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Makson - MAKSON_STORMWATER_PACKAGE
―│―│―││―│―│―│―│―│―│―│―│―│―│―│―│―│││―│―│―│―│―│―│―│―│――│―││―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―││―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―│―││―│―││―│―│―│―│―│―││―│―│―│―│―│││▄▄OP#!"#!"#!"▄▄OP#!"█n█n█n█n█nFFF750800800750 800850 750800800700750750750750 800750 900900900800750750 750800750 950750 850750750700750 850750800750 800750750700 70070075095080080075750700700750750800800 800800800800750900850800750900850750700750 800 750800900950950900800 800800800750800750700700750750750 800850750800850850 750§¨¦5£¤52£¤52£¤52KENSINGTON LNGLOVER RDFA I T H R D GANTT STBIRCH STDEERFIELD DRUNION CHURCH RDBEAGLE CLUB RDOAKRIDGE RUNEASTVIEW RDBROWN STFRALEY STBYRD RDN MAIN S T ROWAN STN C L E O AVETROUTMA N S TSUMMER LNPECAN LNBROWN ACRES RDANTHONY RDMER RDGOLD KNOB RDKINGTREE RDSAIN T P A UL C H U R C H R D E RITC H I E R D EASTBEND LNDRANEY STGOODMAN DRDEER CREEK DRCLIFF EAGLE RDVILLA WOODS DRJOE HESS RDN MAIN STE 3RD STKLUTTZ RDTEAGUE RDHIL L S TS M A IN G Q S T OLD STONE HOUSE RDPOP BASINGER RDWHITE ROCK AVEFISH P O N D R D SAINT LUKE CHURCH RDLUTHER BARGER RDBEULAH LNVARNADORE RDSTAFFORD ESTATES DRSETTLERS GROVE LNHEILIG RDS MAIN G Q S T JAYCEE STGARLAND DR B A R R I N G E R S T W BANK STPINE H I L L D R E LYERLY STCOLEY RDSTONE RDDUNNS MOUNTAIN RDBROOKSHIRE DRMIRACLE DRCAUBLE STOUT CIRB R I A R CREEK DR E CHURCH RDPOP STIREWALT RDLIPPARD RDARTZ RDLOG BARN RDYATES RDFA I T H R D LEGION CLUB RDELLEN STDUSTY LNSCOTLAND LNODDIE RDADRIAN RDDAVES DRBUCK DRCEMETERY DRGARN ER DRE 2 N D S T WEATHERB Y D R CRESCENT RDW PEELER STPARK A V E RAINEY RDRAILROAD STPERC Y L N STONEWYCK DR567608ASTOKES FERRY RDR PALMER RDBARGER RDOLD CONCORD RDSA N D Y C R E E K LN MILL WHEEL DRMUSKEDINE LNGARDNER STVERONICA LNBALFOUR QUARRY RDN OAK STOLD RTE 80CANTIBERRY DRSIDES RDKESLER PASTURES RDMAHAFFEY DRMAJESTIC DRHAYNES DRTREXLER RDS SALISBURY AVEN SALISBURY AVECrane CrChurch CrC h u r c h C r Crane CrGraniteLakeShiloh CemChristianaCemWittenbergCemAntiochCemGraniteQuarryCrescentFaithDunn Mtn394851535'000m38547555225'5339680 37393930'53930"393930"3954394237'4027'50590 80°40FEETFEET37'37N46000m51 22'3935°3935°42E5500035'3980°41530"5500030"ROCKWELL QUADRANGLENORTH CAROLINA7.5-MINUTE SERIESU.S. DEPARTMENT OF THE INTERIOR U.S. GEOLOGICAL SURVEY PROPOSED MAKSON SITE BREC, P.A. Makson, Inc. | Stormwater Calculations 1 MAKSON, INC. STORMWATER CALCULATIONS Prepared By: BREC, P.A. 126 Executive Drive Suite 220 Wilkesboro, NC 28697 NCBELS Firm #C-3448 Prepared For: Makson, Inc. 434 Calhoun Street Salisbury, NC 28145 Project Site: Speedway Blvd. Salisbury, NC 28146 7 December 2017 Justin Church, PE Principal Engineer BREC, P.A. Makson, Inc. | Stormwater Calculations 2 1.0 General Information This document contains stormwater calculations demonstrating compliance with post-construction state and local stormwater regulations for the construction of an office and warehouse for Makson, Inc. off Speedway Boulevard in Salisbury, NC. Specifically, regulations for this area require water quality treatment of the first flush ሺ1"ሻ storm and the attenuation of the 1 year, 24 hour storm to pre- construction discharge rates. Larger storms are also required to pass the system. Two above ground sand filters will be utilized to meet these requirements. 2.0 Methodology Site topography requires the use of two BMPs to treat the proposed built upon areas. The water quality volume ሺܹܳ௩ ሻ required to be treated from the first flush was calculated using the Schueler method outlined in the NCDENR Stormwater BMP Manual. The Schueler method utilizes the following equations: ܴ௩ ൌ 0.05 0.9ܫ ܹܸܳ ൌ 3630ܴ ܴ௩ ܣ Where ܫ is the impervious fraction of the drainage area, ܴ௩ is a runoff coefficient, ܴ is the rainfall depth, ܣ is the drainage area, and ܹܳ௩ is the runoff volume. The calculated ܹܳ௩ is 8,854 ݂ݐ ଷ for Sand Filter #1 and 2,100 ݂ݐ ଷ for Sand Filter #2. To route the ܹܳ௩ through the sand filters, it is necessary to calculate a modified SCS curve number to avoid underrepresenting the first flush. The modified curve number is calculated as follows: ܥܰ ൌ 1000/ቂ10 5ܴ 10ܹܳ௩ െ10ඥܹܳ௩ଶ 1.25ܹܳ௩ ܴ ቃ The modified curve numbers were used to route the first flush using an SCS 6 hour balanced storm distribution. The 1 year, 24 hour and larger storms were routed with standard curve numbers and an SCS type II 24 hour storm distribution. Two pre-construction drainage areas and eleven post-construction drainage areas were identified. Table 1 - Pre-Construction Drainage Area(s) ࡺࢇࢋ ࢘ࢋࢇ ሺࢇࢉ࢘ࢋ࢙ሻ ࡺ ࡺ ࢀࢉ ሺ࢛࢚ࢋ࢙ሻ PRE-CONSTRUCTION:1 6.97 56.0 N/A 30 PRE-CONSTRUCTION:2 1.46 55.7 N/A 10 BREC, P.A. Makson, Inc. | Stormwater Calculations 3 Table 2 - Post-Construction Drainage Area(s) ࡺࢇࢋ ࢘ࢋࢇ ሺࢇࢉሻ ࡺ ࡺ ࢀࢉ ሺሻ ࡾ࢜ ࢃࡽࢂ ሺࢌ࢚ ሻ POST-CONSTRUCTION:1 0.83 87.22 96.77 5 0.69 2061 POST-CONSTRUCTION:2 0.24 98.00 99.57 5 0.95 835 POST-CONSTRUCTION:3 0.83 93.18 98.45 5 0.83 2520 POST-CONSTRUCTION:4 0.09 61.00 77.22 5 0.05 17 POST-CONSTRUCTION:5 0.35 87.76 96.94 5 0.70 880 POST-CONSTRUCTION:6 0.22 96.92 99.33 5 0.92 733 POST-CONSTRUCTION:7 0.70 98.00 99.57 5 0.95 2417 POST-CONSTRUCTION:7A 0.37 98.00 99.57 5 0.95 1261 POST-CONSTRUCTION:8* 0.69 56.00 77.22 5 0.05 126 POST-CONSTRUCTION:9 1.05 60.22 77.22 5 0.05 191 POST-CONSTRUCTION:10* 3.73 56.17 77.22 25 0.05 677 POST-CONSTRUCTION:11 0.22 61.00 77.22 5 0.05 39 *Drainage areas POST-CONSTRUCTION:8 and POST-CONSTRUCTION:10 consist of vegetated areas on the down slope side of the stormwater BMPs; therefore, they are not routed through the BMPs; however, runoff from these drainage areas are included in the peak attenuation calculations. Routing of the required storms through the sand filters was performed using Autodesk Storm and Sanitary Analysis (SSA) 2015. 2.1 Sand Filter Calculations 2.1.1 Sand Filter #1 The standard and adjusted water quality volumes are calculated as follows: ܹܸܳ ൌ 8,854 ݂ݐ ଷ ܹܸܳௗ ൌ 0.75ܹܸܳ ൌ ሺ0.75ሻሺ8,854ሻ ൌ 6,641 ݂ݐ ଷ There are multiple ܣ and ܣ௦ size combinations that provide a working solution to the design requirements for the calculated water quality volume. Possible options are summarized in the table below. Table 3 - Sand Filter Sizing ࢎࡹࢇ࢞ࡲ࢚ࢋ࢘ ሺࢌ࢚ሻ ࢎ ሺࢌ࢚ሻ ࢙ ࢌ ሺࢌ࢚ ሻ 1.0 0.5 6,641 BREC, P.A. Makson, Inc. | Stormwater Calculations 4 2.0 1.0 3,320 3.0 1.5 2,214 Given the site constraints, ݄ெ௫ி௧ was selected as 1.0 ݂ݐ. Together with the requirement to make the filter chamber and the sediment chamber proportionally sized yields the following calculations. ݄ெ௫ி௧ ൌ1.0 ݂ݐ ݄ ൌ ݄ெ௫ி௧ 2 ൌ 1 2 ൌ 0.50 ݂ݐ ݇ൌ4 ݂ݐ ݀ܽݕ ݐ ൌ 1.66 ݀ܽݕݏ ݀ி ൌ1.5 ݂ݐ ܣ ெିோ௨ௗ ൌቆ ሺܹܸܳሻሺ݀ி ሻ ሺ݇ሻሺݐሻሺ݄ ݀ி ሻቇൌቆ ሺ8,854ሻሺ1.0ሻ ሺ4ሻሺ1.66ሻሺ0.50 1.5 ሻቇ ൌ 1,000 ݂ݐ ଶ ܣ௦ ெିோ௨ௗ ൌ 0.066ܹܸܳ ൌ 0.066 ሺ8,854ሻ ൌ 584 ݂ݐ ଶ ܣ ௩ௗௗ ൌ 3,606 ሺ1,000 ݏܽ݊݀ሻ ݂ݐ ଶ ܣ ெିோ௨ௗ ܣ௦ ௩ௗௗ ൌ 3,606 ݂ݐ ଶ ܣ௦ ெିோ௨ௗ ቀܣ௦ ௩ௗௗ ܣ ௩ௗௗ ቁ ൌ 3,606 3,606 ൌ 7,212 ݂ݐ ଶ ቀܣ௦ ௩ௗௗ ܣ ௩ௗௗ ቁݔ݄ெ௫ி௧ ൌ ሺ7,212ሻሺ1.0ሻ ൌ 7,212 ݂ݐ ଷ ܹܸܳௗ 2.1.1 Sand Filter #2 The standard and adjusted water quality volumes are calculated as follows: ܹܸܳ ൌ 2,100 ݂ݐ ଷ ܹܸܳௗ ൌ 0.75ܹܸܳ ൌ ሺ0.75ሻሺ2,100ሻ ൌ 1,575 ݂ݐ ଷ There are multiple ܣ and ܣ௦ size combinations that provide a working solution to the design requirements for the calculated water quality volume. Possible options are summarized in the table below. Table 4 - Sand Filter Sizing ࢎࡹࢇ࢞ࡲ࢚ࢋ࢘ ሺࢌ࢚ሻ ࢎ ሺࢌ࢚ሻ ࢙ ࢌ ሺࢌ࢚ ሻ 1.0 0.5 1,575 2.0 1.0 788 3.0 1.5 525 BREC, P.A. Makson, Inc. | Stormwater Calculations 5 Given the site constraints, ݄ெ௫ி௧ was selected as 1.0 ݂ݐ. Together with the requirement to make the filter chamber and the sediment chamber proportionally sized yields the following calculations. ݄ெ௫ி௧ ൌ1.0 ݂ݐ ݄ ൌ ݄ெ௫ி௧ 2 ൌ 1 2 ൌ 0.50 ݂ݐ ݇ൌ4 ݂ݐ ݀ܽݕ ݐ ൌ 1.66 ݀ܽݕݏ ݀ி ൌ1.5 ݂ݐ ܣ ெିோ௨ௗ ൌቆ ሺܹܸܳሻሺ݀ி ሻ ሺ݇ሻሺݐሻሺ݄ ݀ி ሻቇൌቆ ሺ2,100ሻሺ1.0ሻ ሺ4ሻሺ1.66ሻሺ0.50 1.5 ሻቇ ൌ 237 ݂ݐ ଶ ܣ௦ ெିோ௨ௗ ൌ 0.066ܹܸܳ ൌ 0.066 ሺ2,100ሻ ൌ 139 ݂ݐ ଶ ܣ ௩ௗௗ ൌ 1,269 ሺ240 ݏܽ݊݀ሻ ݂ݐ ଶ ܣ ெିோ௨ௗ ܣ௦ ௩ௗௗ ൌ 1,269 ݂ݐ ଶ ܣ௦ ெିோ௨ௗ ቀܣ௦ ௩ௗௗ ܣ ௩ௗௗ ቁ ൌ 1,269 1,269 ൌ 2,538 ݂ݐ ଶ ቀܣ௦ ௩ௗௗ ܣ ௩ௗௗ ቁݔ݄ெ௫ி௧ ൌ ሺ2,538ሻሺ1.0ሻ ൌ 2,538 ݂ݐ ଷ ܹܸܳௗ 3.0 Results The pre- and post-construction peak runoff rates at each pre-construction outfall are summarized below for the storms requiring peak attenuation. Table 5 - Peak Runoff Rates for PRE-CONSTRUCTION:1 ࡿࢀࡻࡾࡹ ࡼࡾࡱ െ ࡻࡺ ቆ ࢌ࢚ ࢙ ቇ ࡼࡻࡿࢀ െ ࡻࡺ ቆ ࢌ࢚ ࢙ ቇ 1 year, 24 hour 0.25 0.25 Table 6 - Peak Runoff Rates for PRE-CONSTRUCTION:2 ࡿࢀࡻࡾࡹ ࡼࡾࡱ െ ࡻࡺ ቆ ࢌ࢚ ࢙ ቇ ࡼࡻࡿࢀ െ ࡻࡺ ቆ ࢌ࢚ ࢙ ቇ 1 year, 24 hour 0.08 0.08 BREC, P.A. Makson, Inc. | Stormwater Calculations 6 Appendix BREC, P.A. Makson, Inc. | Stormwater Calculations 7 Pre‐construction Routing BREC, P.A. Makson, Inc. | Stormwater Calculations 8 1 year, 24 hour Routing Project Description PRE-CON-ROUTING.SPF Project Options CFS Elevation SCS TR-55 User-Defined Hydrodynamic YES YES Analysis Options Nov 28, 2017 00:00:00 Nov 30, 2017 00:00:00 Nov 28, 2017 00:00:00 0 days 0 01:00:00 days hh:mm:ss 0 00:05:00 days hh:mm:ss 0 00:00:15 days hh:mm:ss 15 seconds Number of Elements Qty 1 2 2 0 2 0 0 0 0 0 0 0 0 0 0 0 0 Rainfall Details SN Rain Gage Data Data Source Rainfall Rain State County Return Rainfall Rainfall ID Source ID Type Units Period Depth Distribution (years)(inches) 1 SALISBURY Time Series 1YR-24HR Cumulative inches North Carolina Rowan 1 2.75 SCS Type II 24-hr Orifices ................................................... Weirs ...................................................... Outlets ................................................... Pollutants ........................................................ Land Uses ...................................................... Inlets ...................................................... Storage Nodes ....................................... Links................................................................ Channels ................................................ Pipes ...................................................... Pumps .................................................... Rain Gages .................................................... Subbasins........................................................ Nodes.............................................................. Junctions ................................................ Outfalls ................................................... Flow Diversions ..................................... Start Reporting On ......................................... Antecedent Dry Days ...................................... Runoff (Dry Weather) Time Step ................... Runoff (Wet Weather) Time Step .................. Reporting Time Step ...................................... Routing Time Step .......................................... Time of Concentration (TOC) Method ............ Link Routing Method ...................................... Enable Overflow Ponding at Nodes ............... Skip Steady State Analysis Time Periods ...... Start Analysis On ............................................ End Analysis On ............................................. File Name ....................................................... Description .....................................................Z:\CURRENT_PROJECTS\310_SCOTT_MITCHELL\3100042017_MAKSON_HEADQUARTERS\PRODUCTION_DW GS\3100042017_C100-STORMWATER.dwg Flow Units ....................................................... Elevation Type ................................................ Hydrology Method .......................................... Subbasin Summary SN Subbasin Area Weighted Total Total Total Peak Time of ID Curve Rainfall Runoff Runoff Runoff Concentration Number Volume (ac)(in)(in)(ac-in)(cfs)(days hh:mm:ss) 1 {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 1 6.97 56.00 2.75 0.15 1.07 0.25 0 00:30:00 2 {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 2 1.46 55.70 2.75 0.15 0.21 0.08 0 00:10:00 Node Summary SN Element Element Invert Ground/Rim Initial Surcharge Ponded Peak Max HGL Max Min Time of Total Total Time ID Type Elevation (Max)Water Elevation Area Inflow Elevation Surcharge Freeboard Peak Flooded Flooded Elevation Elevation Attained Depth Attained Flooding Volume Attained Occurrence (ft)(ft)(ft)(ft)(ft²)(cfs)(ft)(ft)(ft)(days hh:mm)(ac-in)(min) 1 DOWNSTREAM Outfall 764.00 0.00 0.00 2 UPSTREAM Outfall 774.00 0.00 0.00 Subbasin Hydrology Subbasin : {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 1 Input Data Area (ac) .....................................................6.97 Weighted Curve Number ............................56.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -6.97 -56.00 Composite Area & Weighted CN 6.97 56.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.15 Peak Runoff (cfs) ........................................0.25 Weighted Curve Number ............................56.00 Time of Concentration (days hh:mm:ss) .....0 00:30:00 Subbasin : {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 1 Subbasin : {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 2 Input Data Area (ac) .....................................................1.46 Weighted Curve Number ............................55.70 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -1.46 -55.70 Composite Area & Weighted CN 1.46 55.70 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.15 Peak Runoff (cfs) ........................................0.08 Weighted Curve Number ............................55.70 Time of Concentration (days hh:mm:ss) .....0 00:10:00 Subbasin : {PRE-CONSTRUCTION}.PRE-CONSTRUCTION : 2 BREC, P.A. Makson, Inc. | Stormwater Calculations 9 Post‐construction Routing BREC, P.A. Makson, Inc. | Stormwater Calculations 10 First Flush (1”) Project Description POST-CON-ROUTING-EXPANSION-BALANCED.SPF Project Options CFS Elevation SCS TR-55 User-Defined Hydrodynamic YES YES Analysis Options Nov 28, 2017 00:00:00 Dec 01, 2017 00:00:00 Nov 28, 2017 00:00:00 0 days 0 01:00:00 days hh:mm:ss 0 00:05:00 days hh:mm:ss 0 00:00:15 days hh:mm:ss 15 seconds Number of Elements Qty 1 12 12 4 2 0 4 2 14 0 8 0 2 2 2 0 0 Rainfall Details SN Rain Gage Data Data Source Rainfall Rain State County Return Rainfall Rainfall ID Source ID Type Units Period Depth Distribution (years)(inches) 1 SALISBURY Time Series 1IN-6HR-BALANCED Cumulative inches User Defined Orifices ................................................................. Weirs .................................................................... Outlets .................................................................. Pollutants ...................................................................... Land Uses ..................................................................... Inlets ..................................................................... Storage Nodes ..................................................... Links.............................................................................. Channels .............................................................. Pipes .................................................................... Pumps .................................................................. Rain Gages ................................................................... Subbasins...................................................................... Nodes............................................................................ Junctions .............................................................. Outfalls ................................................................. Flow Diversions .................................................... Start Reporting On ........................................................ Antecedent Dry Days .................................................... Runoff (Dry Weather) Time Step .................................. Runoff (Wet Weather) Time Step ................................. Reporting Time Step ..................................................... Routing Time Step ........................................................ Time of Concentration (TOC) Method .......................... Link Routing Method ..................................................... Enable Overflow Ponding at Nodes .............................. Skip Steady State Analysis Time Periods ..................... Start Analysis On .......................................................... End Analysis On ........................................................... File Name ..................................................................... Description ....................................................................Z:\CURRENT_PROJECTS\310_SCOTT_MITCHELL\3100042017_MAKSON_HEADQUARTERS\PROD UCTION_DWGS\3100042017_C100-STORMWATER.dwg Flow Units ..................................................................... Elevation Type .............................................................. Hydrology Method ......................................................... Subbasin Summary SN Subbasin Area Weighted Total Total Total Peak Time of ID Curve Rainfall Runoff Runoff Runoff Concentration Number Volume (ac)(in)(in)(ac-in)(cfs)(days hh:mm:ss) 1 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 0.82 96.77 1.00 0.69 0.56 1.42 0 00:05:00 2 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 3.74 77.22 1.00 0.05 0.18 0.12 0 00:25:00 3 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 0.24 99.57 1.00 0.95 0.23 0.51 0 00:05:00 4 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 0.83 98.45 1.00 0.83 0.69 1.64 0 00:05:00 5 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 0.09 77.22 1.00 0.05 0.00 0.00 0 00:05:00 6 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 0.35 96.94 1.00 0.70 0.24 0.60 0 00:05:00 7 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 0.22 96.92 1.00 0.70 0.15 0.38 0 00:05:00 8 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 0.70 99.57 1.00 0.95 0.66 1.45 0 00:05:00 9 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 0.69 77.22 1.00 0.05 0.03 0.03 0 00:05:00 10 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 1.05 77.22 1.00 0.05 0.05 0.05 0 00:05:00 11 POST-CONSTRUCTION : 11 0.22 77.22 1.00 0.05 0.01 0.01 0 00:05:00 12 POST-CONSTRUCTION : 7A 0.37 99.57 1.00 0.95 0.35 0.77 0 00:05:00 Node Summary SN Element Element Invert Ground/Rim Initial Surcharge Ponded Peak Max HGL Max Min ID Type Elevation (Max)Water Elevation Area Inflow Elevation Surcharge Freeboard Elevation Elevation Attained Depth Attained Attained (ft)(ft)(ft)(ft)(ft²)(cfs)(ft)(ft)(ft) 1 BMP-RISER-DOWN Junction 773.50 780.00 773.50 0.00 0.00 0.08 773.58 0.00 6.42 2 BMP-RISER-UP Junction 775.50 782.00 775.50 0.00 0.00 0.02 775.54 0.00 6.46 3 SITE-OUTLET-JUNCTION-DOWN Junction 773.00 780.00 773.00 0.00 0.00 0.19 773.07 0.00 6.93 4 SITE-OUTLET-JUNCTION-UP Junction 775.25 782.00 775.25 0.00 0.00 0.05 775.31 0.00 6.69 5 DOWNSTREAM Outfall 764.00 0.19 764.07 6 UPSTREAM Outfall 775.00 0.05 775.06 7 SAND-FILTER-DOWN Storage Node 776.00 780.00 776.00 0.00 5.33 776.99 8 SAND-FILTER-UP Storage Node 778.00 782.00 778.00 0.00 1.42 778.67 Link Summary SN Element Element From To (Outlet)Length Inlet Outlet Average Diameter or Manning's Peak Design Flow Peak Flow/Peak Flow Peak Flow ID Type (Inlet)Node Invert Invert Slope Height Roughness Flow Capacity Design Flow Velocity Depth Node Elevation Elevation Ratio (ft)(ft)(ft)(%)(in)(cfs)(cfs)(ft/sec)(ft) 1 BMP-BARREL-DOWN Pipe BMP-RISER-DOWN SITE-OUTLET-JUNCTION-DOWN 20.00 773.50 773.00 2.5000 18.000 0.0120 0.08 17.99 0.00 3.06 0.07 2 BMP-BARREL-UP Pipe BMP-RISER-UP SITE-OUTLET-JUNCTION-UP 20.00 775.50 775.25 1.2500 18.000 0.0120 0.02 12.72 0.00 1.37 0.05 3 PIPE - 1 Pipe YARD INLET - 2 DROP INLET - 1 92.75 784.50 784.00 0.5400 15.000 0.0120 0.00 5.14 0.00 0.81 0.11 4 PIPE - 2 Pipe YARD INLET - 1 DROP INLET - 1 41.71 784.50 784.00 1.2000 15.000 0.0120 0.60 7.66 0.08 3.45 0.25 5 PIPE - 3 Pipe DROP INLET - 1 CURB INLET - 1 242.58 783.90 781.40 1.0300 15.000 0.0120 0.97 7.10 0.14 2.42 0.46 6 PIPE - 4 Pipe CURB INLET - 1 SAND-FILTER-DOWN 138.42 781.30 780.50 0.5800 24.000 0.0120 4.07 18.63 0.22 4.43 0.67 7 SITE-OUTLET-LINK-DOWN Pipe SITE-OUTLET-JUNCTION-DOWN DOWNSTREAM 100.00 773.00 764.00 9.0000 36.000 0.0120 0.19 216.77 0.00 4.68 0.07 8 SITE-OUTLET-LINK-UP Pipe SITE-OUTLET-JUNCTION-UP UPSTREAM 20.00 775.25 775.00 1.2500 36.000 0.0120 0.05 80.79 0.00 1.49 0.06 9 PRINCIPAL-SPILLWAY-DOWN Orifice SAND-FILTER-DOWN BMP-RISER-DOWN 776.00 773.50 36.000 0.00 10 PRINCIPAL-SPILLWAY-UP Orifice SAND-FILTER-UP BMP-RISER-UP 778.00 775.50 36.000 0.00 11 FILTER-MEDIA-DOWN Outlet SAND-FILTER-DOWN BMP-RISER-DOWN 776.00 773.50 0.08 12 FILTER-MEDIA-UP Outlet SAND-FILTER-UP BMP-RISER-UP 778.00 775.50 0.02 13 EMERGENCY-SPILLWAY-DOWN Weir SAND-FILTER-DOWN SITE-OUTLET-JUNCTION-DOWN 776.00 773.00 0.00 14 EMERGENCY-SPILLWAY-UP Weir SAND-FILTER-UP SITE-OUTLET-JUNCTION-UP 778.00 775.25 0.00 Inlet Summary SN Element Inlet Manufacturer Inlet Number of Catchbasin Max (Rim)Initial Ponded Peak Peak Flow Peak Flow Inlet Allowable Max Gutter Max Gutter ID Manufacturer Part Location Inlets Invert Elevation Water Area Flow Intercepted Bypassing Efficiency Spread Spread Water Elev. Number Elevation Elevation by Inlet during Peak during Peak during Peak Inlet Flow Flow Flow (ft)(ft)(ft)(ft²)(cfs)(cfs)(cfs)(%)(ft)(ft)(ft) 1 CURB INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 781.30 787.50 781.30 10.00 3.09 N/A N/A N/A 7.00 5.08 788.74 2 DROP INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 783.90 789.50 783.90 10.00 0.38 N/A N/A N/A 7.00 1.28 789.57 3 YARD INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 787.50 784.50 10.00 0.60 N/A N/A N/A 7.00 2.04 787.62 4 YARD INLET - 2 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 788.50 784.50 10.00 0.00 N/A N/A N/A 7.00 0.01 788.50 Subbasin Hydrology Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 Input Data Area (ac) .....................................................0.82 Weighted Curve Number ............................96.77 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.82 -96.77 Composite Area & Weighted CN 0.82 96.77 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.69 Peak Runoff (cfs) ........................................1.42 Weighted Curve Number ............................96.77 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 Input Data Area (ac) .....................................................3.74 Weighted Curve Number ............................77.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -3.74 -77.22 Composite Area & Weighted CN 3.74 77.22 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.05 Peak Runoff (cfs) ........................................0.12 Weighted Curve Number ............................77.22 Time of Concentration (days hh:mm:ss) .....0 00:25:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 Input Data Area (ac) .....................................................0.24 Weighted Curve Number ............................99.57 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.24 -99.57 Composite Area & Weighted CN 0.24 99.57 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.95 Peak Runoff (cfs) ........................................0.51 Weighted Curve Number ............................99.57 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 Input Data Area (ac) .....................................................0.83 Weighted Curve Number ............................98.45 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.83 -98.45 Composite Area & Weighted CN 0.83 98.45 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.83 Peak Runoff (cfs) ........................................1.64 Weighted Curve Number ............................98.45 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 Input Data Area (ac) .....................................................0.09 Weighted Curve Number ............................77.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.09 -77.22 Composite Area & Weighted CN 0.09 77.22 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.05 Peak Runoff (cfs) ........................................0.00 Weighted Curve Number ............................77.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 Input Data Area (ac) .....................................................0.35 Weighted Curve Number ............................96.94 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.35 -96.94 Composite Area & Weighted CN 0.35 96.94 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.70 Peak Runoff (cfs) ........................................0.60 Weighted Curve Number ............................96.94 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 Input Data Area (ac) .....................................................0.22 Weighted Curve Number ............................96.92 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.22 -96.92 Composite Area & Weighted CN 0.22 96.92 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.70 Peak Runoff (cfs) ........................................0.38 Weighted Curve Number ............................96.92 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 Input Data Area (ac) .....................................................0.70 Weighted Curve Number ............................99.57 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.70 -99.57 Composite Area & Weighted CN 0.70 99.57 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.95 Peak Runoff (cfs) ........................................1.45 Weighted Curve Number ............................99.57 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 Input Data Area (ac) .....................................................0.69 Weighted Curve Number ............................77.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.69 -77.22 Composite Area & Weighted CN 0.69 77.22 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.05 Peak Runoff (cfs) ........................................0.03 Weighted Curve Number ............................77.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 Input Data Area (ac) .....................................................1.05 Weighted Curve Number ............................77.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -1.05 -77.22 Composite Area & Weighted CN 1.05 77.22 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.05 Peak Runoff (cfs) ........................................0.05 Weighted Curve Number ............................77.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 Subbasin : POST-CONSTRUCTION : 11 Input Data Area (ac) .....................................................0.22 Weighted Curve Number ............................77.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.22 -77.22 Composite Area & Weighted CN 0.22 77.22 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.05 Peak Runoff (cfs) ........................................0.01 Weighted Curve Number ............................77.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : POST-CONSTRUCTION : 11 Subbasin : POST-CONSTRUCTION : 7A Input Data Area (ac) .....................................................0.37 Weighted Curve Number ............................99.57 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.35 -99.57 Composite Area & Weighted CN 0.35 99.57 Subbasin Runoff Results Total Rainfall (in) .........................................1.00 Total Runoff (in) ..........................................0.95 Peak Runoff (cfs) ........................................0.77 Weighted Curve Number ............................99.57 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : POST-CONSTRUCTION : 7A Junction Input SN Element Invert Ground/Rim Ground/Rim Initial Initial Surcharge Surcharge Ponded Minimum ID Elevation (Max)(Max)Water Water Elevation Depth Area Pipe Elevation Offset Elevation Depth Cover (ft)(ft)(ft)(ft)(ft)(ft)(ft)(ft²)(in) 1 BMP-RISER-DOWN 773.50 780.00 6.50 773.50 0.00 0.00 -780.00 0.00 0.00 2 BMP-RISER-UP 775.50 782.00 6.50 775.50 0.00 0.00 -782.00 0.00 0.00 3 SITE-OUTLET-JUNCTION-DOWN 773.00 780.00 7.00 773.00 0.00 0.00 -780.00 0.00 0.00 4 SITE-OUTLET-JUNCTION-UP 775.25 782.00 6.75 775.25 0.00 0.00 -782.00 0.00 0.00 Junction Results SN Element Peak Peak Max HGL Max HGL Max Min Average HGL Average HGL Time of Time of Total Total Time ID Inflow Lateral Elevation Depth Surcharge Freeboard Elevation Depth Max HGL Peak Flooded Flooded Inflow Attained Attained Depth Attained Attained Attained Occurrence Flooding Volume Attained Occurrence (cfs)(cfs)(ft)(ft)(ft)(ft)(ft)(ft)(days hh:mm)(days hh:mm)(ac-in)(min) 1 BMP-RISER-DOWN 0.08 0.00 773.58 0.08 0.00 6.42 773.54 0.04 0 06:45 0 00:00 0.00 0.00 2 BMP-RISER-UP 0.02 0.00 775.54 0.04 0.00 6.46 775.53 0.03 0 06:10 0 00:00 0.00 0.00 3 SITE-OUTLET-JUNCTION-DOWN 0.19 0.12 773.07 0.07 0.00 6.93 773.02 0.02 0 03:35 0 00:00 0.00 0.00 4 SITE-OUTLET-JUNCTION-UP 0.05 0.03 775.31 0.06 0.00 6.69 775.27 0.02 0 03:13 0 00:00 0.00 0.00 Pipe Input SN Element Length Inlet Inlet Outlet Outlet Total Average Pipe Pipe Pipe Manning's Entrance Exit/Bend Additional Initial ID Invert Invert Invert Invert Drop Slope Shape Diameter or Width Roughness Losses Losses Losses Flow Elevation Offset Elevation Offset Height (ft)(ft)(ft)(ft)(ft)(ft)(%)(in)(in)(cfs) 1 BMP-BARREL-DOWN 20.00 773.50 0.00 773.00 0.00 0.50 2.5000 CIRCULAR 18.000 18.000 0.0120 0.5000 0.5000 0.0000 0.00 2 BMP-BARREL-UP 20.00 775.50 0.00 775.25 0.00 0.25 1.2500 CIRCULAR 18.000 18.000 0.0120 0.5000 0.5000 0.0000 0.00 3 PIPE - 1 92.75 784.50 0.00 784.00 0.10 0.50 0.5400 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 4 PIPE - 2 41.71 784.50 0.00 784.00 0.10 0.50 1.2000 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 5 PIPE - 3 242.58 783.90 0.00 781.40 0.10 2.50 1.0300 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 6 PIPE - 4 138.42 781.30 0.00 780.50 4.50 0.80 0.5800 CIRCULAR 24.000 24.000 0.0120 0.5000 0.5000 0.0000 0.00 7 SITE-OUTLET-LINK-DOWN 100.00 773.00 0.00 764.00 0.00 9.00 9.0000 CIRCULAR 36.000 36.000 0.0120 0.5000 0.5000 0.0000 0.00 8 SITE-OUTLET-LINK-UP 20.00 775.25 0.00 775.00 0.00 0.25 1.2500 CIRCULAR 36.000 36.000 0.0120 0.5000 0.5000 0.0000 0.00 Flap No. of Gate Barrels No 1 No 1 No 1 No 1 No 1 No 1 No 1 No 1 Pipe Results SN Element Peak Time of Design Flow Peak Flow/Peak Flow Travel Peak Flow Peak Flow Total Time Froude Reported ID Flow Peak Flow Capacity Design Flow Velocity Time Depth Depth/Surcharged Number Condition Occurrence Ratio Total Depth Ratio (cfs)(days hh:mm)(cfs)(ft/sec)(min)(ft)(min) 1 BMP-BARREL-DOWN 0.08 0 06:05 17.99 0.00 3.06 0.11 0.07 0.05 0.00 Calculated 2 BMP-BARREL-UP 0.02 0 04:55 12.72 0.00 1.37 0.24 0.05 0.03 0.00 Calculated 3 PIPE - 1 0.00 0 03:22 5.14 0.00 0.81 1.91 0.11 0.08 0.00 Calculated 4 PIPE - 2 0.60 0 03:06 7.66 0.08 3.45 0.20 0.25 0.20 0.00 Calculated 5 PIPE - 3 0.97 0 03:06 7.10 0.14 2.42 1.67 0.46 0.37 0.00 Calculated 6 PIPE - 4 4.07 0 03:06 18.63 0.22 4.43 0.52 0.67 0.34 0.00 Calculated 7 SITE-OUTLET-LINK-DOWN 0.19 0 03:35 216.77 0.00 4.68 0.36 0.07 0.02 0.00 Calculated 8 SITE-OUTLET-LINK-UP 0.05 0 03:13 80.79 0.00 1.49 0.22 0.06 0.02 0.00 Calculated Inlet Input SN Element Inlet Manufacturer Inlet Number of Catchbasin Max (Rim)Inlet Initial Initial Ponded Grate ID Manufacturer Part Location Inlets Invert Elevation Depth Water Water Area Clogging Number Elevation Elevation Depth Factor (ft)(ft)(ft)(ft)(ft)(ft²)(%) 1 CURB INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 781.30 787.50 6.20 781.30 0.00 10.00 0.00 2 DROP INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 783.90 789.50 5.60 783.90 0.00 10.00 0.00 3 YARD INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 787.50 3.00 784.50 0.00 10.00 0.00 4 YARD INLET - 2 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 788.50 4.00 784.50 0.00 10.00 0.00 Roadway & Gutter Input SN Element Roadway Roadway Roadway Gutter Gutter Gutter Allowable ID Longitudinal Cross Manning's Cross Width Depression Spread Slope Slope Roughness Slope (ft/ft)(ft/ft)(ft/ft)(ft)(in)(ft) 1 CURB INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 2 DROP INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 3 YARD INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 4 YARD INLET - 2 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 Inlet Results SN Element Peak Peak Peak Flow Peak Flow Inlet Max Gutter Max Gutter Max Gutter Time of Total Total Time ID Flow Lateral Intercepted Bypassing Efficiency Spread Water Elev.Water Depth Max Depth Flooded Flooded Inflow by Inlet during Peak during Peak during Peak during Peak Occurrence Volume Inlet Flow Flow Flow Flow (cfs)(cfs)(cfs)(cfs)(%)(ft)(ft)(ft)(days hh:mm)(ac-in)(min) 1 CURB INLET - 1 3.09 3.09 N/A N/A N/A 5.08 788.74 1.24 0 03:06 0.00 0.00 2 DROP INLET - 1 0.38 0.38 N/A N/A N/A 1.28 789.57 0.07 0 03:06 0.00 0.00 3 YARD INLET - 1 0.60 0.60 N/A N/A N/A 2.04 787.62 0.12 0 03:06 0.00 0.00 4 YARD INLET - 2 0.00 0.00 N/A N/A N/A 0.01 788.50 0.00 0 03:22 0.00 0.00 Storage Nodes Storage Node : SAND-FILTER-DOWN Input Data 776.00 780.00 4.00 776.00 0.00 0.00 0.00 Storage Area Volume Curves Storage Curve : SAND-FILTER-DOWN Stage Storage Storage Area Volume (ft)(ft²)(ft³) 0 7213 0.000 1 8419 7816.00 2 9681 16866.00 3 11000 27206.50 4 12376 38894.50 Evaporation Loss ...................................................................................................... Invert Elevation (ft) .................................................................................................... Max (Rim) Elevation (ft) ............................................................................................ Max (Rim) Offset (ft) ................................................................................................. Initial Water Elevation (ft) ......................................................................................... Initial Water Depth (ft) ............................................................................................... Ponded Area (ft²) ...................................................................................................... Storage Node : SAND-FILTER-DOWN (continued) Outflow Weirs SN Element Weir Flap Crest Crest Length Weir Total Discharge ID Type Gate Elevation Offset Height Coefficient (ft)(ft)(ft)(ft) 1 EMERGENCY-SPILLWAY-DOWN Trapezoidal No 779.00 3.00 30.00 1.00 3.33 Outflow Orifices SN Element Orifice Orifice Flap Circular Rectangular Rectangular Orifice Orifice ID Type Shape Gate Orifice Orifice Orifice Invert Coefficient Diameter Height Width Elevation (in)(in)(in)(ft) 1 PRINCIPAL-SPILLWAY-DOWN Side Rectangular No 36.00 36.00 778.50 0.63 Output Summary Results 5.33 1.28 0.08 0.00 776.99 0.99 776.27 0.27 0 06:03 0.000 0 0 0.00 Total Time Flooded (min) ......................................................................................... Total Retention Time (sec) ....................................................................................... Max HGL Depth Attained (ft) .................................................................................... Average HGL Elevation Attained (ft) ......................................................................... Average HGL Depth Attained (ft) .............................................................................. Time of Max HGL Occurrence (days hh:mm) .......................................................... Total Exfiltration Volume (1000-ft³) ........................................................................... Total Flooded Volume (ac-in) ................................................................................... Peak Inflow (cfs) ....................................................................................................... Peak Lateral Inflow (cfs) ........................................................................................... Peak Outflow (cfs) .................................................................................................... Peak Exfiltration Flow Rate (cfm) ............................................................................. Max HGL Elevation Attained (ft) ............................................................................... Storage Node : SAND-FILTER-UP Input Data 778.00 782.00 4.00 778.00 0.00 0.00 0.00 Storage Area Volume Curves Storage Curve : SAND-FILTER-UP Stage Storage Storage Area Volume (ft)(ft²)(ft³) 0 2539 0.000 1 3372 2955.50 2 4261 6772.00 3 5206 11505.50 4 6209 17213.00 Initial Water Depth (ft) ............................................................................................... Ponded Area (ft²) ...................................................................................................... Evaporation Loss ...................................................................................................... Invert Elevation (ft) .................................................................................................... Max (Rim) Elevation (ft) ............................................................................................ Max (Rim) Offset (ft) ................................................................................................. Initial Water Elevation (ft) ......................................................................................... Storage Node : SAND-FILTER-UP (continued) Outflow Weirs SN Element Weir Flap Crest Crest Length Weir Total Discharge ID Type Gate Elevation Offset Height Coefficient (ft)(ft)(ft)(ft) 1 EMERGENCY-SPILLWAY-UP Trapezoidal No 781.00 3.00 20.00 1.00 3.33 Outflow Orifices SN Element Orifice Orifice Flap Circular Rectangular Rectangular Orifice Orifice ID Type Shape Gate Orifice Orifice Orifice Invert Coefficient Diameter Height Width Elevation (in)(in)(in)(ft) 1 PRINCIPAL-SPILLWAY-UP Bottom Rectangular No 36.00 36.00 780.50 0.63 Output Summary Results 1.42 1.42 0.02 0.00 778.67 0.67 778.21 0.21 0 06:03 0.000 0 0 0.00 Total Exfiltration Volume (1000-ft³) ........................................................................... Total Flooded Volume (ac-in) ................................................................................... Total Time Flooded (min) ......................................................................................... Total Retention Time (sec) ....................................................................................... Peak Exfiltration Flow Rate (cfm) ............................................................................. Max HGL Elevation Attained (ft) ............................................................................... Max HGL Depth Attained (ft) .................................................................................... Average HGL Elevation Attained (ft) ......................................................................... Average HGL Depth Attained (ft) .............................................................................. Time of Max HGL Occurrence (days hh:mm) .......................................................... Peak Inflow (cfs) ....................................................................................................... Peak Lateral Inflow (cfs) ........................................................................................... Peak Outflow (cfs) .................................................................................................... BREC, P.A. Makson, Inc. | Stormwater Calculations 11 1 year, 24 hour Routing Project Description POST-CON-ROUTING-EXPANSION.SPF Project Options CFS Elevation SCS TR-55 User-Defined Hydrodynamic YES YES Analysis Options Nov 28, 2017 00:00:00 Dec 01, 2017 00:00:00 Nov 28, 2017 00:00:00 0 days 0 01:00:00 days hh:mm:ss 0 00:05:00 days hh:mm:ss 0 00:00:15 days hh:mm:ss 15 seconds Number of Elements Qty 1 12 12 4 2 0 4 2 14 0 8 0 2 2 2 0 0 Rainfall Details SN Rain Gage Data Data Source Rainfall Rain State County Return Rainfall Rainfall ID Source ID Type Units Period Depth Distribution (years)(inches) 1 SALISBURY Time Series 1YR-24HR Cumulative inches North Carolina Rowan 1 2.75 SCS Type II 24-hr Orifices ................................................... Weirs ...................................................... Outlets ................................................... Pollutants ........................................................ Land Uses ...................................................... Inlets ...................................................... Storage Nodes ....................................... Links................................................................ Channels ................................................ Pipes ...................................................... Pumps .................................................... Rain Gages .................................................... Subbasins........................................................ Nodes.............................................................. Junctions ................................................ Outfalls ................................................... Flow Diversions ..................................... Start Reporting On ......................................... Antecedent Dry Days ...................................... Runoff (Dry Weather) Time Step ................... Runoff (Wet Weather) Time Step .................. Reporting Time Step ...................................... Routing Time Step .......................................... Time of Concentration (TOC) Method ............ Link Routing Method ...................................... Enable Overflow Ponding at Nodes ............... Skip Steady State Analysis Time Periods ...... Start Analysis On ............................................ End Analysis On ............................................. File Name ....................................................... Description .....................................................Z:\CURRENT_PROJECTS\310_SCOTT_MITCHELL\3100042017_MAKSON_HEADQUARTERS\PRODUCTION_DW GS\3100042017_C100-STORMWATER.dwg Flow Units ....................................................... Elevation Type ................................................ Hydrology Method .......................................... Subbasin Summary SN Subbasin Area Weighted Total Total Total Peak Time of ID Curve Rainfall Runoff Runoff Runoff Concentration Number Volume (ac)(in)(in)(ac-in)(cfs)(days hh:mm:ss) 1 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 0.82 87.22 2.75 1.54 1.27 2.02 0 00:05:00 2 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 3.74 56.17 2.75 0.16 0.59 0.15 0 00:25:00 3 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 0.24 98.00 2.75 2.52 0.61 0.87 0 00:05:00 4 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 0.83 93.18 2.75 2.03 1.69 2.60 0 00:05:00 5 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 0.09 61.00 2.75 0.27 0.03 0.03 0 00:05:00 6 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 0.35 87.76 2.75 1.58 0.54 0.87 0 00:05:00 7 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 0.22 96.92 2.75 2.40 0.52 0.76 0 00:05:00 8 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 0.70 98.00 2.75 2.52 1.76 2.48 0 00:05:00 9 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 0.69 56.00 2.75 0.15 0.11 0.06 0 00:05:00 10 {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 1.05 60.22 2.75 0.25 0.27 0.28 0 00:05:00 11 POST-CONSTRUCTION : 11 0.22 61.00 2.75 0.28 0.06 0.07 0 00:05:00 12 POST-CONSTRUCTION : 7A 0.37 98.00 2.75 2.52 0.93 1.32 0 00:05:00 Node Summary SN Element Element Invert Ground/Rim Initial Surcharge Ponded Peak Max HGL Max Min ID Type Elevation (Max)Water Elevation Area Inflow Elevation Surcharge Freeboard Elevation Elevation Attained Depth Attained Attained (ft)(ft)(ft)(ft)(ft²)(cfs)(ft)(ft)(ft) 1 BMP-RISER-DOWN Junction 773.50 780.00 773.50 0.00 0.00 0.11 773.60 0.00 6.40 2 BMP-RISER-UP Junction 775.50 782.00 775.50 0.00 0.00 0.02 775.55 0.00 6.45 3 SITE-OUTLET-JUNCTION-DOWN Junction 773.00 780.00 773.00 0.00 0.00 0.25 773.08 0.00 6.92 4 SITE-OUTLET-JUNCTION-UP Junction 775.25 782.00 775.25 0.00 0.00 0.08 775.32 0.00 6.68 5 DOWNSTREAM Outfall 764.00 0.25 764.08 6 UPSTREAM Outfall 775.00 0.08 775.07 7 SAND-FILTER-DOWN Storage Node 776.00 780.00 776.00 0.00 8.96 778.08 8 SAND-FILTER-UP Storage Node 778.00 782.00 778.00 0.00 2.05 779.27 Link Summary SN Element Element From To (Outlet)Length Inlet Outlet Average Diameter or Manning's Peak Design Flow Peak Flow/Peak Flow Peak Flow ID Type (Inlet)Node Invert Invert Slope Height Roughness Flow Capacity Design Flow Velocity Depth Node Elevation Elevation Ratio (ft)(ft)(ft)(%)(in)(cfs)(cfs)(ft/sec)(ft) 1 BMP-BARREL-DOWN Pipe BMP-RISER-DOWN SITE-OUTLET-JUNCTION-DOWN 20.00 773.50 773.00 2.5000 18.000 0.0120 0.11 17.99 0.01 3.31 0.08 2 BMP-BARREL-UP Pipe BMP-RISER-UP SITE-OUTLET-JUNCTION-UP 20.00 775.50 775.25 1.2500 18.000 0.0120 0.02 12.72 0.00 1.45 0.06 3 PIPE - 1 Pipe YARD INLET - 2 DROP INLET - 1 92.75 784.50 784.00 0.5400 15.000 0.0120 0.03 5.14 0.01 0.92 0.17 4 PIPE - 2 Pipe YARD INLET - 1 DROP INLET - 1 41.71 784.50 784.00 1.2000 15.000 0.0120 0.87 7.66 0.11 3.61 0.31 5 PIPE - 3 Pipe DROP INLET - 1 CURB INLET - 1 242.58 783.90 781.40 1.0300 15.000 0.0120 1.62 7.10 0.23 2.67 0.62 6 PIPE - 4 Pipe CURB INLET - 1 SAND-FILTER-DOWN 138.42 781.30 780.50 0.5800 24.000 0.0120 6.67 18.63 0.36 5.00 0.88 7 SITE-OUTLET-LINK-DOWN Pipe SITE-OUTLET-JUNCTION-DOWN DOWNSTREAM 100.00 773.00 764.00 9.0000 36.000 0.0120 0.25 216.77 0.00 5.03 0.08 8 SITE-OUTLET-LINK-UP Pipe SITE-OUTLET-JUNCTION-UP UPSTREAM 20.00 775.25 775.00 1.2500 36.000 0.0120 0.08 80.79 0.00 1.73 0.07 9 PRINCIPAL-SPILLWAY-DOWN Orifice SAND-FILTER-DOWN BMP-RISER-DOWN 776.00 773.50 36.000 0.00 10 PRINCIPAL-SPILLWAY-UP Orifice SAND-FILTER-UP BMP-RISER-UP 778.00 775.50 36.000 0.00 11 FILTER-MEDIA-DOWN Outlet SAND-FILTER-DOWN BMP-RISER-DOWN 776.00 773.50 0.11 12 FILTER-MEDIA-UP Outlet SAND-FILTER-UP BMP-RISER-UP 778.00 775.50 0.02 13 EMERGENCY-SPILLWAY-DOWN Weir SAND-FILTER-DOWN SITE-OUTLET-JUNCTION-DOWN 776.00 773.00 0.00 14 EMERGENCY-SPILLWAY-UP Weir SAND-FILTER-UP SITE-OUTLET-JUNCTION-UP 778.00 775.25 0.00 Inlet Summary SN Element Inlet Manufacturer Inlet Number of Catchbasin Max (Rim)Initial Ponded Peak Peak Flow Peak Flow Inlet Allowable Max Gutter Max Gutter ID Manufacturer Part Location Inlets Invert Elevation Water Area Flow Intercepted Bypassing Efficiency Spread Spread Water Elev. Number Elevation Elevation by Inlet during Peak during Peak during Peak Inlet Flow Flow Flow (ft)(ft)(ft)(ft²)(cfs)(cfs)(cfs)(%)(ft)(ft)(ft) 1 CURB INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 781.30 787.50 781.30 10.00 5.08 N/A N/A N/A 7.00 7.13 787.80 2 DROP INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 783.90 789.50 783.90 10.00 0.76 N/A N/A N/A 7.00 2.57 789.65 3 YARD INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 787.50 784.50 10.00 0.87 N/A N/A N/A 7.00 2.93 787.67 4 YARD INLET - 2 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 788.50 784.50 10.00 0.03 N/A N/A N/A 7.00 0.10 788.51 Subbasin Hydrology Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 Input Data Area (ac) .....................................................0.82 Weighted Curve Number ............................87.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.82 -87.22 Composite Area & Weighted CN 0.82 87.22 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................1.54 Peak Runoff (cfs) ........................................2.02 Weighted Curve Number ............................87.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 1 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 Input Data Area (ac) .....................................................3.74 Weighted Curve Number ............................56.17 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -3.74 -56.17 Composite Area & Weighted CN 3.74 56.17 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.16 Peak Runoff (cfs) ........................................0.15 Weighted Curve Number ............................56.17 Time of Concentration (days hh:mm:ss) .....0 00:25:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 10 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 Input Data Area (ac) .....................................................0.24 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.24 -98.00 Composite Area & Weighted CN 0.24 98.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................2.52 Peak Runoff (cfs) ........................................0.87 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 2 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 Input Data Area (ac) .....................................................0.83 Weighted Curve Number ............................93.18 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.83 -93.18 Composite Area & Weighted CN 0.83 93.18 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................2.03 Peak Runoff (cfs) ........................................2.60 Weighted Curve Number ............................93.18 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 3 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 Input Data Area (ac) .....................................................0.09 Weighted Curve Number ............................61.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.09 -61.00 Composite Area & Weighted CN 0.09 61.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.27 Peak Runoff (cfs) ........................................0.03 Weighted Curve Number ............................61.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 4 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 Input Data Area (ac) .....................................................0.35 Weighted Curve Number ............................87.76 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.35 -87.76 Composite Area & Weighted CN 0.35 87.76 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................1.58 Peak Runoff (cfs) ........................................0.87 Weighted Curve Number ............................87.76 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 5 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 Input Data Area (ac) .....................................................0.22 Weighted Curve Number ............................96.92 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.22 -96.92 Composite Area & Weighted CN 0.22 96.92 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................2.40 Peak Runoff (cfs) ........................................0.76 Weighted Curve Number ............................96.92 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 6 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 Input Data Area (ac) .....................................................0.70 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.70 -98.00 Composite Area & Weighted CN 0.70 98.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................2.52 Peak Runoff (cfs) ........................................2.48 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 7 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 Input Data Area (ac) .....................................................0.69 Weighted Curve Number ............................56.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.69 -56.00 Composite Area & Weighted CN 0.69 56.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.15 Peak Runoff (cfs) ........................................0.06 Weighted Curve Number ............................56.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 8 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 Input Data Area (ac) .....................................................1.05 Weighted Curve Number ............................60.22 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -1.05 -60.22 Composite Area & Weighted CN 1.05 60.22 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.25 Peak Runoff (cfs) ........................................0.28 Weighted Curve Number ............................60.22 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : {POST-CONSTRUCTION}.POST-CONSTRUCTION : 9 Subbasin : POST-CONSTRUCTION : 11 Input Data Area (ac) .....................................................0.22 Weighted Curve Number ............................61.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.22 -61.00 Composite Area & Weighted CN 0.22 61.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................0.28 Peak Runoff (cfs) ........................................0.07 Weighted Curve Number ............................61.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : POST-CONSTRUCTION : 11 Subbasin : POST-CONSTRUCTION : 7A Input Data Area (ac) .....................................................0.37 Weighted Curve Number ............................98.00 Rain Gage ID ...............................................SALISBURY Composite Curve Number Area Soil Curve Soil/Surface Description (acres)Group Number -0.35 -98.00 Composite Area & Weighted CN 0.35 98.00 Subbasin Runoff Results Total Rainfall (in) .........................................2.75 Total Runoff (in) ..........................................2.52 Peak Runoff (cfs) ........................................1.32 Weighted Curve Number ............................98.00 Time of Concentration (days hh:mm:ss) .....0 00:05:00 Subbasin : POST-CONSTRUCTION : 7A Junction Input SN Element Invert Ground/Rim Ground/Rim Initial Initial Surcharge Surcharge Ponded Minimum ID Elevation (Max)(Max)Water Water Elevation Depth Area Pipe Elevation Offset Elevation Depth Cover (ft)(ft)(ft)(ft)(ft)(ft)(ft)(ft²)(in) 1 BMP-RISER-DOWN 773.50 780.00 6.50 773.50 0.00 0.00 -780.00 0.00 0.00 2 BMP-RISER-UP 775.50 782.00 6.50 775.50 0.00 0.00 -782.00 0.00 0.00 3 SITE-OUTLET-JUNCTION-DOWN 773.00 780.00 7.00 773.00 0.00 0.00 -780.00 0.00 0.00 4 SITE-OUTLET-JUNCTION-UP 775.25 782.00 6.75 775.25 0.00 0.00 -782.00 0.00 0.00 Junction Results SN Element Peak Peak Max HGL Max HGL Max Min Average HGL Average HGL Time of Time of Total Total Time ID Inflow Lateral Elevation Depth Surcharge Freeboard Elevation Depth Max HGL Peak Flooded Flooded Inflow Attained Attained Depth Attained Attained Attained Occurrence Flooding Volume Attained Occurrence (cfs)(cfs)(ft)(ft)(ft)(ft)(ft)(ft)(days hh:mm)(days hh:mm)(ac-in)(min) 1 BMP-RISER-DOWN 0.11 0.00 773.60 0.10 0.00 6.40 773.58 0.08 1 00:44 0 00:00 0.00 0.00 2 BMP-RISER-UP 0.02 0.00 775.55 0.05 0.00 6.45 775.54 0.04 1 00:09 0 00:00 0.00 0.00 3 SITE-OUTLET-JUNCTION-DOWN 0.25 0.15 773.08 0.08 0.00 6.92 773.04 0.04 0 12:20 0 00:00 0.00 0.00 4 SITE-OUTLET-JUNCTION-UP 0.08 0.06 775.32 0.07 0.00 6.68 775.28 0.03 0 12:02 0 00:00 0.00 0.00 Pipe Input SN Element Length Inlet Inlet Outlet Outlet Total Average Pipe Pipe Pipe Manning's Entrance Exit/Bend Additional Initial ID Invert Invert Invert Invert Drop Slope Shape Diameter or Width Roughness Losses Losses Losses Flow Elevation Offset Elevation Offset Height (ft)(ft)(ft)(ft)(ft)(ft)(%)(in)(in)(cfs) 1 BMP-BARREL-DOWN 20.00 773.50 0.00 773.00 0.00 0.50 2.5000 CIRCULAR 18.000 18.000 0.0120 0.5000 0.5000 0.0000 0.00 2 BMP-BARREL-UP 20.00 775.50 0.00 775.25 0.00 0.25 1.2500 CIRCULAR 18.000 18.000 0.0120 0.5000 0.5000 0.0000 0.00 3 PIPE - 1 92.75 784.50 0.00 784.00 0.10 0.50 0.5400 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 4 PIPE - 2 41.71 784.50 0.00 784.00 0.10 0.50 1.2000 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 5 PIPE - 3 242.58 783.90 0.00 781.40 0.10 2.50 1.0300 CIRCULAR 15.000 15.000 0.0120 0.5000 0.5000 0.0000 0.00 6 PIPE - 4 138.42 781.30 0.00 780.50 4.50 0.80 0.5800 CIRCULAR 24.000 24.000 0.0120 0.5000 0.5000 0.0000 0.00 7 SITE-OUTLET-LINK-DOWN 100.00 773.00 0.00 764.00 0.00 9.00 9.0000 CIRCULAR 36.000 36.000 0.0120 0.5000 0.5000 0.0000 0.00 8 SITE-OUTLET-LINK-UP 20.00 775.25 0.00 775.00 0.00 0.25 1.2500 CIRCULAR 36.000 36.000 0.0120 0.5000 0.5000 0.0000 0.00 Flap No. of Gate Barrels No 1 No 1 No 1 No 1 No 1 No 1 No 1 No 1 Pipe Results SN Element Peak Time of Design Flow Peak Flow/Peak Flow Travel Peak Flow Peak Flow Total Time Froude Reported ID Flow Peak Flow Capacity Design Flow Velocity Time Depth Depth/Surcharged Number Condition Occurrence Ratio Total Depth Ratio (cfs)(days hh:mm)(cfs)(ft/sec)(min)(ft)(min) 1 BMP-BARREL-DOWN 0.11 0 19:58 17.99 0.01 3.31 0.10 0.08 0.05 0.00 Calculated 2 BMP-BARREL-UP 0.02 1 00:01 12.72 0.00 1.45 0.23 0.06 0.04 0.00 Calculated 3 PIPE - 1 0.03 0 12:02 5.14 0.01 0.92 1.68 0.17 0.14 0.00 Calculated 4 PIPE - 2 0.87 0 11:55 7.66 0.11 3.61 0.19 0.31 0.25 0.00 Calculated 5 PIPE - 3 1.62 0 11:56 7.10 0.23 2.67 1.51 0.62 0.50 0.00 Calculated 6 PIPE - 4 6.67 0 11:56 18.63 0.36 5.00 0.46 0.88 0.44 0.00 Calculated 7 SITE-OUTLET-LINK-DOWN 0.25 0 12:21 216.77 0.00 5.03 0.33 0.08 0.03 0.00 Calculated 8 SITE-OUTLET-LINK-UP 0.08 0 12:02 80.79 0.00 1.73 0.19 0.07 0.02 0.00 Calculated Inlet Input SN Element Inlet Manufacturer Inlet Number of Catchbasin Max (Rim)Inlet Initial Initial Ponded Grate ID Manufacturer Part Location Inlets Invert Elevation Depth Water Water Area Clogging Number Elevation Elevation Depth Factor (ft)(ft)(ft)(ft)(ft)(ft²)(%) 1 CURB INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 781.30 787.50 6.20 781.30 0.00 10.00 0.00 2 DROP INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 783.90 789.50 5.60 783.90 0.00 10.00 0.00 3 YARD INLET - 1 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 787.50 3.00 784.50 0.00 10.00 0.00 4 YARD INLET - 2 FHWA HEC-22 GENERIC N/A On Sag 1 784.50 788.50 4.00 784.50 0.00 10.00 0.00 Roadway & Gutter Input SN Element Roadway Roadway Roadway Gutter Gutter Gutter Allowable ID Longitudinal Cross Manning's Cross Width Depression Spread Slope Slope Roughness Slope (ft/ft)(ft/ft)(ft/ft)(ft)(in)(ft) 1 CURB INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 2 DROP INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 3 YARD INLET - 1 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 4 YARD INLET - 2 N/A 0.0500 0.0130 0.0620 2.00 0.0000 7.00 Inlet Results SN Element Peak Peak Peak Flow Peak Flow Inlet Max Gutter Max Gutter Max Gutter Time of Total Total Time ID Flow Lateral Intercepted Bypassing Efficiency Spread Water Elev.Water Depth Max Depth Flooded Flooded Inflow by Inlet during Peak during Peak during Peak during Peak Occurrence Volume Inlet Flow Flow Flow Flow (cfs)(cfs)(cfs)(cfs)(%)(ft)(ft)(ft)(days hh:mm)(ac-in)(min) 1 CURB INLET - 1 5.08 5.08 N/A N/A N/A 7.13 787.80 0.30 0 11:55 0.00 0.00 2 DROP INLET - 1 0.76 0.76 N/A N/A N/A 2.57 789.65 0.15 0 11:56 0.00 0.00 3 YARD INLET - 1 0.87 0.87 N/A N/A N/A 2.93 787.67 0.17 0 11:55 0.00 0.00 4 YARD INLET - 2 0.03 0.03 N/A N/A N/A 0.10 788.51 0.01 0 12:02 0.00 0.00 Storage Nodes Storage Node : SAND-FILTER-DOWN Input Data 776.00 780.00 4.00 776.00 0.00 0.00 0.00 Storage Area Volume Curves Storage Curve : SAND-FILTER-DOWN Stage Storage Storage Area Volume (ft)(ft²)(ft³) 0 7213 0.000 1 8419 7816.00 2 9681 16866.00 3 11000 27206.50 4 12376 38894.50 Evaporation Loss ...................................................................................................... Invert Elevation (ft) .................................................................................................... Max (Rim) Elevation (ft) ............................................................................................ Max (Rim) Offset (ft) ................................................................................................. Initial Water Elevation (ft) ......................................................................................... Initial Water Depth (ft) ............................................................................................... Ponded Area (ft²) ...................................................................................................... Storage Node : SAND-FILTER-DOWN (continued) Outflow Weirs SN Element Weir Flap Crest Crest Length Weir Total Discharge ID Type Gate Elevation Offset Height Coefficient (ft)(ft)(ft)(ft) 1 EMERGENCY-SPILLWAY-DOWN Trapezoidal No 779.00 3.00 30.00 1.00 3.33 Outflow Orifices SN Element Orifice Orifice Flap Circular Rectangular Rectangular Orifice Orifice ID Type Shape Gate Orifice Orifice Orifice Invert Coefficient Diameter Height Width Elevation (in)(in)(in)(ft) 1 PRINCIPAL-SPILLWAY-DOWN Side Rectangular No 36.00 36.00 778.50 0.63 Output Summary Results 8.96 2.30 0.11 0.00 778.08 2.08 777.15 1.15 0 19:58 0.000 0 0 0.00 Total Time Flooded (min) ......................................................................................... Total Retention Time (sec) ....................................................................................... Max HGL Depth Attained (ft) .................................................................................... Average HGL Elevation Attained (ft) ......................................................................... Average HGL Depth Attained (ft) .............................................................................. Time of Max HGL Occurrence (days hh:mm) .......................................................... Total Exfiltration Volume (1000-ft³) ........................................................................... Total Flooded Volume (ac-in) ................................................................................... Peak Inflow (cfs) ....................................................................................................... Peak Lateral Inflow (cfs) ........................................................................................... Peak Outflow (cfs) .................................................................................................... Peak Exfiltration Flow Rate (cfm) ............................................................................. Max HGL Elevation Attained (ft) ............................................................................... Storage Node : SAND-FILTER-UP Input Data 778.00 782.00 4.00 778.00 0.00 0.00 0.00 Storage Area Volume Curves Storage Curve : SAND-FILTER-UP Stage Storage Storage Area Volume (ft)(ft²)(ft³) 0 2539 0.000 1 3372 2955.50 2 4261 6772.00 3 5206 11505.50 4 6209 17213.00 Initial Water Depth (ft) ............................................................................................... Ponded Area (ft²) ...................................................................................................... Evaporation Loss ...................................................................................................... Invert Elevation (ft) .................................................................................................... Max (Rim) Elevation (ft) ............................................................................................ Max (Rim) Offset (ft) ................................................................................................. Initial Water Elevation (ft) ......................................................................................... Storage Node : SAND-FILTER-UP (continued) Outflow Weirs SN Element Weir Flap Crest Crest Length Weir Total Discharge ID Type Gate Elevation Offset Height Coefficient (ft)(ft)(ft)(ft) 1 EMERGENCY-SPILLWAY-UP Trapezoidal No 781.00 3.00 20.00 1.00 3.33 Outflow Orifices SN Element Orifice Orifice Flap Circular Rectangular Rectangular Orifice Orifice ID Type Shape Gate Orifice Orifice Orifice Invert Coefficient Diameter Height Width Elevation (in)(in)(in)(ft) 1 PRINCIPAL-SPILLWAY-UP Bottom Rectangular No 36.00 36.00 780.50 0.63 Output Summary Results 2.05 2.05 0.02 0.00 779.27 1.27 778.73 0.73 1 00:01 0.000 0 0 0.00 Total Exfiltration Volume (1000-ft³) ........................................................................... Total Flooded Volume (ac-in) ................................................................................... Total Time Flooded (min) ......................................................................................... Total Retention Time (sec) ....................................................................................... Peak Exfiltration Flow Rate (cfm) ............................................................................. Max HGL Elevation Attained (ft) ............................................................................... Max HGL Depth Attained (ft) .................................................................................... Average HGL Elevation Attained (ft) ......................................................................... Average HGL Depth Attained (ft) .............................................................................. Time of Max HGL Occurrence (days hh:mm) .......................................................... Peak Inflow (cfs) ....................................................................................................... Peak Lateral Inflow (cfs) ........................................................................................... Peak Outflow (cfs) .................................................................................................... MAKSON WAREHOUSE & OFFICEVICINITY MAP (NTS) NORTH CAROLINA COUNTY MAP(ROWAN COUNTY)SITE COORDINATES: LATITUDE = 35.620533° NLONGITUDE = -80.498989° WSURVEY:SHULENBURGER SURVEYING COMPANY, PA614 N. MAIN STREET - SUITE ASALISBURY, NCLICENSE: C-1858ENGINEER:BREC, PA126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697LICENSE: C-3448CITY/TOWN: SALISBURY, NCSHEET INDEXC000 COVER SHEETC001 NOTESC002 EXISTING CONDITIONSC100 SITE PLANC101 WATERS OF THE US MAPC200 GRADING PLANC201 PRE-CONSTRUCTION DAC202 POST-CONSTRUCTION DAC300 PHASE 1 ESC PLANC301 PHASE 2 ESC PLANC302 FINAL ESC PLANC400 UTILITY PLANG100 LANDSCAPE PLANC900 DETAILSC901 DETAILSC902 DETAILSC903 DETAILSC904 DETAILSSCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2015 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCCOVER SHEETMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC00012/11/2017NS MUSSSSSSTT BE REC12/11/2017 NPDES CONSTRUCTION GENERAL PERMIT - NCG 010000ENTIRE PERMIT CAN BE FOUND AT: http://portal.ncdenr.org/c/document_library/get_file?uuid=d15e7ee8-cb50-443f-9dcf-049b001337ac&groupId=38364SECTION II.B. - STORM WATER POLLUTION PREVENTION REQUIREMENTS IN THE NC CONSTRUCTION GENERAL PERMITIN ADDITION TO THE STORMWATER POLLUTION PREVENTION CONTROLS FOUND IN THE E&SC PLAN, THIS CONSTRUCTION GENERAL PERMIT CONTAINSADDITIONAL CONDITIONS THAT MUST BE MET IN ORDER TO COMPLY WITH THE NPDES PROGRAM REQUIREMENTS. THEY ARE AS FOLLOWS:1.CONSTRUCTION SITE POLLUTANTSPERMITTEE MUST MANAGE ACTIVITIES ON THE SITE SUCH THAT WATER QUALITY STANDARDS ARE NOT VIOLATED FROM SITE ACTIVITIES OR ALLOWEDDISCHARGES. IN ADDITION TO STREAM POLLUTION FROM SEDIMENT DISCHARGE, OTHER ACTIVITIES ON CONSTRUCTION AND DEVELOPMENT SITES CANRESULT IN POLLUTANTS REACHING THE STATE'S WATERS. EPA HAS PREPARED GUIDANCE DOCUMENTS THAT PROVIDE BEST MANAGEMENT PRACTICESTHAT ADDRESS MANY ACTIVITIES.SEE HTTP://CILLUB.EPA.GOV/NPDES/STONNWATER/MENUOFIMMS/INDEX.CFM?ACTJOO=MJLL LDEASURE&MIN MEASURE ID=4THE FOLLOWING ACTIVITIES, AND OTHERS ON A SITE-SPECIFIC BASIS, REQUIRE OVERSIGHT THROUGHOUT THE CONSTRUCTION AND DEVELOPMENTPROCESS TO ASSURE THAT ALL WATER QUALITY STANDARDS ARE PROTECTED:a. EQUIPMENT OPERATION AND MAINTENANCE - EQUIPMENT UTILIZED DURING THE CONSTRUCTION ACTIVITY ON A SITE MUST BE OPERATED ANDMAINTAINED IN SUCH A MANNER AS TO PREVENT THE POTENTIAL OR ACTUAL POLLUTION OF THE SURFACE OR GROUND WATERS OFTHE STATE.FUELS, LUBRICANTS, COOLANTS, AND HYDRAULIC FLUIDS, OR ANY OTHER PETROLEUM PRODUCTS, SHALL NOT BE DISCHARGED ONTO THEGROUND OR INTO SURFACE WATERS. SPENT FLUIDS SHALL BE CLEANED UP AND DISPOSED OF IN A MANNER SO AS NOT TO ENTER THEWATERS, SURFACE OR GROUND, OFTHE STATE AND IN ACCORDANCE WITH APPLICABLE STATE AND FEDERAL REGULATIONS.b. MATERIAL HANDLING - HERBICIDE, PESTICIDE, AND FERTILIZER USAGE DURING THE CONSTRUCTION ACTIVITY SHALL BE CONSISTENT WITH THEFEDERAL INSECTICIDE, FUNGICIDE, AND RODENTICIDE ACT AND SHALL BE IN ACCORDANCE WITH LABEL RESTRICTIONS.c. BUILDING MATERIAL WASTE HANDLINGI) ALL WASTES COMPOSED OF BUILDING MATERIALS SHALL BE DISPOSED OF IN ACCORDANCE WITH NORTH CAROLINA GENERAL STATUTES,CHAPTER 130A, ARTICLE 9 - SOLID WASTE MANAGEMENT, AND RULES GOVERNING THE DISPOSAL OF SOLID WASTE (NORTH CAROLINA ADMINISTRATIVE CODE SECTION 15A NCAC 13B).II) LOCATE AREAS DEDICATED FOR MANAGEMENT OF LAND CLEARING AND DEMOLITION DEBRIS, CONSTRUCTION AND DOMESTIC WASTE, AND HAZARDOUS OR TOXIC WASTE. THIS LOCATION SHALL BE AT LEAST 50 FEET AWAY FROM STORM DRAIN INLETS AND SURFACE WATERSUNLESS IT CAN BE SHOWN THAT NO OTHER ALTERNATIVES ARE REASONABLY AVAILABLE.III) DUMPING OF PAINT AND OTHER LIQUID BUILDING MATERIAL WASTES IN STORM DRAINS IS PROHIBITED.IV) LITTER AND SANITARY WASTE - THE PERMITTEE SHALL CONTROL THE MANAGEMENT AND DISPOSAL OF LITTER AND SANITARY WASTE FROM THE SITE.d. LOCATION OF STOCK PILES - LOCATE EARTHEN-MATERIAL STOCK PILE AREAS AT LEAST 50 FEET AWAY FROM STORM DRAIN INLETS ANDSURFACE WATERS UNLESS IT CAN BE SHOWN THAT NO OTHER ALTERNATIVES ARE REASONABLY AVAILABLE.e. HANDLING OF CONCRETEI) CONCRETE MATERIALS ONSITE, INCLUDING EXCESS CONCRETE, MUST BE CONTROLLED AND MANAGED TO AVOID CONTACT WITH SURFACEWATERS, WETLANDS OR BUFFERS. NO CONCRETE OR CEMENT SLURRY SHALL BE DISCHARGED FROM THE SITE. (NOTE THAT DISCHARGES FROM ONSITE CONCRETE PLANTS REQUIRE COVERAGE UNDER A SEPARATE NPDES PERMIT - NCG 140000.)II) ANY HARDENED CONCRETE RESIDUE WILL BE DISPOSED OF, OR RECYCLED ON SITE, IN ACCORDANCE WITH LOCAL AND STATE SOLID WASTE REGULATIONS.2.GROUND STABILIZATIONa. SOIL STABILIZATION SHALL BE ACHIEVED ON ANY AREA OF A SITE WHERE LAND-DISTURBING ACTIVITIES HAVE TEMPORARILY OR PERMANENTLYCEASED ACCORDING TO THE FOLLOWING SCHEDULE:I) ALL PERIMETER DIKES, SWALES, DITCHES, PERIMETER SLOPES AND AU SLOPES STEEPER THAN 3 HORIZONTAL TO 1 VERTICAL (3: 1) SHALLBE PROVIDED TEMPORARY OR PERMANENT STABILIZATION WITH GROUND COVER AS SOON AS PRACTICABLE BUT IN ANY EVENT WITHIN 7 CALENDAR DAYS FROM THE LAST LAND-DISTURBING ACTIVITY.II) ALL OTHER DISTURBED AREAS SHALL BE PROVIDED TEMPORARY OR PERMANENT STABILIZATION WITH GROUND COVER AS SOON AS PRACTICABLE BUT IN ANY EVENT WITHIN 14 CALENDAR DAYS FROM THE LAST LAND-DISTURBING ACTIVITY.b. CONDITIONS - IN MEETING THE STABILIZATION REQUIREMENTS ABOVE, THE FOLLOWING CONDITIONS OR EXEMPTIONS SHALL APPLY:I) EXTENSIONS OF TIME MAY BE APPROVED BY THE PERMITTING AUTHORITY BASED ON WEATHER OR OTHER SITE-SPECIFIC CONDITIONS THAT MAKE COMPLIANCE IMPRACTICABLE.II) ALL SLOPES 50' IN LENGTH OR GREATER SHALL APPLY THE GROUND COVER WITHIN 7 DAYS EXCEPT WHEN THE SLOPE IS FLATTER THAN 4:1 SLOPES LESS THAN 50' SHALL APPLY GROUND COVER WITHIN 14 DAYS EXCEPT WHEN SLOPES ARE STEEPER THAN 3: 1, THE 7 DAY-REQUIREMENT APPLIES.III) ANY SLOPED AREA FLATTER THAN 4: 1 SHALL BE EXEMPT FROM THE 7-DAY GROUND COVER REQUIREMENT.IV) SLOPES 10' OR LESS IN LENGTH SHALL BE EXEMPT FROM THE 7-DAY GROUND COVER REQUIREMENT EXCEPT WHEN THE SLOPE IS STEEPER THAN 2: 1.V) ALTHOUGH STABILIZATION IS USUALLY SPECIFIED AS GROUND COVER, OTHER METHODS, SUCH AS CHEMICAL STABILIZATION, MAY BE ALLOWED ON A CASE-BY-CASE BASIS.VI) FOR PORTIONS OF PROJECTS WITHIN THE SEDIMENT CONTROL COMMISSION-DEFINED "HIGH QUALITY WATER ZONE" (I5A NCAC 04A. 0105) ,STABILIZATION WITH GROUND COVER SHALL BE ACHIEVED AS SOON AS PRACTICABLE BUT IN ANY EVENT ON ALL AREAS OF THE SITE WITHIN7 CALENDAR DAYS FROM THE LAST LAND DISTURBING ACT.VII) PORTIONS OF A SITE THAT ARE LOWER IN ELEVATION THAN ADJACENT DISCHARGE LOCATIONS AND ARE NOT EXPECTED TO DISCHARGEDURING CONSTRUCTION MAY BE EXEMPT FROM THE TEMPORARY GROUND COVER REQUIREMENTS IF IDENTIFIED ON THE APPROVED E&SCPLAN OR ADDED BY THE PERMITTING AUTHORITY.3.SELF INSPECTION AND REPORTING REQUIREMENTSMINIMUM SELF INSPECTION_AND REPORTING REQUIREMENTS ARE AS FOLLOWS UNLESS OTHERWISE APPROVED IN WRITING BY THE DIVISION OFWATER QUALITY.a. A RAIN GAUGE SHALL BE MAINTAINED IN GOOD WORKING ORDER ON THE SITE UNLESS ANOTHER RAIN MONITORING DEVICE HAS BEENAPPROVED BY THE DIVISION OF WATER QUALITY.b. A WRITTEN RECORD OF THE DAILY RAINFALL AMOUNTS SHALL BE RETAINED AND ALL RECORDS SHALL BE MADE AVAILABLE TO DIVISION OFWATER QUALITY OR AUTHORIZED AGENT UPON REQUEST. IF NO DAILY RAIN GAUGE OBSERVATIONS ARE MADE DURING WEEKEND OR HOLIDAYPERIODS, AND NO INDIVIDUAL-DAY RAINFALL INFORMATION IS AVAILABLE, THE CUMULATIVE RAIN MEASUREMENT FOR THOSE UN-ATTENDEDDAYS WILL DETERMINE IF A SITE INSPECTION IS NEEDED. (NOTE: IF NO RAINFALL OCCURRED, THE PERMITTEE MUST RECORD "ZERO").c. EROSION AND SEDIMENTATION CONTROL MEASURES SHALL BE INSPECTE<;L TO ENSURE THAT THEY ARE OPERATING CORRECTLY. INSPECTIONRECORDS MUST BE MAINTAINED FOR EACH INSPECTION EVENT AND FOR EACH MEASURE. AT A MINIMUM, INSPECTION OF MEASURES MUSTOCCUR AT THE FREQUENCY INDICATED BELOW:I) ALL EROSION AND SEDIMENTATION CONTROL MEASURES MUST BE INSPECTED BY OR UNDER THE DIRECTION OF THE PERMITTEE AT LEASTONCE EVERY SEVEN CALENDAR DAYS, ANDII) ALL EROSION AND SEDIMENT CONTROL MEASURES MUST BE INSPECTED BY OR UNDER THE DIRECTION OF THE PERMITTEE WITHIN 24 HOURS AFTER ANY STORM EVENT OF GREATER THAN 0.50 INCHES OF RAIN PER 24 HOUR PERIOD.d. ONCE LAND DISTURBANCE HAS BEGUN ON THE SITE, STORM WATER RUNOFF DISCHARGE OUTFALLS SHALL BE INSPECTED BY OBSERVATIONFOR EROSION, SEDIMENTATION AND OTHER STORM WATER DISCHARGE CHARACTERISTICS SUCH AS CLARITY, FLOATING SOLIDS, AND OILSHEENS. INSPECTIONS OF THE OUTFALLS SHALL BE MADE AT LEAST ONCE EVERY SEVEN CALENDAR DAYS AND WITHIN 24 HOURS AFTER ANYSTORM EVENT OF GREATER THAN 0.50 INCHES OF RAIN PER 24 HOUR PERIOD.e. INSPECTIONS ARE ONLY REQUIRED TO BE MADE DURING NORMAL BUSINESS HOURS. WHEN ADVERSE WEATHER CONDITIONS WOULD CAUSETHE SAFETY OF THE INSPECTION PERSONNEL TO BE IN JEOPARDY, THE INSPECTION CAN BE DELAYED UNTIL IT IS DEEMED SAFE TO PERFORMTHESE DUTIES. (TIMES WHEN INSPECTIONS WERE DELAYED BECAUSE OF SAFETY ISSUES SHOULD BE NOTED IN THE INSPECTION RECORD.) IFTHE INSPECTION CANNOT BE DONE ON THAT DAY, IT MUST BE COMPLETED ON THE FOLLOWING BUSINESS DAY.f. TWENTY-FOUR HOUR REP0L1ING FOR VISIBLE SEDIMENT DEPOSITIONI) THE PERMITTEE SHALL REPORT TO THE DIVISION OF WATER QUALITY CENTRAL OFFICE OR THE APPROPRIATE REGIONAL OFFICE ANY VISIBLE SEDIMENT BEING DEPOSITED IN ANY STREAM OR WETLAND OR ANY NONCOMPLIANCE WHICH MAY ENDANGER HEALTH OR THE ENVIRONMENT. (SEE SECTION VIII OF THIS PERMIT FOR CONTACT INFORMATION.) ANY INFORMATION SHALL BE PROVIDED ORALLY OR ELECTRONICALLY WITHIN 24 HOURS FROM THE TIME THE PERMITTEE BECAME AWARE OF THE CIRCUMSTANCES.II) A WRITTEN SUBMISSION SHALL BE PROVIDED TO THE APPROPRIATE REGIONAL OFFICE OF THE DIVISION OF WATER QUALITY WITHIN 5 DAYS OF THE TIME THE PERMITTEE BECOMES AWARE OF THE CIRCUMSTANCES. THE WRITTEN SUBMISSION SHALL CONTAIN A DESCRIPTIONOF THE SEDIMENT DEPOSITION AND ACTIONS TAKEN TO ADDRESS THE CAUSE OF THE DEPOSITION. THE DIVISION OF WATER QUALITY STAFFMAY WAIVE THE REQUIREMENT FOR A WRITTEN REPORT ON A CASE-BY-CASE BASIS.g. RECORDS OF INSPECTIONS MADE DURING THE PREVIOUS 30 DAYS SHALL REMAIN ON THE SITE AND AVAILABLE FOR AGENCY INSPECTORS ATALL TIMES DURING NORMAL WORKING HOURS, UNLESS THE DIVISION OF WATER QUALITY PROVIDES A SITE-SPECIFIC EXEMPTION BASED ONUNIQUE SITE CONDITIONS THAT MAKE THIS REQUIREMENT NOT PRACTICAL. OLDER RECORDS MUST BE MAINTAINED FOR A PERIOD OF THREEYEARS AFTER PROJECT COMPLETION AND MADE AVAILABLE UPON REQUEST THE RECORDS MUST PROVIDE THE DETAILS OF EACH INSPECTIONINCLUDING OBSERVATIONS, AND ACTIONS TAKEN IN ACCORDANCE WITH THIS PERMIT. THE PERMITTEE SHALL RECORD THE REQUIREDRAINFALL AND MONITORING OBSERVATIONS ON THE INSPECTION RECORD FORM PROVIDED BY THE DIVISION OR A SIMILAR INSPECTION FORMTHAT IS INCLUSIVE OF ALL OF THE ELEMENTS CONTAINED IN THE DIVISION'S FORM. USE OF ELECTRONICALLY-AVAILABLE RECORDS, IN LIEU OFTHE REQUIRED PAPER COPIES FOR INSPECTION WILL BE ALLOWED IF SHOWN TO PROVIDE EQUAL ACCESS AND UTILITY AS THE HARD-COPYRECORDS.h. INSPECTION RECORDS MUST INCLUDE, AT A MINIMUM, THE FOLLOWING:I) CONTROL MEASURE INSPECTIONS: INSPECTION RECORDS MUST INCLUDE AT A MINIMUM: I) IDENTIFICATION OF THE MEASURES INSPECTED,2) DATE AND TIME OF THE INSPECTION, 3) NAME OF THE PERSON PERFORMING THE INSPECTION, 4) INDICATION OF WHETHER THE MEASURESWERE OPERATING PROPERLY, 5) DESCRIPTION OF MAINTENANCE NEEDS FOR THE MEASURE, 6) CORRECTIVE ACTIONS TAKEN (7) DATE OF ACTIONS TAKEN, AS WELL AS THE DATE AND AMOUNTS OF RAINFALL RECEIVED.II) STORM WATER DISCHARGE INSPECTIONS: INSPECTION RECORDS MUST INCLUDE AT A MINIMUM: I) IDENTIFICATION OF THE DISCHARGE OUTFALL INSPECTED, 2) DATE AND TIME OF THE INSPECTION, 3) NAME OF THE PERSON PERFORMING THE INSPECTION, 4) EVIDENCE OF INDICATORS OF STORM WATER POLLUTION SUCH AS OIL SHEEN, FLOATING OR SUSPENDED SOLIDS OR DISCOLORATION, 5) INDICATION OF VISIBLE SEDIMENT LEAVING THE SITE, 6) ACTIONS TAKEN TO CORRECT/PREVENT SEDIMENTATION AND 7) DATE OF ACTIONS TAKEN.III) VISIBLE SEDIMENTATION FOUND OUTSIDE THE SITE LIMITS: INSPECTION RECORDS MUST INCLUDE: 1) AN EXPLANATION AS TO THE ACTIONS TAKEN TO CONTROL FUTURE RELEASES, 2) ACTIONS TAKEN TO CLEAN UP OR STABILIZE THE SEDIMENT THAT HAS LEFT THE SITE LIMITS AND 3) THE DATE OF ACTIONS TAKEN.IV) VISIBLE SEDIMENTATION FOUND IN STREAMS OR WETLANDS: ALL INSPECTIONS SHOULD INCLUDE EVALUATION OF STREAMS OR WETLANDS ONSITE OR OFFSITE (WHERE ACCESSIBLE) TO DETERMINE IF VISIBLE SEDIMENTATION HAS OCCURRED.V) VISIBLE STREAM TURBIDITY - IF THE DISCHARGE FROM A SITE RESULTS IN AN INCREASE IN VISIBLE STREAM TURBIDITY, INSPECTIONRECORDS MUST RECORD THAT EVIDENCE AND ACTIONS TAKEN TO REDUCE SEDIMENT CONTRIBUTIONS. SITES DISCHARGING TO STREAMSNAMED ON THE STATE'S 303(D) LIST AS IMPAIRED FOR SEDIMENT-RELATED CAUSES MAY BE REQUIRED TO PERFORM ADDITIONAL MONITORING, INSPECTIONS OR APPLICATION OF MORE-STRINGENT MANAGEMENT PRACTICES IF IT IS DETERMINED THAT THE ADDITIONALREQUIREMENTS ARE NEEDED TO ASSURE COMPLIANCE WITH THE FEDERAL OR STATE IMPAIRED-WATERS CONDITIONS. IF A DISCHARGECOVERED BY THIS PERMIT ENTERS A STREAM SEGMENT THAT IS LISTED ON THE IMPAIRED STREAM LIST FOR SEDIMENT-RELATED CAUSES,AND A TOTAL MAXIMUM DAILY LOAD (TMDL) HAS BEEN PREPARED FOR THOSE POLLUTANTS, THE PERMITTEE MUST IMPLEMENT MEASURESTO ENSURE THAT THE DISCHARGE OF POLLUTANTS FROM THE SITE IS CONSISTENT WITH THE ASSUMPTIONS AND MEETS THE REQUIREMENTS OF THE APPROVED TMDL. THE DIVISION OF WATER QUALITY 303(D) LIST CAN BE FOUND AT: HTTP://H20.ENR.STATE.NC.US/TMDI/GENERAI303D.HTML4.SEDIMENT BASINSSEDIMENT BASINS AND TRAPS SHALL MEET THE FOLLOWING REQUIREMENTS:a. OUTLET STRUCTURES SHALL BE UTILIZED THAT WITHDRAW WATER FROM THE SURFACE.b. FOR BASINS OR TRAPS THAT HAVE A DRAINAGE AREA OF LESS THAN 1.0 ACRE, DRAW-DOWN DESIGNS SPECIFIED IN THE DIVISION OF LANDRESOURCES OR DELEGATED LOCAL PROGRAM REQUIREMENTS ARE ACCEPTABLE.c. CHEMICAL TREATMENTI) ALL TREATMENT CHEMICALS MUST BE STORED IN LEAK-PROOF CONTAINERS THAT ARE KEPT UNDER STORM-RESISTANT COVER OR SURROUNDED BY SECONDARY CONTAINMENT STRUCTURES DESIGNED TO PROTECT ADJACENT SURFACE WATERS.II) ALL TREATMENT CHEMICALS MUST BE USED IN ACCORDANCE WITH DOSING SPECIFICATIONS AND APPLICATION RATES PROVIDED BY THEMANUFACTURER, SUPPLIER AND AS SPECIFIED BY THE DIVISION OF WATER QUALITY.III) THE PERMITTEE MUST ONLY USE CHEMICALS THAT HAVE BEEN APPROVED BY THE NC DIVISION OF WATER QUALITY AND POSTED ON THEIR "NORTH CAROLINA DIVISION OF WATER QUALITY APPROVED PAMS/FLOCCULANTS LIST" FOUND ON THEIR WEB SITE AT: HTTP://PORTAL.NCDENR .ORGLWEB/WG/WS/SU .IV) THE PERMITTEE MUST ROUTE STORM WATER TREATED WITH POLYMERS, FLOCCULANTS, OR OTHER TREATMENT CHEMICALS THROUGH SEDIMENT TRAPPING, FILTERING, AND/OR SETTLING DEVICES(S) TO ENSURE ADEQUATE REMOVAL OF SEDIMENT FLOCCULENT PRIOR TO DISCHARGE TO SURFACE WATERS.d. DISCHARGE REQUIREMENT - DISCHARGES MUST MEET THE STATUTORY REQUIREMENTS OF THE SEDIMENT POLLUTION CONTROL ACT ANDUTILIZE THE PROVISIONS OF SECTION 6.74 OF THE EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL TO ASSURE THATBUFFERS AND VEGETATED AREAS WILL BE USED TO REDUCE THE POTENTIAL FOR VISIBLE SILTATION OUTSIDE OF THE 25% BUFFER ZONENEAREST THE LAND DISTURBING ACTIVITY.5. DISCHARGES TO SPECIAL OR THREATENED WATERSa. DISTURBED AREAS WITHIN ONE MILE OF AND DRAINING TO WATERS WHERE FEDERALLY-LISTED THREATENED OR ENDANGERED AQUATICSPECIES ARE PRESEN(SHALL BE LIMITED AT ANY TIME TO A MAXIMUM TOTAL AREA WITHIN THE BOUNDARIES OF THE TRACT OF20 ACRES.THESE PROJECTS SHALL ALSO USE CONTROL MEASURES THAT ARE DESIGNED, INSTALLED AND MAINTAINED IN ACCORDANCE WITH CRITERIASET FORTH IN L5A NCAC 048 .0124 - DESIGN STANDARDS IN SENSITIVE WATERSHEDS. THE DIVISION OF WATER QUALITY MAY REQUIREADDITIONAL/ALTERNATIVE PROTECTION MEASURES OR REQUIRE COVERAGE UNDER AN INDIVIDUAL CONSTRUCTION NPDES STORMWATERPERMIT. OTHER MANAGEMENT PRACTICES MAY BE ACCEPTABLE IF THESE DESIGNS ARE SHOWN BY THE APPLICANT, TO THE SATISFACTION OFTHE DIRECTOR, TO PROVIDE EQUIVALENT PROTECTION.b. CONSTRUCTION ACTIVITIES IN HIGH QUALITY WATERS ZONES REQUIRE QUICKER GROUND STABILIZATION PROVISIONS AS SPECIFIED INSECTION II.B.2.B. OF THE PERMIT.SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2015 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCNOTESMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC00112/11/2017NS MUSTTTTTT BE REC12/11/2017 xx xxxxxxxxxxxx xxx x x xxx x x x xxxxxx xxxxx x xxxxxxxxxxxxxxx x x x xx xx xxx x x x x SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCEXISTING CONDITIONSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 80'80 8040160C00212/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKWETLAND25' WETLAND BUFFERSTREAM CENTERLINES MUSTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT BE REC x x xxx x x xxxxxxxxxxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxxxxx x xxx x x xx1941948SEE ARCHITECTURAL PLANSFOR BUILDING LAYOUTSEE ARCHITECTURAL PLANSFOR BUILDING LAYOUTMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.HEAVY DUTY ASPHALTSEE DET. 1/C900STANDARD DUTY ASPHALTSEE DET. 2/C900HANDICAP RAMP, SIGNAGE &WHEELSTOPS SEE DET. 3-6/C900HANDICAP RAMP, SIGNAGE &WHEELSTOPS SEE DET. 3-5/C9009274'8'5'8'8'8'8'8'5'9' TYP.20' TYP.24'20'20'24'20'189'9'22'81'27'20'180'9'9'81.05'77.25' 14.66' 8'8'8'36'30'24'30'61'34'14'30.67'10'C9007C9007RETAINING WALL TO BEDESIGNED BY OTHERS.DUMPSTER ENCLOSURESEE DET. 4/C901C9008C900830'DEPRESSED CURBSEE DET. 9/C900DEPRESSED CURBSEE DET. 9/C900C901225'25'5'6'5'CONCRETE FLUMESEE DET. 7/C9019.9'ZONE: 85-ED-2USE: COMMERCIALZONE: 85-ED-2USE: VACANTZONE: RSUSE: RESIDENTIALZONE: RSUSE: RESIDENTIALZONE: RSUSE: RESIDENTIALZONE: RSUSE: VACANTZONE: RSUSE: RESIDENTIALZONE: RSUSE: VACANTZONE: RSUSE: RESIDENTIALZONE: RSUSE: VACANTZONE: RSUSE: VACANTDECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904SAND FILTER #2SEE DET. 4/C903SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901BOLLARDSEE DET.1/C904SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCSITE PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C10012/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.PARKING AND PAVEMENT NOTES1. ALL SIGNS, PAVEMENT MARKINGS, AND OTHER TRAFFIC CONTROL DEVICES SHALL CONFORM TO THE MANUAL ONUNIFORM TRAFFIC DEVICES, 2012 EDITION AS AMENDED.2. ALL PAVEMENT MARKINGS SHALL BE PAINTED WHITE ON ASPHALT FOUR (4) INCHES WIDE UNLESS INDICATEDOTHERWISE. ALL PAVEMENT MARKINGS SHALL BE THERMOPLASTIC WHITE ON ASPHALT IN NCDOT ROW.3. ALL DIMENSIONS ARE TO FACE-OF-CURB UNLESS INDICATED OTHERWISE.4. ALL CURB RADII ARE 5' UNLESS OTHERWISE INDICATED.5. CONTRACTOR SHALL FURNISH AND INSTALL PAVEMENT MARKINGS AS SHOWN ON THE PLANS.6. CONTRACTOR SHALL COORDINATE THE INSTALLATION OF ALL SIGNS, PAVEMENT MARKINGS, AND OTHER TRAFFICCONTROL DEVICES WITH OTHER CONTRACTORS ON SITE.7. JOINTS OR SCORE MARKS ARE TO BE SHARP AND CLEAN WITHOUT SHOWING EDGES OF JOINTING TOOLS.8. CONTRACTOR SHALL SAW-CUT TIE-INS AT EXISTING CURBS AS NECESSARY TO INSURE SMOOTH TRANSITIONS.CONTRACTOR SHALL SAW-CUT AND TRANSITION TO MEET EXISTING PAVEMENT AS NECESSARY AND AS DIRECTEDBY INSPECTOR TO INSURE POSITIVE DRAINAGE (TYPICAL AT ALL INTERSECTIONS).9. CONTRACTOR SHALL COMPLY WITH ALL PERTINENT PROVISIONS OF THE "MANUAL OF ACCIDENT PREVENTION INCONSTRUCTION" ISSUED BY AGC OF AMERICA, INC. AND THE HEALTH AND SAFETY REGULATIONS FORCONSTRUCTION ISSUED BY THE US DEPARTMENT OF LABOR.10. CONTRACTOR SHALL FULLY COMPLY WITH THE REQUIREMENTS OF THE SOILS ENGINEER.11. ALL EXISTING ON-SITE STRUCTURES SHALL BE REMOVED PER LOCAL CODES AND DISPOSED OF OFF-SITE,INCLUDING ALL ATTACHED UTILITIES AND APPURTENANCES. ANY AND ALL WELLS ON-SITE SHALL BE IDENTIFIEDTO THE ENGINEER BEFORE CONSTRUCTION AND CAPPED PER HIS INSTRUCTIONS.12. ALL AREAS NOT IDENTIFIED AS STANDARD DUTY PAVING SHALL BE CONSTRUCTED AS HEAVY DUTY PAVING (SEEDETAILS FOR STANDARD AND HEAVY DUTY PAVING REQUIREMENTS).13. ALL SIGNS, WHETHER FREE-STANDING OR ATTACHED REQUIRE SEPARATE APPLICATION FOR EACH INDIVIDUALSIGN. ALL SIGNS SHALL MEET LOCAL REQUIREMENTS. A SIGN PERMIT IS REQUIRED PRIOR TO INSTALLATION OFANY SIGN.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKWETLAND25' WETLAND BUFFERSTREAM CENTERLINESITE INFORMATIONZONE85-ED-2 PUDPROPOSED USEBUILDING & SPECIAL TRADECONTRACTORSPARKING PROVIDED 119 SPACESNUMBER OF EMPLOYEES147 TOTAL EMPLOYEES23 FULL TIME OFFICE STAFFREMAINING 124 FIELD STAFFHOURS OF OPERATIONMONDAY - FRIDAY7 AM - 6 PMIMPERVIOUSACREAGE/PERCENTAGE3.08 ACRES/18.28% IMPERVIOUS(INCLUDES FUTURE BUILDINGEXPANSION)TOTAL PROPERTYACREAGE16.85± ACRESDFIRM PANEL5658(NOT LOCATED IN FLOOD AREA)S MUSTTTTT BE REC x x xxx x x xxxxxxxxxxxxxxx x xxxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxx xxx x x xxMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.RETAINING WALL TO BEDESIGNED BY OTHERS.DECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904SAND FILTER #2SEE DET. 4/C903SAFETY FENCESEE DET. 8/C901WETLAND IMPACT #11,847 SQ.FT.WETLAND IMPACT #21,750 SQ.FT.SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCWATERS OF THE US MAPMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C10112/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKWETLAND25' WETLAND BUFFERSTREAM CENTERLINEWETLAND IMPACTSNUMBERIMPACT AREA#11,847 SQ.FT.#21,750 SQ.FT.S MUSTTTTTTTTT BE REC x x xxx x x xxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxxxxx x x x xxx x x xxMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.RETAINING WALL TO BEDESIGNED BY OTHERS.PERMANENT DITCHTO LINED WITHCURLEX II8" PVCDECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904OUTLET STRUCTURE #1RIM ELEV. = 778.00SEE DET. 9/C90230' EMERGENCYSPILLWAY ELEV. = 779.00LINE WITH CLASS BRIPRAPSAND FILTER #2SEE DET. 4/C90318" HDPE INV. = 773.00W/ 8' La x 10' W2OUTLET PROTECTIONSEE DET. 6/C902SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901782.20FLUSH788.00788.50788.00TC787.60787.10791.50GROUND791.50GROUND791.80791.30TC791.80791.30TC791.30790.80TC788.70788.20TC788.60788.10TC788.66788.16TC791.50GROUND791.50GROUND791.50GROUND791.50GROUND791.50GROUND791.95 TOR791.45 TOR791.95791.45TC791.05791.05790.80790.30TC/HP791.67791.17TC789.48788.98TC790.60790.10TC/HP790.60790.10TC/HP790.60790.10791.30 BOR791.80791.30TC791.50 B O R 791.50 B O R 791.50 B O R 791.5 0 B O R791.30 BOR791.80791.30TC790.90790.90784.25783.75TCSCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCGRADING PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C20012/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKGRADING NOTES1. PROPOSED CONTOURS SHOWN ARE TOP OF FUTURE PAVING/GRAVEL IN AREAS TO RECEIVE PAVEMENT/GRAVEL ANDTOP OF TOPSOIL IN AREAS TO BE SEEDED AND/OR LANDSCAPED.2. AREAS OUTSIDE OF THE PARKING LOT PERIMETERS SHOWN TO BE SEEDED AND/OR LANDSCAPED.3. CONTRACTOR SHALL NOTIFY AND COOPERATE WITH ALL UTILITY COMPANIES OR FIRMS HAVING FACILITIES ON ORADJACENT TO THE SITE BEFORE DISTURBING, ALTERING, REMOVING, RELOCATING, ADJUSTING, OR CONNECTING TOSAID FACILITIES. CONTRACTOR SHALL PAY ALL COSTS IN CONNECTION WITH ALTERATION OF OR RELOCATION OFTHE FACILITY.4. ALL CATCH BASIN GRATE AND FRAMES ARE TO BE BY US FOUNDRY OR APPROVED EQUAL (U.O.N.) SEESPECIFICATIONS.5. ALL AREAS NOT COVERED BY BUILDING OR PAVING ARE TO BE GRASSED.6. UNUSABLE EXCAVATED MATERIALS AND ALL WASTE RESULTING FROM CLEARING AND GRUBBING SHALL BEDISPOSED TO AN APPROVED OFF SITE LOCATION BY CONTRACTOR.7. ALL EXCAVATING IS UNCLASSIFIED AND SHALL INCLUDE ALL MATERIALS ENCOUNTERED.8. BEFORE ANY MACHINE WORK IS DONE, CONTRACTOR SHALL STAKE-OUT AND MARK OUT THE ITEMS ESTABLISHED BYTHE SITE PLAN. CONTROL POINTS SHALL BE PRESERVED AT ALL TIMES DURING THE COURSE OF CONSTRUCTION.LACK OF PROPER WORKING POINTS AND GRADE STAKES MAY REQUIRE CESSATION OF OPERATIONS UNTIL SUCHPOINTS AND GRADES HAVE BEEN PLACED TO THE OWNER'S SATISFACTION.9. CONTRACTOR IS RESPONSIBLE FOR DETERMINING EARTHWORK QUANTITIES. ENGINEER MAKES NO STATEMENTEITHER IMPLIED OR EXPRESSED REGARDING CUT/FILL QUANTITIES.10. ALL CORRUGATED METAL PIPE IS TO BE ALUMINIZED OR APPROVED EQUAL WITH RE-ROLLED ENDS. ALL BANDS ARETO BE HUGGER TYPE.11. ALL STORM DRAINAGE PIPES SHALL HAVE 12" MINIMUM COVER.11. ALL GROUND ELEVATIONS ADJACENT TO BUILDING STRUCTURES ARE TO BE A MINIMUM OF 6" BELOW THE FINISHEDFLOOR ELEVATION.12. ALL HDPE IS TO BE ADS N-12 ST IB DUAL WALL WITH SOIL TIGHT JOINTS AND DUAL WALL FITTINGS OR APPROVEDEQUAL.13. ALL PIPE LENGTHS GIVEN ARE TO THE CENTER OF STRUCTURES.14. CONTRACTOR IS RESPONSIBLE FOR VERIFYING ANY BENCHMARKS SUPPLIED AS PART OF THESE PLANS.BEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!ABBREVATIONSTC TOP OF CURBBC BOTTOM OF CURBTOR TOP OF RAMPBOR BOTTOM OF RAMPTOW TOP OF WALLBOW BOTTOM OF WALLBOD BOTTOM OF DITCHHPHIGH POINTEX. TC EXISTING TOP OF CURBEX. BC EXISTING BOTTOM OF CURBEPEDGE OF PAVEMENTEC EDGE OF CONCRETECOORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.WETLAND25' WETLAND BUFFERSTREAM CENTERLINENS MUSTTTTTTT BE REC12/11/2017 x x xx x x xxxxxxxxxxx xxxxx x x x x x x xxxxxxx xx x xxxxxxx x x xxxxxxxxxxxxxxxxxxxxxxxxx x x x x x x xxx x x xx x x x x PRE-CONSTRUCTION #1PRE-CONSTRUCTION #2SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCPRE-CONSTRUCTION DAMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 50'50 5025100C20112/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKBEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!WETLAND25' WETLAND BUFFERSTREAM CENTERLINES MUSTTTTTTT BE REC x x xx x x xxxxxxxxxxxxxx x x x x x x xxxxxxx xx x xxxxxxx x x xxxxxxxxxxxxxxxxxxxxxxxxx x x x x x x xxx x x xx x x x x POST-CONSTRUCTION #7POST-CONSTRUCTION #10POST-CONSTRUCTION #1POST-CONSTRUCTION #8POST-CONSTRUCTION #7APOST-CONSTRUCTION #10POST-CONSTRUCTION #11SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCPOST-CONSTRUCTION DAMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 50'50 5025100C20212/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKGRADING NOTES1. PROPOSED CONTOURS SHOWN ARE TOP OF FUTURE PAVING/GRAVEL IN AREAS TO RECEIVE PAVEMENT/GRAVEL ANDTOP OF TOPSOIL IN AREAS TO BE SEEDED AND/OR LANDSCAPED.2. AREAS OUTSIDE OF THE PARKING LOT PERIMETERS SHOWN TO BE SEEDED AND/OR LANDSCAPED.3. CONTRACTOR SHALL NOTIFY AND COOPERATE WITH ALL UTILITY COMPANIES OR FIRMS HAVING FACILITIES ON ORADJACENT TO THE SITE BEFORE DISTURBING, ALTERING, REMOVING, RELOCATING, ADJUSTING, OR CONNECTING TOSAID FACILITIES. CONTRACTOR SHALL PAY ALL COSTS IN CONNECTION WITH ALTERATION OF OR RELOCATION OFTHE FACILITY.4. ALL CATCH BASIN GRATE AND FRAMES ARE TO BE BY US FOUNDRY OR APPROVED EQUAL (U.O.N.) SEESPECIFICATIONS.5. ALL AREAS NOT COVERED BY BUILDING OR PAVING ARE TO BE GRASSED.6. UNUSABLE EXCAVATED MATERIALS AND ALL WASTE RESULTING FROM CLEARING AND GRUBBING SHALL BEDISPOSED TO AN APPROVED OFF SITE LOCATION BY CONTRACTOR.7. ALL EXCAVATING IS UNCLASSIFIED AND SHALL INCLUDE ALL MATERIALS ENCOUNTERED.8. BEFORE ANY MACHINE WORK IS DONE, CONTRACTOR SHALL STAKE-OUT AND MARK OUT THE ITEMS ESTABLISHED BYTHE SITE PLAN. CONTROL POINTS SHALL BE PRESERVED AT ALL TIMES DURING THE COURSE OF CONSTRUCTION.LACK OF PROPER WORKING POINTS AND GRADE STAKES MAY REQUIRE CESSATION OF OPERATIONS UNTIL SUCHPOINTS AND GRADES HAVE BEEN PLACED TO THE OWNER'S SATISFACTION.9. CONTRACTOR IS RESPONSIBLE FOR DETERMINING EARTHWORK QUANTITIES. ENGINEER MAKES NO STATEMENTEITHER IMPLIED OR EXPRESSED REGARDING CUT/FILL QUANTITIES.10. ALL CORRUGATED METAL PIPE IS TO BE ALUMINIZED OR APPROVED EQUAL WITH RE-ROLLED ENDS. ALL BANDS ARETO BE HUGGER TYPE.11. ALL STORM DRAINAGE PIPES SHALL HAVE 12" MINIMUM COVER.11. ALL GROUND ELEVATIONS ADJACENT TO BUILDING STRUCTURES ARE TO BE A MINIMUM OF 6" BELOW THE FINISHEDFLOOR ELEVATION.12. ALL HDPE IS TO BE ADS N-12 ST IB DUAL WALL WITH SOIL TIGHT JOINTS AND DUAL WALL FITTINGS OR APPROVEDEQUAL.13. ALL PIPE LENGTHS GIVEN ARE TO THE CENTER OF STRUCTURES.14. CONTRACTOR IS RESPONSIBLE FOR VERIFYING ANY BENCHMARKS SUPPLIED AS PART OF THESE PLANS.BEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!ABBREVATIONSTC TOP OF CURBBC BOTTOM OF CURBTOR TOP OF RAMPBOR BOTTOM OF RAMPTOW TOP OF WALLBOW BOTTOM OF WALLBOD BOTTOM OF DITCHHPHIGH POINTEX. TC EXISTING TOP OF CURBEX. BC EXISTING BOTTOM OF CURBEPEDGE OF PAVEMENTEC EDGE OF CONCRETECOORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.WETLAND25' WETLAND BUFFERSTREAM CENTERLINENS MUSTTTTTT BE REC12/11/2017 x x xxx x x xxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxx x x x x xxx x x xxTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTD TD TDINV. = 772.503' La x 4' W2OUTLET PROTECTIONSEE DET. 6/C90234' W x 102' L x 3' DSKIMMER BASIN2.0" FAIRCLOTH SKIMMERWITH 1.5" KNOCKOUT ORIFICE25' EMERGENCY SPILLWAYELEV. = 775.00 SEE DET. 1-2/C903TEMPORARY 18" HDPETEMPORARY DIVERSIONSEE DET. 4/C902SILT FENCE SEEDET. 2/C902INV. = 777.75TEMP. INLETPROTECTIONSEE DET. 7/C902SILT FENCE SEEDET. 2/C902STONE OULETSEE DET. 3/C902TEMPORARYCONSTRUCTIONENTRANCE SEEDET. 1/C902PERMANENT DITCHTO LINED WITHCURLEX II28' W x 56' L x 3' DSEDIMENT TRAP10' EMERGENCY SPILLWAYELEV. = 782.00SEE DET. 2-3/C903LIMITS OF DISTURBANCE5.87± ACRESTDTDTDTDTDTDTDTDTDTEMPORARY DIVERSION(ENSURE POSITIVEDRAINAGE) SEE DET. 4/C902CLASS B RIPRAPSTONE OULETSEE DET. 3/C902SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901TEMP. 15" CMPTEMP. INLETPROTECTIONSEE DET. 7/C9027' La x 9' W2OUTLET PROTECTIONSEE DET. 6/C902SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCPHASE 1 ESC PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C30012/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKMAINTENANCE PLAN1. EROSION CONTROL MEASURES SHALL BE INSTALLED PRIOR TO ANY EXISTING BUILDING DEMOLITION.2. CONTRACTOR IS RESPONSIBLE FOR ALL EROSION AND SEDIMENTATION CONTROL REQUIREMENTS AND SHALL COMPLYWITH THE LATEST EDITION OF THE NORTH CAROLINA EROSION AND SEDIMENTATION CONTROL MANUAL.3. PER NPDES REQUIREMENTS, CHECK ALL EROSION AND SEDIMENTATION CONTROL DEVICES AND STORMWATER RUNOFFDISCHARGES FROM EACH OUTFALL SHOULD BE INSPECTED EVERY SEVEN DAYS AND WITHIN 24 HOURS AFTER ANYSTORM EVENT. A RAINFALL GAUGE SHALL BE KEPT ON SITE,AND A RECORD OF RAINFALL AMOUNTS AND DATES MUST BERECORDED AND KEPT ON SITE. RECORDS OF INSPECTIONS OF DEVICES AND OUTFALLS SHOULD BE KEPT AND VISIBLESEDIMENTATION OUTSIDE THE DISTURBED LIMITS SHOULD BE NOTED. ANY ACTIONS TO CONTROL FUTURE RELEASESAND CLEANUP OF SEDIMENT MUST BE RECORDED. A SAMPLE LOG FOR RECORD KEEPING IS AVAILABLE FROM NCDEQDIVISION OF WATER QUALITY, STORMWATER AND GENERAL PERMITS UNIT.4. CHECK ALL EROSION CONTROL DEVICES WEEKLY AND AFTER EACH RUNOFF PRODUCING STORM EVENT AND MAKE ANYNECESSARY REPAIRS AS NEEDED TO ENSURE DEVICES ARE FUNCTIONING AS INTENDED.5. REMOVE SEDIMENT DEPOSITS FROM SILT FENCE AND STONE OUTLETS WHEN DEPOSITS REACH HALF CAPACITY, REPAIRANY BREAKS IMMEDIATELY.6. REPLACE GRAVEL CONSTRUCTION ENTRANCE AS NECESSARY.7. CONTRACTOR WILL BE FINANCIALLY RESPONSIBLE FOR ANY AND ALL FINES LEVIED DUE TO NOT MAINTAINING PROPEREROSION CONTROL MEASURES AT ALL TIMES.SILT FENCELIMITS OF DISTURBANCETEMPORARY DIVERSIONSTABILIZATION TIMEFRAMESSITE AREA DESCRIPTION STABILIZATION TIMEFRAME EXCEPTIONSPERIMETER DIKES, SWALES, DITCHES,SLOPES7 DAYS NONEHIGH QUAILTY WATER (HQW) ZONES7 DAYS NONESLOPES STEEPER THAN 3:1 7 DAYSIF SLOPES ARE 10' OR LESS INLENGTH AND ARE NOT STEEPERTHAN 2:1, 14 DAYS AREA ALLOWED.SLOPES 3:1 OR FLATTER 14 DAYS7 DAYS FOR SLOPES GREATERTHAN 50' LENGTHALL OTHER AREAS WITH SLOPESFLATTER THAN 4:114 DAYSNONE, EXCEPT FOR PERIMETERSAND HQW ZONESSEE SHEET C001 FOR COMPLETE NDPES PERMIT INFORMATIONBEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!EROSION CONTROL CONSTRUCTION SEQUENCE1. OBTAIN NECESSARY PERMITS FROM ALL REGULATORY AUTHORITIES.2. CONTRACTOR SHALL LOCATE ALL UNDERGROUND UTILITIES PRIOR TO ANY EXCAVATION. SOFT DIG ALL UTILITIES WITHIN GRADINGAREA TO IDENTIFY POTENTIAL CONFLICTS.3. STAKE-OUT ALL EROSION CONTROL MEASURES PRIOR TO CONSTRUCTION.4. MAINTAIN NPDES TEMPORARY SEEDING SCHEDULE (SHEET C001) FOR ALL EXPOSED SOILS FOR THE DURATION OFCONSTRUCTION.5. INSTALL TEMPORARY GRAVEL CONSTRUCTION ENTRANCE WITH TEMPORARY 15" CMP TO PROVIDE ACCESS FROM SPEEDWAYBLVD.6. INSTALL SILT FENCE AND STONE OUTLETS AT INDICATED AREAS.7. INSTALL SAFETY FENCE AROUND WETLAND PERIMETER.8. INSTALL SKIMMER BASIN WITH FAIRCLOTH SKIMMER. SKIMMER BASIN TO REMAIN IN PLACE UNTIL ALL AREAS HAVE BEENADEQUATELY STABILIZED AND APPROVAL TO REMOVE MEASURE HAS BEEN RECEIVED BY ROWAN COUNTY EROSION CONTROLINSPECTIONS.9. INSTALL TEMPORARY 18" PIPE WITH INLET AND OUTLET PROTECTION AND TEMPORARY DIVERSIONS TO CONVEY RUNOFF TOSKIMMER BASIN.10. INSTALL SEDIMENT TRAP.11. INSTALL TEMPORARY DIVERSIONS TO CONVEY RUNOFF TO SEDIMENT TRAP.12. REMOVE EXISTING VEGETATION WITHIN GRADING LIMITS AND STOCKPILE TOPSOIL FOR LATER USE.13. PROCEED WITH MASS GRADING OPERATIONS, PLACING FILL IN LIFTS AS DIRECTED BY GEOTECHNICAL ENGINEER.14. INSTALL PIPE NETWORK WITH INLET PROTECTION. PIPE NETWORK TO OUTLET TO SKIMMER BASIN PRIOR TO SITE STABILIZATION.15. INSTALL UNDERGROUND UTILITIES.16. AFTER GRADING REACHES SUBGRADE ELEVATIONS, INSTALL STONE BASE IN PARKING AND BUILDING PAD AREAS TO PROTECTEXPOSED SOILS.17. STABILIZE ALL EXPOSED SOILS WITH SEEDING OR PERMANENT LANDSCAPING. SEED ALL WETLAND IMPACTS WITH RIPARIAN SEED.18. AFTER SITE STABILIZATION, REMOVE SKIMMER BASIN AND SEDIMENT TRAP TO INSTALL SAND FILTER #1 AND SAND FILTER #2 ANDCOMPLETE FINE GRADING. DO NOT ALLOW DISCHARGE INTO SAND FILTERS UNTIL SITE IS COMPLETELY STABILIZED.19. INSTALL REMAINING PERMANENT LANDSCAPING.20. REMOVE REMAINING EROSION CONTROL MEASURES AFTER RELEASE BY PERMITTING AUTHORITIES.SKIMMER BASIN CALCULATIONS1.DA = 2.43 ACRES2. DU = 2.43 ACRES3. tc = 5 minutes4. i = 7.0 inhr5. C = 0.66. Q10 = CiDA = (0.6)(7.0)(2.43) = 10.21 ft3/s7. SAreq = 325Q10 = (325)(10.21) = 3,319 ft28. Vreq = 1800DU = (1800)(2.43) = 4,374 ft39. L:W = 3.010. depth = 3.011. W = 34 ft → L = 102 ft12. SApvd = (34)(102) = 3,468 ft213. Vpvd= 8,100 ft314. LWEIR = 25'15. V@top 2 ft= 5,912 ft316. Tdewater = 3 days17. Qdewater = V@ top 2 ft/Tdewater= 1,971 ft3/dCOORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.OUTLET PROTECTIONHARDWARE CLOTH INLETPROTECTIONRIPRAP INLET PROTECTIONWETLAND25' WETLAND BUFFERSTREAM CENTERLINESEDIMENT TRAP CALCULATIONS1. DA = 0.83 ACRES2. DU = 0.69 ACRES3. tc = 5 minutes4. i = 7.0 inhr5. C = 0.66. Q10 = CiDA = (0.6)(7.0)(0.83) = 3.49 ft3/s7. SAreq = 435Q10 = (435)(3.49) = 1,519 ft28. Vreq = 3600DU = (3600)(0.69) = 2,484 ft39. L:W = 2.010. depth = 3.011. W = 28 ft → L = 56 ft12. SApvd = (28)(56) = 1,568 ft213. Vpvd = 3,336 ft314. Lw = 10 ftS MUSTTTTTT BE REC x x xxx x x xxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxx x x x x xxx x x xxRETAINING WALL TO BEDESIGNED BY OTHERS.TDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTDTD TD TDINV. = 772.503' La x 4' W2OUTLET PROTECTIONSEE DET. 6/C90234' W x 102' L x 3' DSKIMMER BASIN2.0" FAIRCLOTH SKIMMERWITH 1.5" KNOCKOUT ORIFICE25' EMERGENCY SPILLWAYELEV. = 775.00 SEE DET. 1-2/C903TEMPORARY 18" HDPETEMPORARY DIVERSIONSEE DET. 4/C902SILT FENCE SEEDET. 2/C902INV. = 777.75TEMP. INLETPROTECTIONSEE DET. 7/C902SILT FENCE SEEDET. 2/C902STONE OULETSEE DET. 3/C902TEMPORARYCONSTRUCTIONENTRANCE SEEDET. 1/C902PERMANENT DITCHTO LINED WITHCURLEX IITEMPORARY INLETPROTECTION (TYPICALAT ALL INLETS) SEEDET. 5/C90228' W x 56' L x 3' DSEDIMENT TRAP10' EMERGENCY SPILLWAYELEV. = 782.00SEE DET. 2-3/C903LIMITS OF DISTURBANCE5.87± ACRESTDTDTDTDTDTDTDTDTDTEMPORARY DIVERSION(ENSURE POSITIVEDRAINAGE) SEE DET. 4/C902CLASS B RIPRAPSTONE OULETSEE DET. 3/C902SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCPHASE 2 ESC PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C30112/11/2017VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKWETLAND25' WETLAND BUFFERSTREAM CENTERLINEGENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.MAINTENANCE PLAN1. EROSION CONTROL MEASURES SHALL BE INSTALLED PRIOR TO ANY EXISTING BUILDING DEMOLITION.2. CONTRACTOR IS RESPONSIBLE FOR ALL EROSION AND SEDIMENTATION CONTROL REQUIREMENTS AND SHALL COMPLYWITH THE LATEST EDITION OF THE NORTH CAROLINA EROSION AND SEDIMENTATION CONTROL MANUAL.3. PER NPDES REQUIREMENTS, CHECK ALL EROSION AND SEDIMENTATION CONTROL DEVICES AND STORMWATER RUNOFFDISCHARGES FROM EACH OUTFALL SHOULD BE INSPECTED EVERY SEVEN DAYS AND WITHIN 24 HOURS AFTER ANYSTORM EVENT. A RAINFALL GAUGE SHALL BE KEPT ON SITE,AND A RECORD OF RAINFALL AMOUNTS AND DATES MUST BERECORDED AND KEPT ON SITE. RECORDS OF INSPECTIONS OF DEVICES AND OUTFALLS SHOULD BE KEPT AND VISIBLESEDIMENTATION OUTSIDE THE DISTURBED LIMITS SHOULD BE NOTED. ANY ACTIONS TO CONTROL FUTURE RELEASESAND CLEANUP OF SEDIMENT MUST BE RECORDED. A SAMPLE LOG FOR RECORD KEEPING IS AVAILABLE FROM NCDEQDIVISION OF WATER QUALITY, STORMWATER AND GENERAL PERMITS UNIT.4. CHECK ALL EROSION CONTROL DEVICES WEEKLY AND AFTER EACH RUNOFF PRODUCING STORM EVENT AND MAKE ANYNECESSARY REPAIRS AS NEEDED TO ENSURE DEVICES ARE FUNCTIONING AS INTENDED.5. REMOVE SEDIMENT DEPOSITS FROM SILT FENCE AND STONE OUTLETS WHEN DEPOSITS REACH HALF CAPACITY, REPAIRANY BREAKS IMMEDIATELY.6. REPLACE GRAVEL CONSTRUCTION ENTRANCE AS NECESSARY.7. CONTRACTOR WILL BE FINANCIALLY RESPONSIBLE FOR ANY AND ALL FINES LEVIED DUE TO NOT MAINTAINING PROPEREROSION CONTROL MEASURES AT ALL TIMES.SILT FENCELIMITS OF DISTURBANCETEMPORARY DIVERSIONSTABILIZATION TIMEFRAMESSITE AREA DESCRIPTION STABILIZATION TIMEFRAME EXCEPTIONSPERIMETER DIKES, SWALES, DITCHES,SLOPES7 DAYS NONEHIGH QUAILTY WATER (HQW) ZONES7 DAYS NONESLOPES STEEPER THAN 3:1 7 DAYSIF SLOPES ARE 10' OR LESS INLENGTH AND ARE NOT STEEPERTHAN 2:1, 14 DAYS AREA ALLOWED.SLOPES 3:1 OR FLATTER 14 DAYS7 DAYS FOR SLOPES GREATERTHAN 50' LENGTHALL OTHER AREAS WITH SLOPESFLATTER THAN 4:114 DAYSNONE, EXCEPT FOR PERIMETERSAND HQW ZONESSEE SHEET C001 FOR COMPLETE NDPES PERMIT INFORMATIONBEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!SKIMMER BASIN CALCULATIONS1. DA = 2.43 ACRES2. DU = 2.43 ACRES3. tc = 5 minutes4. i = 7.0 inhr5. C = 0.66. Q10 = CiDA = (0.6)(7.0)(2.43) = 10.21 ft3/s7. SAreq = 325Q10 = (325)(10.21) = 3,319 ft28. Vreq = 1800DU = (1800)(2.43) = 4,374 ft39. L:W = 3.010. depth = 3.011. W = 34 ft → L = 102 ft12. SApvd = (34)(102) = 3,468 ft213. Vpvd= 8,100 ft314. LWEIR = 25'15. V@top 2 ft= 5,912 ft316. Tdewater = 3 days17. Qdewater = V@ top 2 ft/Tdewater= 1,971 ft3/dCOORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.OUTLET PROTECTIONHARDWARE CLOTH INLETPROTECTIONRIPRAP INLET PROTECTIONSEDIMENT TRAP CALCULATIONS1. DA = 0.83 ACRES2. DU = 0.69 ACRES3. tc = 5 minutes4. i = 7.0 inhr5. C = 0.66. Q10 = CiDA = (0.6)(7.0)(0.83) = 3.49 ft3/s7. SAreq = 435Q10 = (435)(3.49) = 1,519 ft28. Vreq = 3600DU = (3600)(0.69) = 2,484 ft39. L:W = 2.010. depth = 3.011. W = 28 ft → L = 56 ft12. SApvd = (28)(56) = 1,568 ft213. Vpvd = 3,336 ft314. Lw = 10 ftEROSION CONTROL CONSTRUCTION SEQUENCE1. OBTAIN NECESSARY PERMITS FROM ALL REGULATORY AUTHORITIES.2. CONTRACTOR SHALL LOCATE ALL UNDERGROUND UTILITIES PRIOR TO ANY EXCAVATION. SOFT DIG ALL UTILITIES WITHIN GRADINGAREA TO IDENTIFY POTENTIAL CONFLICTS.3. STAKE-OUT ALL EROSION CONTROL MEASURES PRIOR TO CONSTRUCTION.4. MAINTAIN NPDES TEMPORARY SEEDING SCHEDULE (SHEET C001) FOR ALL EXPOSED SOILS FOR THE DURATION OFCONSTRUCTION.5. INSTALL TEMPORARY GRAVEL CONSTRUCTION ENTRANCE WITH TEMPORARY 15" CMP TO PROVIDE ACCESS FROM SPEEDWAYBLVD.6. INSTALL SILT FENCE AND STONE OUTLETS AT INDICATED AREAS.7. INSTALL SAFETY FENCE AROUND WETLAND PERIMETER.8. INSTALL SKIMMER BASIN WITH FAIRCLOTH SKIMMER. SKIMMER BASIN TO REMAIN IN PLACE UNTIL ALL AREAS HAVE BEENADEQUATELY STABILIZED AND APPROVAL TO REMOVE MEASURE HAS BEEN RECEIVED BY ROWAN COUNTY EROSION CONTROLINSPECTIONS.9. INSTALL TEMPORARY 18" PIPE WITH INLET AND OUTLET PROTECTION AND TEMPORARY DIVERSIONS TO CONVEY RUNOFF TOSKIMMER BASIN.10. INSTALL SEDIMENT TRAP.11. INSTALL TEMPORARY DIVERSIONS TO CONVEY RUNOFF TO SEDIMENT TRAP.12. REMOVE EXISTING VEGETATION WITHIN GRADING LIMITS AND STOCKPILE TOPSOIL FOR LATER USE.13. PROCEED WITH MASS GRADING OPERATIONS, PLACING FILL IN LIFTS AS DIRECTED BY GEOTECHNICAL ENGINEER.14. INSTALL PIPE NETWORK WITH INLET PROTECTION. PIPE NETWORK TO OUTLET TO SKIMMER BASIN PRIOR TO SITE STABILIZATION.15. INSTALL UNDERGROUND UTILITIES.16. AFTER GRADING REACHES SUBGRADE ELEVATIONS, INSTALL STONE BASE IN PARKING AND BUILDING PAD AREAS TO PROTECTEXPOSED SOILS.17. STABILIZE ALL EXPOSED SOILS WITH SEEDING OR PERMANENT LANDSCAPING. SEED ALL WETLAND IMPACTS WITH RIPARIAN SEED.18. AFTER SITE STABILIZATION, REMOVE SKIMMER BASIN AND SEDIMENT TRAP TO INSTALL SAND FILTER #1 AND SAND FILTER #2 ANDCOMPLETE FINE GRADING. DO NOT ALLOW DISCHARGE INTO SAND FILTERS UNTIL SITE IS COMPLETELY STABILIZED.19. INSTALL REMAINING PERMANENT LANDSCAPING.20. REMOVE REMAINING EROSION CONTROL MEASURES AFTER RELEASE BY PERMITTING AUTHORITIES.S MUSTTTTTTTT BE REC x x xxx x x xxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxx x x x x xxx x x xxMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.RETAINING WALL TO BEDESIGNED BY OTHERS.SILT FENCE SEEDET. 2/C902SILT FENCE SEEDET. 2/C902STONE OULETSEE DET. 3/C902PERMANENT DITCHTO LINED WITHCURLEX IITEMPORARY INLETPROTECTION (TYPICALAT ALL INLETS) SEEDET. 5/C902LIMITS OF DISTURBANCE5.87± ACRESSTONE OULETSEE DET. 3/C9028" PVCDECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904OUTLET STRUCTURE #1RIM ELEV. = 778.00SEE DET. 9/C90230' EMERGENCYSPILLWAY ELEV. = 779.00LINE WITH CLASS BRIPRAPSAND FILTER #2SEE DET. 4/C90318" HDPE INV. = 773.00W/ 8' La x 10' W2OUTLET PROTECTIONSEE DET. 6/C902SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCFINAL PHASE ESC PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C30212/11/2017VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKWETLAND25' WETLAND BUFFERSTREAM CENTERLINEGENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.MAINTENANCE PLAN1. EROSION CONTROL MEASURES SHALL BE INSTALLED PRIOR TO ANY EXISTING BUILDING DEMOLITION.2. CONTRACTOR IS RESPONSIBLE FOR ALL EROSION AND SEDIMENTATION CONTROL REQUIREMENTS AND SHALL COMPLYWITH THE LATEST EDITION OF THE NORTH CAROLINA EROSION AND SEDIMENTATION CONTROL MANUAL.3. PER NPDES REQUIREMENTS, CHECK ALL EROSION AND SEDIMENTATION CONTROL DEVICES AND STORMWATER RUNOFFDISCHARGES FROM EACH OUTFALL SHOULD BE INSPECTED EVERY SEVEN DAYS AND WITHIN 24 HOURS AFTER ANYSTORM EVENT. A RAINFALL GAUGE SHALL BE KEPT ON SITE,AND A RECORD OF RAINFALL AMOUNTS AND DATES MUST BERECORDED AND KEPT ON SITE. RECORDS OF INSPECTIONS OF DEVICES AND OUTFALLS SHOULD BE KEPT AND VISIBLESEDIMENTATION OUTSIDE THE DISTURBED LIMITS SHOULD BE NOTED. ANY ACTIONS TO CONTROL FUTURE RELEASESAND CLEANUP OF SEDIMENT MUST BE RECORDED. A SAMPLE LOG FOR RECORD KEEPING IS AVAILABLE FROM NCDEQDIVISION OF WATER QUALITY, STORMWATER AND GENERAL PERMITS UNIT.4. CHECK ALL EROSION CONTROL DEVICES WEEKLY AND AFTER EACH RUNOFF PRODUCING STORM EVENT AND MAKE ANYNECESSARY REPAIRS AS NEEDED TO ENSURE DEVICES ARE FUNCTIONING AS INTENDED.5. REMOVE SEDIMENT DEPOSITS FROM SILT FENCE AND STONE OUTLETS WHEN DEPOSITS REACH HALF CAPACITY, REPAIRANY BREAKS IMMEDIATELY.6. REPLACE GRAVEL CONSTRUCTION ENTRANCE AS NECESSARY.7. CONTRACTOR WILL BE FINANCIALLY RESPONSIBLE FOR ANY AND ALL FINES LEVIED DUE TO NOT MAINTAINING PROPEREROSION CONTROL MEASURES AT ALL TIMES.SILT FENCELIMITS OF DISTURBANCETEMPORARY DIVERSIONSTABILIZATION TIMEFRAMESSITE AREA DESCRIPTION STABILIZATION TIMEFRAME EXCEPTIONSPERIMETER DIKES, SWALES, DITCHES,SLOPES7 DAYS NONEHIGH QUAILTY WATER (HQW) ZONES7 DAYS NONESLOPES STEEPER THAN 3:1 7 DAYSIF SLOPES ARE 10' OR LESS INLENGTH AND ARE NOT STEEPERTHAN 2:1, 14 DAYS AREA ALLOWED.SLOPES 3:1 OR FLATTER 14 DAYS7 DAYS FOR SLOPES GREATERTHAN 50' LENGTHALL OTHER AREAS WITH SLOPESFLATTER THAN 4:114 DAYSNONE, EXCEPT FOR PERIMETERSAND HQW ZONESSEE SHEET C001 FOR COMPLETE NDPES PERMIT INFORMATIONBEFORE YOU DIG!CALL 1-800-632-4949N.C. ONE-CALL CENTERIT'S THE LAW!COORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.OUTLET PROTECTIONHARDWARE CLOTH INLETPROTECTIONRIPRAP INLET PROTECTIONEROSION CONTROL CONSTRUCTION SEQUENCE1. OBTAIN NECESSARY PERMITS FROM ALL REGULATORY AUTHORITIES.2. CONTRACTOR SHALL LOCATE ALL UNDERGROUND UTILITIES PRIOR TO ANY EXCAVATION. SOFT DIG ALL UTILITIES WITHIN GRADINGAREA TO IDENTIFY POTENTIAL CONFLICTS.3. STAKE-OUT ALL EROSION CONTROL MEASURES PRIOR TO CONSTRUCTION.4. MAINTAIN NPDES TEMPORARY SEEDING SCHEDULE (SHEET C001) FOR ALL EXPOSED SOILS FOR THE DURATION OFCONSTRUCTION.5. INSTALL TEMPORARY GRAVEL CONSTRUCTION ENTRANCE WITH TEMPORARY 15" CMP TO PROVIDE ACCESS FROM SPEEDWAYBLVD.6. INSTALL SILT FENCE AND STONE OUTLETS AT INDICATED AREAS.7. INSTALL SAFETY FENCE AROUND WETLAND PERIMETER.8. INSTALL SKIMMER BASIN WITH FAIRCLOTH SKIMMER. SKIMMER BASIN TO REMAIN IN PLACE UNTIL ALL AREAS HAVE BEENADEQUATELY STABILIZED AND APPROVAL TO REMOVE MEASURE HAS BEEN RECEIVED BY ROWAN COUNTY EROSION CONTROLINSPECTIONS.9. INSTALL TEMPORARY 18" PIPE WITH INLET AND OUTLET PROTECTION AND TEMPORARY DIVERSIONS TO CONVEY RUNOFF TOSKIMMER BASIN.10. INSTALL SEDIMENT TRAP.11. INSTALL TEMPORARY DIVERSIONS TO CONVEY RUNOFF TO SEDIMENT TRAP.12. REMOVE EXISTING VEGETATION WITHIN GRADING LIMITS AND STOCKPILE TOPSOIL FOR LATER USE.13. PROCEED WITH MASS GRADING OPERATIONS, PLACING FILL IN LIFTS AS DIRECTED BY GEOTECHNICAL ENGINEER.14. INSTALL PIPE NETWORK WITH INLET PROTECTION. PIPE NETWORK TO OUTLET TO SKIMMER BASIN PRIOR TO SITE STABILIZATION.15. INSTALL UNDERGROUND UTILITIES.16. AFTER GRADING REACHES SUBGRADE ELEVATIONS, INSTALL STONE BASE IN PARKING AND BUILDING PAD AREAS TO PROTECTEXPOSED SOILS.17. STABILIZE ALL EXPOSED SOILS WITH SEEDING OR PERMANENT LANDSCAPING. SEED ALL WETLAND IMPACTS WITH RIPARIAN SEED.18. AFTER SITE STABILIZATION, REMOVE SKIMMER BASIN AND SEDIMENT TRAP TO INSTALL SAND FILTER #1 AND SAND FILTER #2 ANDCOMPLETE FINE GRADING. DO NOT ALLOW DISCHARGE INTO SAND FILTERS UNTIL SITE IS COMPLETELY STABILIZED.19. INSTALL REMAINING PERMANENT LANDSCAPING.20. REMOVE REMAINING EROSION CONTROL MEASURES AFTER RELEASE BY PERMITTING AUTHORITIES.NS MUSTTTTTT BE REC12/11/2017 x xxx x x xxxxxxxxxxxxxxxxxxxx x xxxxxx x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxx x x xxMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.SMHSMHSMHSMH2" POTABLE WATER METER WITH2" COPPER WATER LINESRPZ WITH HEATEDENCLOSUREDOUBLE CHECKASSEMBLYFIRE HYDRANT PERCITY/COUNTYSTANDARDS6" DIP FIRE LINE (COORDINATEWATER TAP WITH LOCALSERVICE PROVIDER)DOUBLE CHECKASSEMBLYFIRE HYDRANT PERCITY/COUNTYSTANDARDS6" SEWER LINE INV. = 791.00SEWER MANHOLESEWER MANHOLESEWER MANHOLESEWER MANHOLESMH6" DIP FIRE LINE (COORDINATE WATERTAP WITH LOCAL SERVICE PROVIDER)6" SCH 40 PVC SEWER LINE6" SCH 40 PVC SEWER LINE6" SCH 40 PVC SEWER LINERETAINING WALL TO BEDESIGNED BY OTHERS.6" DIP FIRE LINE6" DIP FIRE LINE2" COPPER WATER LINEDECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904SAND FILTER #2SEE DET. 4/C903SAFETY FENCESEE DET. 8/C901SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCUTILITY PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080C40012/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKPOVERHEAD ELECTRICEX. SANITARY SEWEREX. WATERTVTV CABLELOCAL UTILITY COMPANIESUTILITY COMPANY NAME PHONEWATER SALISBURY ROWAN UTILITIES(704) 638-5300POWER DUKE ENERGY (800) 452-2777TELEPHONE CENTURYLINK (800) 366-8201TELEPHONE AT&T (800) 225-5288SANITARY SEWER SALISBURY ROWAN UTILITIES(704) 638-5300COORDINATE WITH NCDOT AND/OR LOCAL TRANSPORTATIONAUTHORITY AND FOLLOW TRAFFIC MANAGEMENT PLAN FORALL WORK WITHIN AND ADJACENT TO PUBLIC RIGHT OF WAY.ON-SITE UTILITY NOTES1. FOR GENERAL SITE WORK, SEE SHEET C100.2. ALL WATER DISTRIBUTION PIPE SHALL BE DUCTILE IRON WATER PIPE CONFORMING TO ALL STATE AND LOCALSTANDARDS.3. ALL DUCTILE IRON PIPE SHALL BE PRESSURE CLASS 50 OR GREATER.4. ALL SANITARY SEWER PIPE SHALL BE SDR 35 PVC PIPE FOR GRAVITY FLOW AND SCH 40 FOR PRESSURED FLOW(BEDDED IN STONE) CONFORMING TO ALL STATE AND LOCAL STANDARDS.5. FITTINGS 4" AND LARGER SHALL BE DUCTILE IRON (PUSH-ON TYPE JOINT) CONFORMING TO ANSI AND AWWASTANDARD SPECIFICATIONS.6. PIPE AND FITTINGS 3" AND SMALLER ARE TO BE EITHER PVC SCHEDULE 40 WITH SOLVENT WELD JOINTS OR SOFTK-COPPER. GATE VALVES SHALL BE TELESCOPE TYPES. ALL VALVES MUST BE MUELLER, M&H OR KENNEDY AND BERATED 175 PSI WORKING PRESSURE AND 300 PSI HYDROSTATIC TEST PRESSURE. ALL VALVES WILL BE OPEN LEFTAND BE CAST OR DUCTILE IRON BODIED.7. ALL WATER MAINS SHALL HAVE A MINIMUM COVER OF 3' ABOVE THE TOP OF THE PIPE.8. THE MINIMUM HORIZONTAL SEPARATION BETWEEN THE CLOSEST TWO POINTS OF THE WATER AND SEWER LINE ISTEN FEET (10'). THE MINIMUM VERTICAL SEPARATION BETWEEN THE CLOSEST TWO POINTS OF THE WATER ANDSEWER LINE IS EIGHTEEN INCHES (18").9. THRUST BLOCKS SHALL BE PROVIDED AT ALL BENDS.10. DIMENSIONS SHOWN ARE CENTERLINE OF PIPE OR FITTINGS.11. ALL SPRINKLER, DOMESTIC, AND SANITARY LEADS TO THE BUILDING SHALL END 5' FROM THE EDGE OF BUILDING ASSHOWN ON PLAN AND SHALL BE PROVIDED WITH A TEMPORARY PLUG AT END (FOR OTHERS TO REMOVE ANDEXTEND AS NECESSARY).12. ALL WATER MAINS SHALL BE HYDROSTATICALLY TESTED AND DISINFECTED BEFORE ACCEPTANCE. SEE SITEWORK SPECIFICATIONS.13. ALL GATE VALVES/BOXES SHALL BE TO TOWN/CITY STANDARDS.14. ALL TRENCHING, PIPE LAYING, AND BACKFILLING SHALL BE IN ACCORDANCE WITH FEDERAL OSHA REGULATIONS.15. SEE SITE SPECIFICATIONS FOR BACKFILLING AND COMPACTION REQUIREMENTS.16. SITE CONTRACTOR SHALL HAVE APPROVAL OF ALL GOVERNING AGENCIES HAVING JURISDICTION OVER THISSYSTEM PRIOR TO COMPLETION.17. INSTALLATION OF THIS PLAN SHALL BE DONE IN STRICT ACCORDANCE WITH SITE WORK SPECIFICATIONS.18. SEE ELECTRICAL PLAN FOR SITE LIGHTING LAYOUT.19. SEE 'M' SHEETS FOR CONTINUATION OF FACILITIES INTO AND OUT OF THE BUILDING.20. CONTRACTOR IS RESPONSIBLE FOR COORDINATION WITH LOCAL POWER PROVIDER FOR THE LOCATION OF THETRANSFORMER AND ANY NECESSARY CONDUITS.21. CONTRACTOR IS RESPONSIBLE FOR COORDINATION WITH LOCAL TELECOMMUNICATION PROVIDER THE LOCATIONOF ANY PEDESTALS AND NECESSARY CONDUITS.WETLAND25' WETLAND BUFFERSTREAM CENTERLINES MUSTTTTTTT BE REC x x xxx x x xxxxxxxxxxxxx x x x x x x x x x xxxxxxxxxxx x xxxxxxxx x x x xxxxxxxxxxxxxxxxxx x xxx x x xxMAKSON CORPORATE OFFICE3 - STORIES (10,530 SQ.FT. PER FLOOR)31,590 SQ.FT.F.F.E. = 792.0019 PARKING SPACESMAKSON CONSTRUCTIONWAREHOUSEWAREHOUSE TOTAL 30,000 SQ.F.TMEZZANINE 3,480 SQ.FT.F.F.E. = 792.00100 PARKING SPACESFUTURE EXPANSION15,150 SQ.FT.BERMUDA SEEDBERMUDA SEEDBERMUDA SEEDBERMUDA SEEDRETAINING WALL TO BEDESIGNED BY OTHERS.SITE LIGHTINGMAX HEIGHT 25'GA - 2RH - 1GA - 5RH - 210' STREET BUFFERWO - 5GA - 7RH - 4GA - 2GA - 2RH - 1DECORATIVE FENCESEE DET. 1/C9012 - 15' DOUBLEA-FRAME BARRIERGATE SEE DET. 2/C904SAND FILTER #2SEE DET. 4/C903SAFETY FENCESEE DET. 8/C901SAFETY FENCESEE DET. 8/C901RIPARIAN SEEDRIPARIAN SEEDSODSODSCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.0DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCLANDSCAPE PLANMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCH1" = 40'40 402080G10012/11/2017GENERAL NOTES1. CONTRACTOR IS TO VERIFY ALL UTILITY LOCATIONS PRIOR TO BEGINNING WORK.2. ALL WORK IS TO BE IN ACCORDANCE WITH ALL STATE AND LOCAL REGULATIONS.3. ALL PERMITS ARE TO BE OBTAINED BY THE CONTRACTOR PRIOR TO THE START OF CONSTRUCTION.4. EXISTING UTILITIES ON SITE SHALL BE RELOCATED AS REQUIRED. CONTRACTOR SHALL PAY ALL COSTSASSOCIATED WITH RELOCATION.5. CONTRACTORS ARE TO FULLY ACQUAINT THEMSELVES WITH ALL UTILITIES WITHIN THE CITY AND STATE ROW ANDWITHIN THE PROPERTY BOUNDARIES WHICH WILL REQUIRE RELOCATION. ALL COSTS ASSOCIATED WITHRELOCATION SHALL BE INCLUDED IN THE BASE BID.6. ALL WORK PERFORMED WITHIN NCDOT ROW SHALL BE PER NCDOT SPECS AND SHALL BE INSPECTED FORCOMPLIANCE BY STATE INSPECTORS AT THEIR DISCRETION.7. ALL OFF-SITE FILL MUST COME FROM AN APPROVED SITE. CONTRACTOR IS RESPONSIBLE FOR PERMITTINGBORROW SITE.VICINITY MAP (NTS)LEGENDPROPERTY LINEEXISTING CONTOURSPROPOSED CONTOURS100100SETBACKLANDSCAPE PLANTING LEGENDSYMBOL LABELQTY.SCIENTIFIC NAME COMMON NAME SIZE AT PLANTINGGA18Abelia x grandifloraGLOSSY ABELIA18" HEIGHT/B&BRH 8Rhododendron x 'Lee's Dark Purple'LEE'S DARK PURPLE RHODODENDRON 18" HEIGHT/B&BWO5Quercus albaWHITE OAK2" CALIPER/10' HEIGHT/B&B (STREET ONLY)SODSEEDRIPARIAN SEEDWETLAND25' WETLAND BUFFERSTREAM CENTERLINENS MUSTTTTTTT BE REC12/11/2017 SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCDETAILSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC90012/11/2017HEAVY-DUTY ASPHALT PAVINGCOMPACTED SUB-GRADE (PER SPECS.)8" ABC COMPACTED STONE BASE(COMPACTED TO 100% MODIFIED PROCTOR)2.5" ASPHALT BINDER1" ASPHALT SURFACE COATGENERAL NOTES:1. VERIFY EXACT PAVING DESIGN WITH GEOTECHNICAL ENGINEER FOR PROJECT1C900STANDARD ASPHALT PAVINGCOMPACTED SUB-GRADE6" ABC COMPACTED STONE BASE(COMPACTED TO 100% MODIFIED PROCTOR)2" ASPHALT SURFACE COATGENERAL NOTES:1. VERIFY EXACT PAVING DESIGN WITH GEOTECHNICAL ENGINEER FOR PROJECT2C900HANDICAP RAMPNOTE:ALL ACCESSIBLE RAMPS ANDACCESS AISLES SHALL MEET ALLCODES AND ADAAG REGULATIONS.ACCESSIBLEPARKING SIGN, ASREQUIRED8'-0"SEE PLAN8'-0"SEE PLANSTANDARD ACCESSIBLEPARKING SYMBOL PAINTEDON PAVEMENT. PAINT COLORTO BE PER THE AUTHORITYHAVING JURISDICTION.4" STRIPES @ 24" O.C. AT 45DEGREES. PAINT COLOR TO BEPER THE AUTHORITY HAVINGJURISDICTION.4" PARKING SPACESTRIPE. PAINT COLOR TOBE PER THE AUTHORITYHAVING JURISDICTION.1:12 MAXSLOPEDOWN1:12 MAXSLOPEDOWNSEE PLANCOLORED TOOLED/SERRATED SLIPRESISTANT SURFACING AND/OR TACTILEWARNING DEVICE AS REQUIRED BYAMERICANS WITH DISABILITIES ACTACCESSIBILITY GUIDELINES AND CODEREQUIREMENTSACCESSIBLEPARKING SIGN, ASREQUIREDSTRIPINGTOP COAT SHERWIN WILLIAMS -PROMAR TRAFFIC MARKINGPAINT "H.C." BLUE5C9007' MIN.SIDEWALKSTANDARD ALUM. MAXIMUM PENALTYSIGN R7-8D FASTENED TO BUILDINGSTANDARD ALUM. HANDICAPPED PARKINGSIGN R7-8 FASTENED TO BUILDING12"9"18"HANDICAPPED PARKING SIGNWALL MOUNTED3C900SIDEWALKSTANDARD ALUM. MAXIMUM PENALTYSIGN R7-8D FASTENED TO BUILDING.STANDARD ALUM. HANDICAPPED PARKINGSIGN R7-8 FASTENED TO BUILDING.12"9"18"VAN ACCESSIBLE PARKING SIGNWALL MOUNTEDTHIS SIGN TYPICAL AT ALL"VAN ACCESSIBLE" PARKING SPACES7' MIN.9"ONE SIGN PER HANDICAPPARKING SPACE/ WHERE 2SPACES FACE EACH OTHER, ONEPOST SHALL BE USED WITHSIGNAGE ON EACH SIDE.4C900#4 BAR4"2"6"6' LONG CONC. WHEEL STOPANCHORTED WITH (2) #4 BARS6'4" PAINTED WHITE LINES18"CONCRETE WHEEL STOP6C900CURB AND GUTTER3000 PSI CONC.CURB AND GUTTERASPHALT PAVINGSEE DETAIL18"6"6"1" RAD.ASPHALT SHALL BE 14"ABOVE GUTTER EDGECOMPACTED ABC6"7C900EDGE OF ASPHALT PAVINGTYP. CONC. CURB ANDGUTTERVARIED SLOPED CURBDEPRESSED CURB9C900SIDEWALK/CURB SECTION#4 BAR CONT.114" WASHED STONE3000 PSI CONCRETE WITHW2.9 X W2.9 W.W.F. OR#3'S AT 18"2% SLOPE1/2 " ROUNDASPHALT PAVINGSEE DETAIL4"4"6"18" TURNDOWN8C900S MUSTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT BE REC SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCDETAILSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC90112/11/2017DUMPSTER SCREENINGPROVIDE SOLID 4" SUPPORTWHEEL AND GALV. BRACKETWOOD GATES8" x 8" THICKENEDEDGE4" DIA. SCHED. 40 PIPE W/SLOPEDMTL. CAP ON TOP MAXIMUM 6'-0"O.C. SET PIPE IN CONCRETEFOOTING MIN. 1'-0" DIA. TO FROSTDEPTH(FILL PIPE W/CONC. TO 4'-0" ABOVEFIN. CONC. IN HIGH WIND LOADLOCATIONS.)18'-0EQ.12'-0"EQ.EQ.EQ.8" CONC. SLAB REINF.W/ W.W.F. 6"x6" - W2.9x W2.9 ON 6"AGGREGATE BASEEQ.NOTES:1) FOOTINGS SHALL EXTEND 3'-6" MINIMUMBELOW FINISH GRADE.2) SEE CIVIL DRAWINGS FOR DUMPSTERENCLOSURE LOCATION.3) 8" THICK CONCRETE SLAB OVER 6" THICKCRUSHED AGGREGATE. 12"X12" THICKENEDEDGE FOR APPROACH SLAB. #4 REBAR @2'-0" O.C. EACH WAY.TRASH ENCLOSURE PLANFRONT VIEWNOTE:1. WOOD TO BE TREATED PINE. USE GALVANIZED NAILS FORFASTENING.2. NUMBER OF BOARDS WILL VARY DEPENDING ON SPACEBETWEEN BOARDS AND ACTUAL WIDTH OF BOARDS.REAR VIEWTOP VIEW8'-0" MAX. POST SPACING1X64x42x44x41X62X42"-4"SPACINGFRONT10"4" MAXSPACINGIF AN UNOBSTRUCTED VIEW EXISTS OF A RESIDENTIAL BUILDINGBETWEEN TENANT PARCEL AND ADJACENT PARCEL, THENLESSOR SHALL CONSTRUCT A PRIVACY FENCE IN ACCORDANCEWITH TENANT'S PROTOTYPE CRITERIA SET PLANS AND ANYAPPLICABLE GOVERNMENTAL REQUIREMENTS.1X64x42x44x4GATES SHALL BE CONSTRUCTEDOUT OF STEEL FRAME TUBINGWITH PIVOT HINGES MOUNTEDON 6" STEEL PIPE BOLLARDS.PROPER LATCHING AND LOCKHARDWARD SHALL BE PROVIDEDIN ORDER TO RESTRAIN AND/ORLOCK ENCLOSURE GATESGATE ELEVATIONCAPSHADOW BOXFENCING, ATTACHEDWITH 14" GALV.CARRIAGE BOLTS,(SOLID COLOR STAIN)PROVIDE SOLID 4"SUPPORT WHEEL ANDGALV. BRACKET6" DIA. BOLLARD6" DIA. BOLLARD4C901DUMPSTER PAD SECTIONASPHALT PAVINGSEE DETAIL4000 PSI CONCRETE WITHW2.9 X W2.9 W.W.F. OR# 3'S AT 18"COMPACTED SUB-GRADE4" #57 WASHED STONE1'4"6"8"(2) #4 CONT.2C901CURB INLETINLET FRAME & GRATEUSF 5181-6420 FOR SAG INLETS & USF5130-6431 FOR ON GRADE INLETSUNLESS SPECIFIED OTHERWISECONC. GROUT#4 BAR AT 8" O.C.E.W.CONC. GROUTCONCRETE BRICK ORPRE-CAST BOXGROUT INTERIORWALLSSTEP REQ'D FORBOXES > 4' DEEPAT 10" O.C.1" RADIUS UNLESSOTHERWISE SPECIFIED6" #57 STONE COMPACTED3C901DROP INLET10'FOOTING BEYONDGRATENOTE: PIPE ALIGNMENTSSHOWN ARE EXAMPLESPRECAST BOXASPAHLT PAVINGOR CONCRETECONCRETE APRONAROUND INLET3000 PSI CONCRETE#4 BAR AT 8" O.C.E.W.6" #57 STONE BASE(COMPACTED)VARIESPRE-CAST CONCRETE BOX6"(TYP.)GROUT SMOOTHAROUND PIPEVARIESTO FIT PIPE O.D.AND GRATE INLETPRE-CAST BOX#4 BAR CONT8"10"STEPS REQ'D FORBOXES > 4' DEEPAT 10" O.C.SLOPE 2%5' TYP.GRATE AND FRAMEUSF 4139-6002UNLESS SPECIFIED OTHERWISE3000 PSI CONCRETE APRONWITH 6X6 10/10 WWF(COLOR DARK GRAY)8"5C901YARD INLETCONC. GROUTFOOTING BEYONDSTEP REQ'D FORBOXES > 4' DEEPAT 10" O.C.BASIN: NDS# 1200&1216PRE-CAST CATCH BASINPER D.O.T. HEAVY-DUTYTRAFFIC RATING. ROUNDPRE-CAST CAN BESUBSTITUTED FOR SQUAREGROUT INTERIORWALLS#4 REBAR AT 8" O.C.E.W.4"INLET FRAMEAND GRATE(USF 4131-6259)6" OF #57 STONE COMPACTED6C901CURB & GUTTERPAVEMENTCOMPACTED EARTH12"6"6"18"6"CONCRETE FLUMEASECTION 'A'3'7C901GRADEFENCE MATERIAL:ORANGE, UV RESISTANTHIGH TENSILE STRENGTHPOLYETHYLENE LAMINARBARRICADE FABRIC4' O.C.MIN1.33 LBS/LF STEEL POST2' MIN4' MINSENSITIVE AREA PROTECTION8C901ARCHITECTURAL FENCE8' MAX.72"48"22"2"6"46"2"3 78"1 12" X 1 12" RAILS1" X 1" PICKET2 12" X 2 12" POST & FLAT CAP8"OWNER TO SELECTMATERIAL & FINISH1C901NS MUSTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT BE REC12/11/2017 SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCDETAILSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC90212/11/2017TEMPORARY GRAVEL CONSTRUCTIONENTRANCE50' MIN12' MINPUBLIC STREET50' MINPUBLIC STREET6" MINEXISTING GROUNDSOIL STABILIZATION FABRICUNDER 2-3" COARSE AGGREGATEGENERAL NOTES:1. A STABILIZED ENTRANCE PAD OF COARSE AGGREGATE OR RAILROAD BALLAST SHOULD BE LOCATED WHERE TRAFFIC WILL ENTER OR LEAVE THE CONSTRUCTION SITEONTO A PUBLIC STREET.2. FILTER FABRIC OR COMPACTED CRUSHER RUN STONE SHOULD BE USED AS A BASE FOR THE CONSTRUCTION ENTRANCE.3. THE ENTRANCE SHOULD BE MAINTAINED IN A CONDITION WHICH WILL PREVENT TRACKING OR FLOWING OF SEDIMENT ONTO PUBLIC STREETS OR EXISTING PAVEMENT.THE MAY REQUIRE PERIODIC TOP DRESSING WITH ADDITIONAL STONE AS CONDITIONS WARRANT AND REPAIR OR CLEANOUT OF ANY MEASURES USED TO TRAPSEDIMENT.4. ANY SEDIMENT SPILLED, DROPPED, WASHED, OR TRACKED ONTO PUBLIC STREETS MUST BE REMOVED IMMEDIATELY.5. WHEN APPROPRIATE, WHEELS MUST BE CLEANED TO REMOVE SEDIMENT PRIOR TO ENTERING A PUBLIC STREET. WHEN WASHING IS REQUIRED, IT SHOULD BE DONE IN ANAREA STABILIZED WITH CRUSHED STONE WHICH DRAINS INTO AN APPROVED SEDIMENT BASIN.6. CDOT MAY REQUIRE A STANDARD COMMERCIAL DRIVEWAY TO ACCESS THE CONSTRUCTION SITE IF THE DRIVEWAY IS ON A THROUGHFARE.7. PLEASE REFER TO NCESCPDM SECTION #6.06 FOR ADDITIONAL DESIGN SPECIFICATIONS REGARDING TEMPORARY GRAVEL CONSTRUCTION ENTRANCES/EXITS.MAINTENANCE NOTES:MAINTAIN THE GRAVEL PAD IN A CONDITION TO PREVENT MUD OR SEDIMENT FROM LEAVING THE CONSTRUCTION SITE. THIS MAY REQUIRE PERIODIC TOPDRESSING WITH2-INCH STONE. AFTER EACH RAINFALL, INSPECT ANY STRUCTURE USED TO TRAP SEDIMENT AND CLEAN IT OUT AS NECESSARY. IMMEDIATELY REMOVE ALL OBJECTIONABLEMATERIALS SPILLED, WASHED, OR TRACKED ONTO PUBLIC ROADWAYS.1C902SILT FENCEWOVEN FILTER FABRICWIRE FENCING2'STEEL POSTWIRE FENCINGFILTER FABRIC#57 STONEFLOWFILL SLOPE30" MINMAINTENANCE NOTES:1. INSPECT SEDIMENT FENCE AT LEAST ONCE A WEEK AND AFTER EACH RAINFALL. MAKE ANYREQUIRED REPAIRS IMMEDIATELY.2. SHOULD THE FABRIC OF A SEDIMENT FENCE COLLAPSE, TEAR, DECOMPOSE, OR BECOMEINEFFECTIVE, REPLACE IT PROMPTLY.3. REMOVE SEDIMENT DEPOSITS AS NECESSARY TO PROVIDE ADEQUATE STORAGE VOLUMEFOR THE NEXT RAIN AND TO REDUCE PRESSURE ON THE FENCE. TAKE CARE TO AVOIDUNDERMINING THE FENCE DURING CLEANOUT.4. REMOVE ALL FENCING MATERIALS AND UNSTABLE SEDIMENT DEPOSITS AND BRING THE AREATO GRADE AND STABILIZE IT AFTER THE CONTRIBUTING DRAINAGE AREA HAS BEENPROPERLY STABILIZED.4" MIN8" MIN24"FILTERFABRIC8' MAXGENERAL NOTES:1. USE A SYNTHETIC FILTER FABRIC OF AT LEAST 95% BY WEIGHT OF POLYOLEFINS ORPOLYESTER, WHICH IS CERTIFIED BY THE MANUFACTURER OR SUPPLIER AS CONFORMING TOTHE REQUIREMENTS IN ASTM D 6461, WHICH IS SHOWN IN PART IN TABLE 6.62b.2. SYNTHETIC FILTER FABRIC SHOULD CONTAIN ULTRAVIOLET RAY INHIBITORS AND STABILIZERSTO PROVIDE A MINIMUM OF 6 MONTHS OF EXPECTED USABLE CONSTRUCTION LIFE AT ATEMPERATURE RANGE OF 0 TO 120° F.3. ENSURE THAT POSTS FOR SEDIMENT FENCES ARE 1.25 LB/LINEAR FT MINIMUM STEEL WITH AMINIMUM LENGTH OF 5 FEET. MAKE SURE THAT STEEL POSTS HAVE PROJECTIONS TOFACILITATE FASTENING THE FABRIC.4. FOR REINFORCEMENT OF STANDARD STRENGTH FILTER FABRIC, USE WIRE FENCE WITH AMINIMUM 14 GAUGE AND A MAXIMUM MESH SPACING OF 6 INCHES.5. CONSTRUCT THE SEDIMENT BARRIER OF STANDARD STRENGTH OR EXTRA STRENGTHSYNTHETIC FILTER FABRICS.6. ENSURE THAT THE HEIGHT OF THE SEDIMENT FENCE DOES NOT EXCEED 24 INCHES ABOVETHE GROUND SURFACE. (HIGHER FENCES MAY IMPOUND VOLUMES OF WATER SUFFICIENT TOCAUSE FAILURE OF THE STRUCTURE.)7. CONSTRUCT THE FILTER FABRIC FROM A CONTINUOUS ROLL CUT TO THE LENGTH OF THEBARRIER TO AVOID JOINTS. WHEN JOINTS ARE NECESSARY, SECURELY FASTEN THE FILTERCLOTH ONLY AT A SUPPORT POST WITH 4 FEET MINIMUM OVERLAP TO THE NEXT POST.8. SUPPORT STANDARD STRENGTH FILTER FABRIC BY WIRE MESH FASTENED SECURELY TO THEUPSLOPE SIDE OF THE POSTS. EXTEND THE WIRE MESH SUPPORT TO THE BOTTOM OF THETRENCH. FASTEN THE WIRE REINFORCEMENT, THEN FABRIC ON THE UPSLOPE SIDE OF THEFENCE POST. WIRE OR PLASTIC ZIP TIES SHOULD HAVE MINIMUM 50 POUND TENSILESTRENGTH.9. WHEN A WIRE MESH SUPPORT FENCE IS USED, SPACE POSTS A MAXIMUM OF 8 FEET APART.SUPPORT POSTS SHOULD BE DRIVEN SECURELY INTO THE GROUND A MINIMUM OF 24 INCHES.10. EXTRA STRENGTH FILTER FABRIC WITH 6 FEET POST SPACING DOES NOT REQUIRE WIRE MESHSUPPORT FENCE. SECURELY FASTEN THE FILTER FABRIC DIRECTLY TO POSTS. WIRE ORPLASTIC ZIP TIES SHOULD HAVE MINIMUM 50 POUND TENSILE STRENGTH.11. EXCAVATE A TRENCH APPROXIMATELY 4 INCHES WIDE AND 8 INCHES DEEP ALONG THEPROPOSED LINE OF POSTS AND UPSLOPE FROM THE BARRIER.12. PLACE 12 INCHES OF THE FABRIC ALONG THE BOTTOM AND SIDE OF THE TRENCH.13. BACKFILL THE TRENCH WITH SOIL PLACED OVER THE FILTER FABRIC AND COMPACT.THOROUGH COMPACTION OF THE BACKFILL IS CRITICAL TO SILT FENCE PERFORMANCE.14. DO NOT ATTACH FILTER FABRIC TO EXISTING TREES.2C902FRONT VIEWSECTION VIEWGENERAL NOTES:1. STRUCTURAL STONE SHALL BE (CLASS B) STONE FOREROSION CONTROL PURPOSES.2. SEDIMENT CONTROL STONE SHALL BE #5 OR #57 STONE.#57 STONESTEEL FENCE POSTSILT FENCESTONE OUTLET1'-6" MIN.FLOW2:13' MAX.1'-6" MIN.STRUCTURAL STONESEDIMENTCONTROL STONE2' MAX.12"3C902TEMPORARY DIVERSION2' MINGENERAL NOTES:1. REMOVE AND PROPERLY DISPOSE OF ALL TREES, BRUSH, STUMPS ANDOTHER OBJECTIONABLE MATERIAL.2. ENSURE THAT THE MINIMUM CONSTRUCTED CROSS SECTION MEETS ALLDESIGN REQUIREMENTS.3. ENSURE THAT THE TOP OF THE DIKE IS NOT LOWER AT ANY POINT THAN THEDESIGN ELEVATION PLUS THE SPECIFIED SETTLEMENT.4. PROVIDE SUFFICIENT ROOM AROUND DIVERSION TO PERMIT MACHINEREGARDING AND CLEANOUT.5. VEGETATE THE RIDGE IMMEDIATELY AFTER CONSTRUCTION, UNLESS IT WILLREMAIN IN PLACE LESS THAN 30 WORKING DAYS.MAINTENANCE NOTES:1. INSPECT TEMPORARY DIVERSIONS ONCE A WEEK AND AFTER EVERYRAINFALL. IMMEDIATELY REMOVE SEDIMENT FROM THE LOW AREA ANDREPAIR THE DIVERSION RIDGE. CAREFULLY CHECK OUTLETS AND MAKETIMELY REPAIRS AS NEEDED. WHEN THE AREA PROTECTED IS PERMANENTLYSTABILIZED, REMOVED THE RIDGE AND THE CHANNEL TO BLEND WITH THENATURAL GROUND LEVEL AND APPROPRIATELY STABILIZE IT.6' TYPICALCOMPACTED SOILFLOW18" MIN4C902HARDWARE CLOTH AND GRAVEL INLETPROTECTION4' MAX3'2'16"2'FILTEREDWATER2119-GUAGE HARDWARE CLOTH(14 MESH OPENINGS)NCDOT #5 OR #57WASHED STONENC DOT #5 OR #57WASHED STONEGENERAL NOTES:1. REFER TO NCESCPDM SECTION #6.51 FORADDITIONAL DESIGN SPECIFICATIONS REGARDINGHARDWARE CLOTH AND GRAVEL INLETPROTECTION.STEEL T-POST5C902STANDARD PIPE OUTLET MINIMUMTAILWATERGENERAL NOTES:1. LA = THE LENGTH OF THE RIPRAP APRON.2. d = 1.5 TIMES THE MAXIMUM STONE DIAMETER BUTNOT LESS THAN 6" (INCHES).3. A FILTER BLANKET OR FILTER FABRIC SHOULD BEINSTALLED BETWEEN THE RIPRAP AND SOILFOUNDATION.MAINTENANCE NOTES:INSPECT RIPRAP OUTLET STRUCTURES WEEKLY ANDAFTER SIGNIFICANT (1/2 INCH OR GREATER) RAINFALLEVENTS TO SEE IF ANY EROSION AROUND OR BELOWTHE RIPRAP HAS TAKEN PLACE, OR IF STONES HAVEBEEN DISLODGED. IMMEDIATELY MAKE ALL NEEDEDREPAIRS TO PREVENT FURTHER DAMAGE.AAPLAN VIEWSECTION 'A-A'PIPEDO3 X DOPIPEFILTER FABRICdLAW = DO + LA LA6C902ROCK PIPE INLET PROTECTIONNATURAL GROUNDRIPRAP HEADWALL, 1' MINHEIGHT FROM ROAD SHOULDERPIPE INVERT3'1'2'1.5'FLOWNC DOT #5 OR #57WASHED STONECLASS B RIPRAPFLOWFLOWFLOW PIPE INVERT, 36"PIPE MAXRIPRAPHEADWALLCLASS B RIPRAPFILTER BERM NCDOT #5 OR #57WASHED STONEFLOWNATURAL GROUNDGENERAL NOTES:1. REFER TO NCESCPDM SECTION #6.55 FOR ADDITIONAL DESIGNSPECIFICATIONS REGARDING ROCK PIPE INLET PROTECTION.MAINTENANCE NOTES:1. INSPECT ROCK PIPE INLET PROTECTION AT LEAST WEEKLY ANDAFTER SIGNIFICANT (1/2 INCH OR GREATER) RAINFALL EVENT ANDREPAIR IMMEDIATELY. REMOVE SEDIMENT AND RESTORE THESEDIMENT STORAGE AREA TO ITS ORIGINAL DIMENSIONS WHENTHE SEDIMENT HAS ACUMULATED TO ONE-HALF THE DESIGNDEPTH OF TH TRAP. PLACE THE SEDIMENT THAT IS REMOVED INTHE DESIGNATED DISPOSAL AREA AND REPLACE THECONTAMINATED PART OF THE GRAVEL FACING.2. CHECK THE STRUCTURE FOR DAMAGE. ANY RIPRAP DISPLACEDFROM THE STONE HORSESHOE MUST BE REPLACED.3. AFTER ALL THE SEDIMENT-PRODUCING AREAS HAVE BEENPERMANENTLY STABILIZED REMOVE THE STRUCTURE AND ALL THEUNSTABLE SEDIMENT. SMOOTH THE AREA TO BLEND WITH THEADJOINING AREAS AND PROVIDE PERMANENT GROUND COVER.7C902SAND FILTER #1777.00776.00776.00774.50773.503 - 6" PERFORATEDPVC UNDERDRAINS12" OF #57 STONE18" OF COURSE MASONRY SANDCONFORMING TO ASTM C33 STANDARDWOVEN GEO-TEXTILEFILTER FABRIC3' CLASS BRIPRAP DAM780.00EMERGENCY SPILLWAYELEV. = 779.00OUTLETSTRUCTURESEE DETAIL775.00CLASS B RIPRAPNOTES:1. SAND FILTER SHALL HAVE A MINIMUM 20 FOOT ACCESS EASEMENT CONNECTING TO A DEDICATED PUBLIC RIGHT OFWAY. ACCESS ROAD SHALL HAVE A MIN. 12' STABILIZED WIDTH, MAX. LONG, GRADE OF 15% MAX., CROSS SLOPE 5%.2. ALL DRAINAGE AREAS TO THE SAND FILTER ARE TO BE STABILIZED PRIOR TO INSTALLATION OF AMENDED SAND,MULCH OR PLANTING.3. PVC UNDERDRAIN PIPE SHOULD HAVE 3/8" PERFORATIONS SPACED AT 6" CENTERS. MIN. 4 HOLES PER ROW. MAXSPACING OF UNDERDRAIN PIPE IS 10 FEET ON CENTER. HDPE SHALL ADHERE TO AASHTO M252 SPECS.4. UNDERDRAIN CLEANOUTS SHOULD EXTEND A MIN. OF 6" ABOVE TOP SURFACE OF SOD LAYER. CLEANOUTS MAY BEFLUSH WITH TOP OF SURFACE TO ALLOW DRAWDOWN.SOD LAYER MUST BE WASHEDOR GROWN IN PRIMARILYSAND/SANDY-LOAM SOILS WITHLESS THAN 6% CLAY CONTENT778.5018" HDPE OUTLET8C902OUTLET STRUCTURE #1PRECAST LIDFOOTING BEYOND#4 BAR AT 8" O.C.E.W.6"GROUT INTERIORWALLS18" HDPEINV. OUT = 773.503' x 3' PRE-CASTCATCH BASIN9"4' W x 4' L x 9" D3,000 PSI CONCRETETRASH RACKELEV. = 778.50STORMRAX TRASH RACKWITH ANTI-VORTEX DEVICEOR APPROVED EQUAL6" PVCINV. IN = 773.50C9029NS MUSTTTTTT BE REC12/11/2017 SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCDETAILSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC90312/11/2017SKIMMER SEDIMENT BASINGENERAL NOTES:1. CLEAR, GRUB AND STRIP THE AREA UNDER THE EMBANKMENT OF ALL VEGETATION AND ROOT MAT. REMOVE ALL SURFACE SOIL CONTAINING HIGH AMOUNTS OFORGANIC MATTER AND STOCKPILE OR DISPOSE OF IT PROPERLY. HAUL ALL OBJECTIONABLE MATERIAL TO THE DESIGNATED DISPOSAL AREA. PLACE TEMPORARYSEDIMENT CONTROL MEASURES BELOW BASIN AS NEEDED.2. ENSURE THAT FILL MATERIAL FOR THE EMBANKMENT IS FREE OF ROOTS, WOODY, VEGETATION, ORGANIC MATTER AND OTHER OBJECTIONABLE MATERIAL.PLACE THE FILL IN LIFTS NOT TO EXCEED 9 INCHES, AND MACHINE COMPACT IT. OVER THE FILL EMBANKMENT 6 INCHES TO ALLOW FOR SETTLEMENT.3. SHAPE THE BASIN TO THE SPECIFIED DIMENSIONS. PREVENT THE SKIMMING DEVICE FROM SETTLING INTO THE MUD BY EXCAVATING A SHALLOW PIT UNDER THESKIMMER OR PROVIDING A LOW SUPPORT UNDER THE SKIMMER OF STONE OR TIMBER.4. PLACE THE BARREL *TYPICALLY 4-INCH SCHEDULE 40 PVC PIPE) ON A FIRM, SMOOTH FOUNDATION OF IMPERVIOUS SOIL. DO NOT USE PERVIOUS MATERIAL SUCHAS SAND, GRAVEL OR CRUSHED STONE AS BACKFILL AROUND THE PIPE. PLACE THE FILL MATERIAL AROUND THE PIPE SPILLWAY IN 4-INCH LAYERS AND COMPACTIT UNDER AND AROUND THE PIPE TO AT LEAST THE SAME DENSITY AS THE ADJACENT EMBANKMENT. CARE MUST BE TAKEN NOT TO RAISE THE PIPE FROM THEFIRM CONTACT WITH ITS FOUNDATION WHEN COMPACTING UNDER THE PIPE HAUNCHES.5. ASSEMBLE THE SKIMMER FOLLOWING THE MANUFACTURES INSTRUCTIONS OR AS DESIGNED.6. LAY THE ASSEMBLED SKIMMER ON THE BOTTOM OF THE BASIN WITH THE FLEXIBLE JOINT AT THE INLET OF THE BARREL PIPE. ATTACH THE FLEXIBLE JOIN TO THEBARREL PIPE AND POSITION THE SKIMMER OVER THE EXCAVATED PIT OR SUPPORT. BE SURE TO ATTACHED A ROPE TO THE SKIMMER AND ANCHOR IT TO THESIDE OF THE BASIN. THIS WILL BE USED TO PULL THE SKIMMER TO THE SIDE FOR MAINTENANCE.7. EARTHEN SPILLWAYS - INSTALL THE SPILLWAY IN UNDISTURBED SOIL TO THE GREATEST EXTENT POSSIBLE. THE ACHIEVEMENT OF PLANNED ELEVATIONS,GRADE, DESIGN WIDTH AND ENTRANCE AND EXIT CHANNEL SLOPES ARE CRITICAL TO THE SUCCESSFUL OPERATION OF THE SPILLWAY. THE SPILLWAY SHOULDBE LINED WITH LAMINATED PLASTIC OR IMPERMEABLE GEOTEXTILE FABRIC. THE FABRIC MUST BE WIDE AND LONG ENOUGH TO COVER THE BOTTOM AND SIDESAND EXTEND ONTO THE TOP OF THE DAM FOR ANCHORING IN A TRENCH. THE EDGES MAY BE SECURED WITH 8-INCH STAPLES OR PINS. THE FABRIC MUST BELONG ENOUGH TO EXTEND DOWN THE SLOPE AND EXIT ONTO STABLE GROUND. THE WIDTH OF THE FABRIC MUST BE ON PIECE, NOT JOINED OR SPLICED;OTHERWISE THE WATER CAN GET UNDER THE FABRIC. IF THE LENGTH OF THE FABRIC IS INSUFFICIENT FOR THE ENTIRE LENGTH OF THE SPILLWAY, MULTIPLESECTIONS, SPANNING THE COMPLETE WIDTH, MAY BE USED. THE UPPER SECTION(S) SHOULD OVERLAP THE LOWER SECTIONS(S) SO THAT WATER CANNOT FLOWUNDER THE FABRIC. SECURE THE UPPER EDGE AND SIDES OF THE FABRIC IN A TRENCH WITH STAPLES OR PINS.8. INLET - DISCHARGE WATER INTO THE BASIN IN A MANNER TO PREVENT EROSION. USE TEMPORARY SLOPE DRAINS OR DIVERSION WITH OUTLET PROTECTION TODIVERT SEDIMENT LADEN WATER TO THE UPPER END OF THE POOL AREA TO IMPROVE BASIN TRAP EFFICIENCY.9. EROSION CONTROL - CONSTRUCT THE STRUCTURE SO THAT THE DISTURBED AREA IS MINIMIZED. DIVERT SURFACE WATER AWAY FROM THE BARE AREAS.COMPLETE THE EMBANKMENT BEFORE THE AREA IS CLEARED. STABILIZE THE EMERGENCY SPILLWAY EMBANKMENT AND ALL OTHER DISTURBED AREAS ABOVETHE CREST OF THE PRINCIPAL SPILLWAY IMMEDIATELY AFTER CONSTRUCTION.10. INSTALL POROUS BAFFLES AS SPECIFIED IN PRACTICE 6.65.11. AFTER ALL THE SEDIMENT-PRODUCING AREAS HAVE BEEN PERMANENTLY STABILIZED, REMOVE THE STRUCTURE AND ALL THE UNSTABLE SEDIMENT. SMOOTHTHE AREA TO BLEND WITH THE ADJOINING AREAS AND STABILIZE PROPERLY.MAINTENANCE NOTES:1. INSPECT SKIMMER SEDIMENT BASINS AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (1/2 INCH OR GREATER) RAINFALL EVENT AND REPAIR IMMEDIATELY.REMOVED SEDIMENT AND RESTORE THE BASIN TO ITS ORIGINAL DIMENSIONS WHEN SEDIMENT ACCUMULATES TO ONE-HALF THE HEIGHT OF THE FIRST BAFFLE.PULL THE SKIMMER TO ONE SIDE SO THAT THE SEDIMENT UNDERNEATH IT CAN BE EXCAVATED. EXCAVATE THE SEDIMENT FROM THE ENTIRE BASIN, NOT JUSTAROUND THE SKIMMER OR THE FIRST CELL. MAKE SURE VEGETATION GROWING IN THE BOTTOM OF THE BASIN DOES NOT HOLD DOWN THE SKIMMER.2. REPAIR THE BAFFLES IF THEY ARE DAMAGED. RE-ANCHOR THE BAFFLES IF WATER IS FLOWING UNDERNEATH OR AROUND THEM.3. IF THE SKIMMER IS CLOGGED WITH TRASH AND THERE IS WATER IN THE BASIN, USUALLY JERKING ON THE WILL MAKE THE SKIMMER BOB UP AND DOWN ANDDISLODGE THE DEBRIS AND RESTORE FLOW. IF THIS DOES NOT WORK, PULL THE SKIMMER OVER TO THE SIDE OF THE BASIN AND REMOVE THE DEBRIS. ALSOCHECK THE ORIFICE INSIDE THE SKIMMER TO SEE IF IT IS CLOGGED; IF SO REMOVE THE DEBRIS.4. IF THE SKIMMER ARM OR BARREL PIPE IS CLOGGED, THE ORIFICE CAN BE REMOVED AND THE OBSTRUCTION CLEARED WITH A PLUMBER'S SNAKE OR BYFLUSHING WITH WATER. BE SURE AND REPLACE THE ORIFICE BEFORE REPOSITIONING THE SKIMMER.5. CHECK THE FABRIC LINED SPILLWAY FOR DAMAGE AND MAKE ANY REQUIRED REPAIRS WITH FABRIC THAT SPANS THE FULL WIDTH OF THE SPILLWAY. CHECK THEEMBANKMENT, SPILLWAYS AND OUTLET FOR EROSION DAMAGE, AND INSPECT THE EMBANKMENT FOR PIPING AND SETTLEMENT. MAKE ALL NECESSARY REPAIRSIMMEDIATELY. REMOVE ALL TRASH AND OTHER DEBRIS FROM THE SKIMMER AND POOL AREAS.6. FREEZING WEATHER CAN RESULT IN ICE FORMING IN THE BASIN. SOME SPECIAL PRECAUTIONS SHOULD BE TAKEN IN THE WINTER TO PREVENT THE SKIMMERFROM PLUGGING WITH ICE.PLAN VIEWCROSS-SECTION VIEWAVERAGEWIDTH=AREA*LENGTH* AREA OF BASIN WATERSURFACE AT TOP OFPRIMARY SPILLWAYINFLOWBAFFLESSKIMMERDEWATERINGDEVICEEMBANKMENTEMERGENCYSPILLWAYEMBANKMENTEMERGENCYSPILLWAYBAFFLESFILTER FABRIC1' FREEBOARD6" MIN. INVERT ELEV. OFEMERGENCY SPILLWAY1' SEDIMENTSTORAGE ZONE2' DEWATERINGZONEINFLOWCLASS B STONE PAD(4' x 4' x 1' MIN.)12PERSPECTIVE VIEWWATER SURFACE(PERMANENT POOL)END VIEWFRONT VIEWARM ASSEMBLYWATER ENTRYUNIT"C" ENCLOSUREPVC ELBOWPVC ENDCAPPVC TEEPVC PIPE1/2" HOLES INUNDERSIDEFLEXIBLEHOSESCHEDULE 40PVC PIPEPVC TEEORIFICEPLATESCHEDULE 40PVC PIPEPVC VENTPIPEPVC ENDCAPBOTTOM SURFACENOTE:1. ALL SKIMMERS SHALL BE FAIRCLOTH SKIMMERS UNLESS OTHERWISE SPECIFIED.1C903BAFFLEGENERAL NOTES:1. BAFFLE MATERIAL SHOULD BE SECURED AT THE BOTTOM AND SIDESUSING STAPLES OR BY TRENCHING AS FOR SILT FENCE.2. MOST OF THE SEDIMENT WILL ACCUMULATE IN THE 1ST BAY,WHICH SHOULD BE READILY ACCESSIBLE FOR MAINTENANCE.3. PROVIDE 3 BAFFLES (USE TWO IF LESS THAN 20 FEET IN LENGTH). PROVIDE5 BAFFLES FOR DRAINAGE AREAS GREATER THAN 10 ACRES.4. BAFFLE SHALL BE 700 G/M2 COIR EROSION BLANKET.5. TOPS OF BAFFLES SHOULD BE 2 INCHES LOWER THAN THE TOP OF THE BERMS.6. INSPECT BAFFLES FOR REPAIR ONCE A WEEK AND AFTER EACH RAINFALL.7. PLEASE REFER TO NCESCPDM SECTION #6.65 FOR ADDITIONAL DESIGN SPECIFICATIONSREGARDING BAFFLES.MAINTENANCE NOTES:1. INSPECT BAFFLES AT LEAST ONCE A WEEK AND AFTER EACH RAINFALL. MAKE ANYREQUIRED REPAIRS IMMEDIATELY.2. BE SURE TO MAINTAIN ACCESS TO THE BAFFLES. SHOULD THE FABRIC OF A BAFFLECOLLAPSE, TEAR, DECOMPOSE, OR BECOME INEFFECTIVE, REPLACE IT PROMPTLY.3. REMOVE SEDIMENT DEPOSITS WHEN IT REACHES HALF FULL TO PROVIDE ADEQUATESTORAGE VOLUME FOR THE NEXT RAIN AND TO REDUCE PRESSURE ON THE BAFFLES.TAKE CARE TO AVOID DAMAGING THE BAFFLES DURING CLEANOUT. SEDIMENT DEPTHSHOULD NEVER EXCEED HALF THE DESIGNED STORAGE DEPTH.4. AFTER THE CONTRIBUTING DRAINAGE AREA HAS BEEN PROPERLY STABILIZED, REMOVEALL BAFFLE MATERIALS AND UNSTABLE SEDIMENT DEPOSITS, BRING THE AREA TO GRADEAND STABILIZE IT.25% OFBASINSURFACEAREAINLETOUTLET1ST CELL25% OFBASINSURFACEAREA2ND CELL25% OFBASINSURFACEAREA25% OFBASINSURFACEAREAPLAN VIEWDRAPE BAFFLE MATERIAL OVERWIRE STRAND AND SECURE WITHPLASTIC TIES AT POSTS AND ONWIRE EVERY 12"SUPPORT POST,24" INTO BOTTOMOR SIDEEXTEND 9 GAUGE WIRE TO BASINSIDE OR INSTALL T-POST TOANCHOR BAFFLE TO SIDE OF BASINAND SECURE TO VERTICAL POST9 GAUGE MIN. HIGH TENSION WIRESTRAND SHALL BE SECURED TOPOST TO SUPPORT BAFFLEMATERIALSECTION VIEW AT OPENING11 GAUGELANDSCAPINGSTAPLESTEEL POST2' DEPTHCROSS SECTION3' MIN.4' MAX.VARIABLEDEPTHSECURE BOTTOM OF BAFFLE TOGROUND WITH 12" STAPLES AT 12"MAXIMUM SPACING.BAFFLEMATERIALBAFFLE MATERIAL SHOULD BE SECUREDTO THE BOTTOM AND SIDES OF BASINUSING 12" LANDSCAPING STAPLES2C903E&SC PERMANENT SEEDING SCHEDULE* DO NOT USE WITHIN 25' RIPARIAN BUFFER. SEE RIPARIAN SEEDING SCHEDULE FOR BUFFER SEEDING SPECSSEEDING MIXTURESEEDING NOTE1. AFTER AUGUST 15. USE UNSCARIFIED SERICEA LESPEDEZA SEED.2. WHERE APPEARANCE IS A CONSIDERATION, OMIT SERCIA LESPEDEZA ANDINCREASE KOREAN LESPEDEZA TO 40 LB/ACRE.NURSE PLANTSBETWEEN MAY 1 AND AUGUST 15 ADD 10 LB/ACRE GERMAN MILLET OR 15 LB/ACRE TALLFESCUS, PRIOR TO MAY 1 OR AFTER AUGUST 15, ADD 40 LB/ACRE RYE GRAIN. IT MAY BEBENEFICIAL TO PLANT THE GRASSES IN LATE SUMMER AND OVERSEED THE LESPEDEZAIN MARCH.SEEDING DATESBELOW 2500 FT:ABOVE 2500 FT:BESTAUG 15-SEP 1MAR 1 -APR 1JULY 25- AUG 15MAR 20 - APR 20POSSIBLEJULY 25-SEP 15MAR 1- MAY 10JULY 15-AUG 30MAR 5-MAY 15COMPLETE SEEDING EARLIER IN THE FALL, AND START LATER IN THE SPRING ON NORTHAND EAST FACING SLOPES.SOIL AMENDMENTSAPPLY LIME AND FERTILIZER ACCORDING TO SOIL TESTS OR APPLY 4000 LB/ACREGROUND AGRICULTURAL LIMESTONE AND 1000 LB/ACRE 5-10-10 FERTILIZER.MULCHAPPLY 4000-5000 LB/ACRE GRAIN STRAW OR EQUIVALENT COVER OF ANOTHER SUITABLEMULCHING MATERIAL. ANCHOR STRAW BY TACKING WITH ASPHALT, NETTING, OR ROVING.NETTING IS THE PREFERRED ANCHORING METHOD ON STEEP SLOPES.MAINTENANCEREFERTILIZE THE SECOND YEAR UNLESS GROWTH IS FULLY ADEQUATE. MOW NOMORE THAN ONCE PER YEAR. RESEED, FERTILIZE, AND MULCH DAMAGED AREASIMMEDIATELY.SPECIESTALL FESCUESERICEA LESPEDEZAKOREAN LESPEDEZAREDTOPKENTUCKY BLUEGRASSRATE (LB/ACRE)100201055SOIL PREPARATION:SOIL TEST: SOIL TESTING WILL DETERMINE WHETHER THE SOIL PH AND NUTRIENT(PHOSPHORUS, POTASSIUM, CALCIUM AND MAGNESIUM) LEVELS ARE IN A RANGETHAT FAVOR TURFGRASS GROWTH. THE SOIL TEST REPORT WILL INDICATENEEDED AMOUNTS OF FERTILIZER AND/OR LIME.CLEAN AND ROUGH GRADE: REMOVE ALL DEBRIS FROM THE LOCATION TO BEPLANTED. THIS INCLUDES ROCKS, BOTTLES, LARGE ROOTS AND OLD TREE TRUNKS.IF EXTENSIVE GRADING IS NEEDED, REMOVE THE TOPSOIL AND STOCKPILE IT FORREPLACEMENT AFTER THE ROUGH GRADE IS ESTABLISHED.THE SUBSURFACE MAY BECOME COMPACTED DURING ROUGH GRADING,ESPECIALLY IF THE GROUND IS WET. THIS COMPACTED LAYER MUST BE BROKENUP. A SPRING-TOOTH HARROW WORKS WELL ON LIGHTLY COMPACTED SOILS; ASMALL ROTOTILLER MAY BE NEEDED FOR MORE HEAVILY COMPACTED SITES.DEEP TILLAGE: ROTOTILLING LOOSENS COMPACTED SOIL AND IMPROVES THESPEED AND DEPTH OF ROOTING. A TRACTOR-MOUNTED OR SELF-PROPELLEDTILLER WILL ADEQUATELY TILL THE SOIL. TAKE CARE NOT TO DESTROY THEEXISTING TREES IN THE LAWN. CUTTING TOO MANY TREE ROOTS DURING SOILTILLAGE CAN SEVERELY DAMAGE OR KILL A TREE. TREES CAN ALSO BESUFFOCATED BY DEEPLY COVERING THE ROOTS WITH SOIL. IF ADDITIONAL SOIL ISNECESSARY AT A TREE BASE, CONSTRUCT A "TREE WELL."REPLACE THE TOPSOIL: ONCE THE SUBSURFACE IS ESTABLISHED, RETURN THETOPSOIL AND SPREAD UNIFORMLY OVER THE ENTIRE AREA. ALLOW FOR AT LEAST6 TO 8 INCHES OF DEPTH AFTER THE SOIL HAS SETTLED. THIS MEANS PLACINGABOUT 8 TO 10 INCHES OF TOPSOIL OVER THE SUBSURFACE. IMPROVE THE SOIL BYADDING ORGANIC MATTER. THIS IMPROVES WATER RETENTION IN SANDY SOILSAND DRAINAGE IN CLAY SOILS AND REDUCES FERTILIZER LEACHING.E&SC TEMPORARY SEEDING SCHEDULE* DO NOT USE WITHIN 25' RIPARIAN BUFFER. SEE RIPARIAN SEEDING SCHEDULE FOR BUFFER SEEDING SPECSLATE WINTER & EARLY SPRING (FEB 15-MAY 15)SPECIESRYE GRAINANDKOREAN LESPEDEZARATE (LB/ACRE) 120 50SOIL AMENDMENTSFOLLOW RECOMMENDATIONS OF SOIL TEST OR APPLY 2000 LB/ACRE GROUNDAGRICULTURAL LIMESTONE AND 750 LB/ACRE 10-10-10 FERTILIZER. INCREASE FERTILIZERRATE TO 1000 LB/ACRE IN THE FALL.MULCHAPPLY 4000-5000 LB/ACRE GRAIN STRAW OR EQUIVALENT COVER OR ANOTHER SUITABLEMULCHING MATERIAL. ANCHOR STRAW BY TACKING WITH ASPHALT, NETTING, OR A MULCHANCHORING TOOL. A DISK WITH BLADES SET NEARLY STRAIGHT CAN BE USED AS AMULCH ANCHORING TOOL.MAINTENANCEREFERTILIZE IF GROWTH IN NOT FULLY ADEQUATE. RESEED, FERTILIZER, AND MULCHIMMEDIATELY FOLLOWING EROSION OR OTHER DAMAGE. TOPDRESS WITH 50 LB/ACRE OFNITROGEN IN MARCH. IF IT IS NECESSARY TO EXTEND TEMPORARY COVER BEYOND JUNE15, OVERSEED WITH 50 LB/ACRE KOREAN LESPEDEZA IN LATE FEBRUARY OR EARLYMARCH.SUMMER (MAY 15-AUGUST 15)SPECIESGERMAN MILLETORTALL FESCUERATE (LB/ACRE)4050FALL (AUGUST 15-DECEMBER 15)SPECIESRYE GRAINRATE (LB/ACRE)120SOIL PREPARATION:SOIL TEST: SOIL TESTING WILL DETERMINE WHETHER THE SOIL PH AND NUTRIENT(PHOSPHORUS, POTASSIUM, CALCIUM AND MAGNESIUM) LEVELS ARE IN A RANGETHAT FAVOR TURFGRASS GROWTH. THE SOIL TEST REPORT WILL INDICATENEEDED AMOUNTS OF FERTILIZER AND/OR LIME.CLEAN AND ROUGH GRADE: REMOVE ALL DEBRIS FROM THE LOCATION TO BEPLANTED. THIS INCLUDES ROCKS, BOTTLES, LARGE ROOTS AND OLD TREE TRUNKS.IF EXTENSIVE GRADING IS NEEDED, REMOVE THE TOPSOIL AND STOCKPILE IT FORREPLACEMENT AFTER THE ROUGH GRADE IS ESTABLISHED.THE SUBSURFACE MAY BECOME COMPACTED DURING ROUGH GRADING,ESPECIALLY IF THE GROUND IS WET. THIS COMPACTED LAYER MUST BE BROKENUP. A SPRING-TOOTH HARROW WORKS WELL ON LIGHTLY COMPACTED SOILS; ASMALL ROTOTILLER MAY BE NEEDED FOR MORE HEAVILY COMPACTED SITES.DEEP TILLAGE: ROTOTILLING LOOSENS COMPACTED SOIL AND IMPROVES THESPEED AND DEPTH OF ROOTING. A TRACTOR-MOUNTED OR SELF-PROPELLEDTILLER WILL ADEQUATELY TILL THE SOIL. TAKE CARE NOT TO DESTROY THEEXISTING TREES IN THE LAWN. CUTTING TOO MANY TREE ROOTS DURING SOILTILLAGE CAN SEVERELY DAMAGE OR KILL A TREE. TREES CAN ALSO BESUFFOCATED BY DEEPLY COVERING THE ROOTS WITH SOIL. IF ADDITIONAL SOIL ISNECESSARY AT A TREE BASE, CONSTRUCT A "TREE WELL."REPLACE THE TOPSOIL: ONCE THE SUBSURFACE IS ESTABLISHED, RETURN THETOPSOIL AND SPREAD UNIFORMLY OVER THE ENTIRE AREA. ALLOW FOR AT LEAST6 TO 8 INCHES OF DEPTH AFTER THE SOIL HAS SETTLED. THIS MEANS PLACINGABOUT 8 TO 10 INCHES OF TOPSOIL OVER THE SUBSURFACE. IMPROVE THE SOIL BYADDING ORGANIC MATTER. THIS IMPROVES WATER RETENTION IN SANDY SOILSAND DRAINAGE IN CLAY SOILS AND REDUCES FERTILIZER LEACHING.DRAINAGEAREA(ACRES)TEMPORARY SEDIMENTTRAP DESIGN CRITERIAMIN. LENGTHTO WIDTHRATIOMIN.VOLUMEREQUIREDSURFACEAREAREQUIRED< 5 AC.2:13600FT3/ACDIST435 FT2/ Q10(FT3/S)GENERAL NOTES:PLEASE REFER TO NCESCPDM SECTION#6.60 FOR ADDITIONAL DESIGNSPECIFICATIONS REGARDING TEMPORARYSEDIMENT TRAPS.CROSS SECTION3600 FT3/ACRE12' MIN OF NCDOT #5OR #57 WASHED STONE5'MIN1.5' MIN5'MAXFILTER FABRIC1.5'MIN1:12:12:1PLAN VIEWDESIGNED SETTLEDTOP21"MIN4'MIN5' MAX FILLFILTER FABRIC3'MINNATURALGROUNDEMERGENCY BYPASS6" BELOW SETTLEDTOP OF DAMOVERFILL 6" FORSETTLEMENT2:1 SIDESLOPE MAX1:1 SIDESLOPE MAX2' TO 3.5'TEMPORARY SEDIMENT TRAPC9033OUTLET STRUCTURE #2PRECAST LIDFOOTING BEYOND#4 BAR AT 8" O.C.E.W.6"GROUT INTERIORWALLS18" HDPEINV. OUT = 775.503' x 3' PRE-CASTCATCH BASIN9"4' W x 4' L x 9" D3,000 PSI CONCRETETRASH RACKELEV. = 780.50STORMRAX TRASH RACKWITH ANTI-VORTEX DEVICEOR APPROVED EQUAL6" PVCINV. IN = 775.505C903SAND FILTER #2779.00778.00778.00776.50775.503 - 6" PERFORATEDPVC UNDERDRAINS12" OF #57 STONE18" OF COURSE MASONRY SANDCONFORMING TO ASTM C33 STANDARDWOVEN GEO-TEXTILEFILTER FABRIC3' CLASS BRIPRAP DAM782.00EMERGENCY SPILLWAYELEV. = 781.00OUTLETSTRUCTURESEE DETAIL777.00CLASS B RIPRAPNOTES:1. SAND FILTER SHALL HAVE A MINIMUM 20 FOOT ACCESS EASEMENT CONNECTING TO A DEDICATED PUBLIC RIGHT OFWAY. ACCESS ROAD SHALL HAVE A MIN. 12' STABILIZED WIDTH, MAX. LONG, GRADE OF 15% MAX., CROSS SLOPE 5%.2. ALL DRAINAGE AREAS TO THE SAND FILTER ARE TO BE STABILIZED PRIOR TO INSTALLATION OF AMENDED SAND,MULCH OR PLANTING.3. PVC UNDERDRAIN PIPE SHOULD HAVE 3/8" PERFORATIONS SPACED AT 6" CENTERS. MIN. 4 HOLES PER ROW. MAXSPACING OF UNDERDRAIN PIPE IS 10 FEET ON CENTER. HDPE SHALL ADHERE TO AASHTO M252 SPECS.4. UNDERDRAIN CLEANOUTS SHOULD EXTEND A MIN. OF 6" ABOVE TOP SURFACE OF SOD LAYER. CLEANOUTS MAY BEFLUSH WITH TOP OF SURFACE TO ALLOW DRAWDOWN.SOD LAYER MUST BE WASHEDOR GROWN IN PRIMARILYSAND/SANDY-LOAM SOILS WITHLESS THAN 6% CLAY CONTENT780.5018" HDPE OUTLETC9034S MUSTTTTTT BE REC SCALE:SHEET:(H)(V)DRAWN BY:APPROVED BY:PROJECT NUMBER:DATE:© COPYRIGHT 2017 BY BREC, P.A., ALL RIGHTS RESERVED. THIS PLAN MAY NOT BE RE-USED, SOLD, LOANED, OR GIVEN TO OTHERS. REPRODUCTION OR PHOTOCOPYING OF THIS PLAN WITHOUT THE WRITTEN CONSENT OF BREC, P.A. IS PROHIBITED AND IS A VIOLATION OF FEDERAL COPYRIGHT LAWS, PUNISHABLE BY FINES UP TO $100,000 PER OFFENSE.DO NOT SCALE - PLANS MUST BE RECEIVED AS A COMPLETE SETRELEASED FOR AGENCY REVIEW - NOT RELEASED FOR CONSTRUCTIONbrec.biz126 EXECUTIVE DRIVE - SUITE 220WILKESBORO, NC 28697336.844.4088 http://brec.bizDATE:REVISIONS:PREPARED FOR:ENGINEERING | PLANNING | ENVIRONMENTALSHEET SIZE:MAKSON WAREHOUSE & OFFICESALISBURY, NCDETAILSMAKSON INC.434 CALHOUN STREETSALISBURY, NC 2814424"x36"07/20/20173100042017J.EDWARDSJ.CHURCHNTSC90412/11/2017RIPARIAN SEEDING SCHEDULE* FOR USE WITHIN 25' RIPARIAN BUFFER. SEE E&SC SEEDING SCHEDULE FOR NON-BUFFER SEEDING SPECS.SEEDING MIXTURESPECIESPANICUM VIRGATUM (SWITCHGRASSPANICUM CLANDESTINUM (DEER TONGUE)JUNCUS EFFUSUS (SOFT RUSH)CAREX VULPINOIDEA (FOX SEDGE)SORGHASTRUM NUTANS (INDIAN GRASS)CHASMANTHIUM LATIFOLIUM (RIVER OATS)ELYMUS HYSTRIX (BOTTLEBRUSH GRASS)VERNONIA GIGANTEA (GIANT IRONWEED)RUBECKIA HIRTA (BLACK EYED SUSAN)EUPATORIUM FISTULOSUM (JOE PYE WEED)RHUS TYPHINA (STAGHORN SUMAC)VERBENA HASTATA (BLUE VERVAIN)PENSTEMON DIGITALIS (TALL WHITE BEARD TONGUE)% COMPOSTIION10101010101010555555APPLICATION:APPLY AT A RATE OF 15LBS/ACRE.SOIL AMENDMENTS:APPLY LIME AND FERTILIZER ACCORDING TO SOIL TESTS OR APPLY 4000 LB/ACRE GROUND AGRICULTURAL LIMESTONE AND 1000 LB/ACRE 5-10-10 FERTILIZER.MAINTENANCE:REFERTILIZE THE SECOND YEAR UNLESS GROWTH IS FULLY ADEQUATE. RESEED, FERTILIZE, AND MULCH DAMAGED AREAS IMMEDIATELY.BOLLARDCONCRETE FOOTING3000 PSI MIN.FINISH GRADE/PAVINGCOVERED BY YELLOW PLASTIC(PROVIDED BY OTHERS)60 GA. STEEL BOLLARDFILLED SOLID WITH 3000 PSI CONCRETEROUND CONC. TOP OFPIPE SMOOTH2'6"36"48"6"1C904DOUBLE A-FRAME BARRIER GATEOWNER TO SELECTMATERIAL & FINISH30'2C904NS MUSTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT BE REC12/11/2017 Soil Map—Rowan County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/25/2017 Page 1 of 3394171039417703941830394189039419503942010394207039421303942190394171039417703941830394189039419503942010394207039421303942190545210545270545330545390545450545510545570 545210 545270 545330 545390 545450 545510 545570 35° 37' 20'' N 80° 30' 2'' W35° 37' 20'' N80° 29' 47'' W35° 37' 4'' N 80° 30' 2'' W35° 37' 4'' N 80° 29' 47'' WN Map projection: Web Mercator Corner coordinates: WGS84 Edge tics: UTM Zone 17N WGS84 0 100 200 400 600 Feet 0 35 70 140 210 Meters Map Scale: 1:2,420 if printed on A portrait (8.5" x 11") sheet. Soil Map may not be valid at this scale. MAP LEGEND MAP INFORMATION Area of Interest (AOI) Area of Interest (AOI) Soils Soil Map Unit Polygons Soil Map Unit Lines Soil Map Unit Points Special Point Features Blowout Borrow Pit Clay Spot Closed Depression Gravel Pit Gravelly Spot Landfill Lava Flow Marsh or swamp Mine or Quarry Miscellaneous Water Perennial Water Rock Outcrop Saline Spot Sandy Spot Severely Eroded Spot Sinkhole Slide or Slip Sodic Spot Spoil Area Stony Spot Very Stony Spot Wet Spot Other Special Line Features Water Features Streams and Canals Transportation Rails Interstate Highways US Routes Major Roads Local Roads Background Aerial Photography The soil surveys that comprise your AOI were mapped at 1:24,000. Warning: Soil Map may not be valid at this scale. Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale. Please rely on the bar scale on each map sheet for map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: Coordinate System: Web Mercator (EPSG:3857) Maps from the Web Soil Survey are based on the Web Mercator projection, which preserves direction and shape but distorts distance and area. A projection that preserves area, such as the 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: Rowan County, North Carolina Survey Area Data: Version 13, Sep 20, 2016 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—Feb 13, 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. Soil Map—Rowan County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/25/2017 Page 2 of 3 Map Unit Legend Rowan County, North Carolina (NC159) Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI ApB Appling sandy loam, 2 to 6 percent slopes 0.7 4.5% ArA Armenia loam, 0 to 2 percent slopes, frequently flooded 3.8 23.1% ChA Chewacla loam, 0 to 2 percent slopes, frequently flooded 1.9 11.2% VaB Vance sandy loam, 2 to 8 percent slopes 8.2 49.2% WaA Warne loam, 0 to 2 percent slopes, occasionally flooded 2.0 12.1% Totals for Area of Interest 16.6 100.0% Soil Map—Rowan County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/25/2017 Page 3 of 3