td Tw Notary Public (Affix Seal) = G : Z = Notary's Printed or Typed Name State of .'�� �." �;�.� Country of r 4b Tr . I, ..the undersigne IPublacoftheCountyof 6c a,16 and State aforesaid, certify that Teresa W. Wood, Custodian of& Cue and `�Atyg prj�ypod, personally appeared before me this day and acknowledged the due execution of the foregoing instrument for the pjspt% ss(qg**6 ssed. Witness my hand and notarial stamp or seal this day of %'1..�.+ _ 2017. \ ........, My Commission Expires: ] I - �I �., L�,; :�.ti (,C4 Imo -} _ TK f �� P otary Public (Affix Seal) P U S �4G : • \ Notary's Printed or Typed Name r State of D( Colin. of ! (_,,the unders Nq ub& of the County of and State aforesaid, certify that Teresa W. Wood. Individually and Kenneth Wood, Individually, personally appeared before me this day and acknowledged the due execution of the foregoing instrument for the purposes therein. expressed. Witness my hand and notarial stamp or seal this 7 (_ day of �Jl 20:.7- - -- �1,1E11111iJ11/�r1 M Commission Expires: � � � " Y p � - � � �� _ ,: v = • •...... ,! •�{ �- � :� . �.. cx _'��; rf Notary Public (Affix Sean �pTA1� y .�� = Notary's Printed or Typed Name Y ANrJ NC Bar Association Form No.6Cam?' IILP-010 !/11101i1 I'mited by Agieententwith thz NC Bar Association BK 10106 PG 0253 IEXH111T "A" Legal Desedption BEING ALL OF LOT 3B, IN A SUBDIVISION KNO'SN'N AS "SUBDIVISION FOR TERESA WOOD AND KENNETH WOOD", ACCORDING TO A. PLAT OF THF- SAME DULY RECORDED IN PLAT BOOK 139, PAGE 50, CUMBERLAND COUNTY, NORTH CAROLINA REGISTRY. • File an Annual Report/Ameild an Annual Reporl, • Upload a PDF Filing • Order a Document Online - Add Entity to My Email Notification List , View Filings • Print a Pre -Populated Annual Report form • Print an Amended a Annual Report form Limited Liability Company Legal. Name Crazy Woman Readiness Training Facility LLC Information Sosld: 1578241 Status: Current -Active Annual Report Status: Current Citizenship: Domestic Date Formed: 3/2/2017 Registered Agent: Sturtz, Josh , Addresses Principal Office 2033 Tailwinds Court Eastover, NC 28312 Company Officials Reg Mailing 2033 Tailwinds Court Eastover, NC 28312 Mailing 3712 Eagles Nest Trail Burleson, TX 76028 All LLCs are managed by their managers pursuant to N.C.G.S. 57D-3-20. President Adam Steelhammer 3712 Eagles Nest Trail Burleson TX 76028 Member Steffanie Steelhammer 3712 Eagles Nest Trail Burleson TX 76028 Reg Office 531 Shawcroft Road Fayetteville, NC 28311