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RAPID CITY
16B 79WEIGH STATION
MRM 71.00 +0.566STA. 682+50SOUTHBOUND LANES
PROJECT
R 8 E
R 8 E
T 1
NT 1 S
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NT 1 S
F16-F18 Standard Plates
F15 Guardrail Layout
F14 Guardrail Embankment Layout
F13 Pavement Grinding Layout
F10-F12 Typical Sections
F2-F9 Estimate With General Notes & Tables
F1 General Layout W/Index
OF STA. 682+50 SBL
STA. 682+50 NBL = 104’ R.
EQUATION
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DAKOTA
SOUTH
STATE OFPROJECT
SHEETSHEETS
TOTAL
SECTION F: SURFACING PLANS INDEX OF SHEETS
HR Y502(00) F1 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
SECTION F – ESTIMATE OF QUANTITIES
SURFACING THICKNESS DIMENSIONS Plans tonnage will be applied even though the thickness may vary from that shown on the plans. At those locations where material must be placed to achieve a required elevation, plans tonnage may be varied to achieve the required elevation. SAWING IN EXISTING SURFACING Where new Portland Cement Concrete Pavement (PCCP) or new asphalt concrete is placed adjacent to existing asphalt concrete or PCCP, the existing pavement shall be sawed full depth to a true line with a vertical face. No separate payment shall be made for sawing.
WATER FOR COMPACTION The cost of water for compaction of the granular material shall be incidental to the various other contract items. Six percent plus or minus moisture will be required at the time of compaction unless otherwise directed by the Engineer. UTILITIES The Contractor shall contact the involved utility companies through South Dakota One Call (1-800-781-7474) prior to starting work. It shall be the responsibility of the Contractor to coordinate work with the utility owners to avoid damage to existing facilities. Utilities are not planned to be affected on this project. If utilities are identified near the improvement area through the SD One Call Process as required by South Dakota Codified Law 49-7A and Administrative Rule Article 20:25, the Contractor shall contact the Project Engineer to determine modifications that will be necessary to avoid utility impacts. TABLE OF PEDESTAL SIGNAL POLE FOOTING DATA
Pole Footing Diameter
# Footing Depth
** Spiral
Diameter
** Spiral Length
Vertical Reinforcement
Overview 2’ – 0” 8’ – 0” 1’ – 8” 54’ – 9” 8 - #7 x 7’ - 6” Illuminator 2’ – 0” 8’ – 0” 1’ – 8” 54’ – 9” 8 - #7 x 7’ - 6”
License Plate Reader
2’ – 0” 8’ – 0” 1’ – 8” 54’ – 9” 8 - #7 x 7’ - 6”
# Footing depth shall be below ground level. ** The size of the spiral tie shall be #3. See Standard Plate 635.55 for pole footing details. During construction of the cylindrical footings, concrete placement operations should closely follow excavation procedures. The longer the excavations are left open the more likely caving may occur. If caving soils are encountered during excavation, casing may be required to construct the cylindrical footings. Concrete shall not be dropped through standing water. If water is present in the excavation it shall be removed prior to concrete placement or the concrete shall be tremied. If caving occurs during dewatering the concrete shall be placed through a tremie or by means of a casing.
OVERVIEW CAMERA, ILLUMINATOR AND LICENSE PLATE READER CAMERA POLES Contractor shall supply and install footings, bases and support structures (poles) for the Illuminator, Overview Camera and License Plate Reader systems. Contractor shall install IRD supplied Illuminator, Overview Camera and License Plate Reader systems utilizing support structures. Contractor shall determine height of poles to achieve the minimum height clearances required as shown in the plans (See Section G). New poles shall be galvanized steel. Galvanizing shall be in accordance with AASHTO specification M111 (ASTM A123). Steel pole material shall be in accordance with ASTM A35, A242, A570, A572, A607 OR A595 Grade A or B. A595 material shall be limited to a 3/8 inch maximum thickness. Steel pole material with a thickness of 1.2 inch to 2 inches, shall satisfy Charpy V-Notch toughness test requirements of 15 ft. lb. at 40 degrees F. The SDDOT Office of Bridge Design shall be contacted for Charpy impact requirements for steel pole material thickness greater than 2 inches. The steel pole-to-base-plate connection shall be full-penetration groove-welded connection with a backing ring as described in Table 11.9.3.1-1, Section 4.5 of the current edition of the AASHTO Standard Specifications for Structural Supports for Highway Signs, Luminaires, and Traffic Signals. All costs to furnish and install poles shall be incidental to the contract unit price per each for PEDESTAL SIGNAL POLE. TABLE OF PEDESTAL SIGNAL POLES
Station/Offset
Location
Pole
Quantity Each
Northbound Lanes Sta. 682+56.42/42’ R. Advance WIM Overview 1 Sta. 682+99.59/26’ R. Advance WIM Illuminator 1 Sta. 683+06.59/26’ R. Advance WIM License Plate Reader 1 Total: 3 Stations/Offsets shown above are approximate. Offsets are from the centerline of the northbound lanes to center of pole. See Section G for additional details for the location of the poles. See Standard Plate 635.30 for pole details.
HR Y502(00) F2 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
UNCLASSIFIED EXCAVATION Unclassified Excavation of the existing surfacing shall be removed from the roadway to allow for placement of the new surfacing. The material shall be salvaged and stockpiled. Payment will be based on plan quantity. Further measurements will not be made unless there is a change made in the limits of work. TABLE OF UNCLASSIFIED EXCAVATION
Salvaged Asphalt
Mix And
Granular Base
Material
Location CuYd Southbound Lanes – Median Shoulder Sta. 677+50 to Sta. 688+50 398.3 Northbound Lanes - Median Shoulder Sta. 676+50 to Sta. 687+50 182.7
Total 581.0 See Typical Surfacing Sections, located elsewhere in these plans, for additional details for removal limits. EXCAVATION OF UNSTABLE MATERIAL Included in the Estimate of Quantities are 25 cubic yards of UNCLASSIFIED EXCAVATION, DIGOUTS throughout the project for the necessary removal of unstable material. Backfill shall be Base Course, Salvaged paid for at the contract unit price.
SALVAGE & STOCKPILE ASPHALT MIX AND GRANULAR BASE MATERIAL An estimated 1098 tons (581 cubic yards) of asphalt mix and granular base material shall be salvaged from the Southbound and Northbound Lanes median shoulders. This material shall be stockpiled at a site furnished by the Contractor and satisfactory to the Engineer. An estimated 764.4 tons of the salvaged asphalt mix and granular base material will be used on this project as Base Course, Salvaged. The remainder of the salvaged asphalt mix and granular base material, estimated at 333.6 tons, shall become the property of the Contractor. The quantity of salvaged asphalt mix and granular base material may vary from the plans. No adjustment will be made to the contract unit price for variation of the quantity of SALVAGE AND STOCKPILE ASPHALT MIX AND GRANULAR MATERIAL. INCIDENTAL WORK Station L/R Remarks 677+50 to 688+50 R Reshape and recompact median
shoulder subgrade. See Typical Surfacing Sections, located elsewhere in these plans, for additional details.
REMOVAL OF EXISTING PCC PAVEMENT The existing concrete is Plain Jointed PCC Pavement. The existing transverse joints are perpendicular and are spaced at 20 feet. The aggregate in the existing Plain Jointed PCC Pavement is Crushed Ledge Rock. The existing concrete pavement shall not be removed until the grinding of the existing PCC pavement has been completed. TABLE OF CONCRETE PAVEMENT REMOVAL
Remove Concrete Pavement
Location SqYd Southbound Lanes Sta. 682+50 – Driving and Passing Lane 13.9 Weigh-In-Motion System (WIM) Northbound Lanes Sta. 682+50 – Driving Lane 7.5 Weigh-In-Motion System (WIM)
Total 21.4 See Pavement Grinding Layout, located elsewhere in these plans, for additional details for removal limits.
BASE COURSE, SALVAGED The Base Course, Salvaged shall be obtained from the stockpile site(s) provided by the Contractor and may be used without further quality and gradation testing. All other requirements of the Specifications for Base Course, Salvaged shall apply. Included in the Estimate of Quantities are 50 tons of Base Course, Salvaged for backfill of Unclassified Excavation, Digouts throughout the project. ASPHALT CONCRETE COMPOSITE Mineral Aggregate for Asphalt Concrete Composite shall conform to the requirements for Class E, Type 1. All other requirements in the Specifications for Asphalt Concrete Composite shall apply. The asphalt binder used in the mixture shall be PG 64-22, PG 64-28 or PG 64-34 Asphalt Binder.
HR Y502(00) F3 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
GRINDING PCC PAVEMENT Grinding of the PCC pavement shall be done on the Weigh-In-Motion System located in the Southbound Lanes from Sta. 681+50 to Sta. 684+50 and in the Northbound Lanes from Sta. 680+50 to Sta. 683+50. These areas shall meet ASTM 1318-09 smoothness specifications, not to exceed 1/10 inch in 13 feet. The requirements for grinding are included in the Special Provision for PCC Grinding Without Incentive, the profilograph portion of the special provision will not be performed. The Department will not pay for grinding these areas more than once. The Contractor shall establish a positive means for the removal of the grinding and/or grooving residue. Solid residue shall be removed from the pavement surfaces before being blown by traffic action or wind. Residue shall not be permitted to flow across lanes used by public traffic. Residue shall be disposed of in a manner that will prevent residue, whether in solid or slurry form, from reaching any waterway in a concentrated state. The Contractor shall satisfactorily remove grinding material or wastes prior to returning traffic to the roadway. If a significant amount of residue remains after grinding, the Engineer may require flushing be done in a manner and in sufficient quantity to assure that liquids, solids, or other materials produced by the pavement grinding is not deposited on vehicles. The Contractor’s proposed method of flushing the roadway should produce acceptable results, which will be based on a driving surface that will not create a nuisance for the public. All costs for flushing roadway shall be incidental to the contract unit price per square yard for GRINDING PCC PAVEMENT. If the Engineer determines that the slurry is going to enter a waterway, drainage facility, or curb & gutter section, the slurry shall be placed in storage tanks and deposited in settling basins, spread over flat vegetated areas, or filtered by other means approved by the Engineer at no additional cost. TABLE OF GRINDING PCC PAVEMENT Location
Length
Feet
Width
Feet
Sq.Yds. Weigh-In-Motion System Southbound Lanes Sta. 681+50 to Sta. 684+50 300 26 866.7 Northbound Lanes Sta. 680+50 to Sta. 683+50 300 26 866.7
Total 1,733.4
SAWING AND SEALING EXISTING TRANSVERSE JOINTS Both lanes of the Southbound Lanes Sta. 681+50 to Sta. 684+50 and the Northbound Lanes Sta. 680+50 to Sta. 683+50 shall be sealed with Low Modulus Silicone Sealant. After the grinding of the existing PCC pavement, the Contractor may be required to provide additional sawing to clean and seal the existing joints as detailed on Standard Plate 380.13 and to the requirements of Section 380.3 R Sealing Joints of the Specifications. The width of the existing joints are 3/8” +/- typical. The newly resealed joints shall be kept as close as possible to the existing widths, not to be widened more than necessary. Joints to be sealed shall be thoroughly clean and dry. All materials such as old sealant, oil, asphalt, curing compound, paint, rust, and other foreign materials shall be completely removed. Cleaning of the joints to be sealed with silicon sealant shall be accomplished by sandblasting and other tools as necessary. Joints to be sealed with silicone sealant shall be sand blasted utilizing a mechanical device that holds the sand blaster at the appropriate angle and distance from the joint to ensure proper cleaning. The device shall have a mechanism attached that will correctly guide the device in the joint. All other requirements of Section 380.3 R Sealing Joints of the Specifications shall apply. All costs associated with sawing, cleaning and sealing the joints shall be paid for at the contract unit price per foot for RESEAL PCC PAVEMENT JOINT - SILICONE. Included in the Estimate of Quantities are 832 feet of Reseal PCC Pavement Joint - Silicone.
RUMBLE STRIPS Rumble Strips for the median shoulder shall be constructed as per Standard Plate 320.26 in the Southbound Lanes from Sta. 677+50 to Sta. 688+50 and in the Northbound Lanes from Sta. 676+50 to Sta. 687+50. Payment for forming rumble strips, on the median shoulder, including labor, materials and incidentals shall be at the contract unit price per mile for GRIND 12” RUMBLE STRIP OR STRIPE IN ASPHALT CONCRETE. It is estimated that 0.4 miles of asphalt concrete rumble strip will be required for the median shoulder. TABLE OF SAW AND SEAL SHOULDER JOINT LOCATION
Length
Feet Southbound Lanes – Median Shoulder Sta. 677+50 to Sta. 688+50 1,100 Northbound Lanes – Median Shoulder Sta. 676+50 to Sta. 687+50 1,100
Total 2,200
HR Y502(00) F4 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
HIGH TENSION CABLE GUARDRAIL The Contractor shall furnish and install a 3 or 4 cable high tension guardrail system that meets the Test Level 3 crash testing requirements of National Cooperative Highway Research Program (NCHRP) 350 or Manual for Assessing Safety Hardware (MASH) 2009. The maximum dynamic deflection of the system shall be less than 6 feet and the maximum post spacing shall be 8 feet unless specified otherwise in the plans. The high tension cable guardrail system shall be in compliance with Specifications Section 6.9 Buy America. The Contractor shall install the system according to the manufacturer’s installation recommendations except where stated otherwise in the plans. A copy of the detail drawings and installation instructions for the high tension cable guardrail and anchor assemblies shall be given to the Engineer a minimum of 4 weeks prior to installation of the high tension cable guardrail system. All posts shall be galvanized and inserted into driven galvanized steel sleeves with soil plates. Reflective sheeting shall be placed on the face of every other post cap or cable spacer and on the cable release post. The sheeting shall be in conformance with Section 982.2 I.2. of the Specifications. The color of the reflective sheeting shall be the same as the nearest pavement marking. The cables provided shall be pre-stretched in the factory. The Contractor shall check and adjust the tension of the cables a minimum of 3 weeks after installation and not longer than 6 weeks after installation. Cost for this work shall be incidental to the contract unit price per foot for “NCHRP 350 Test Level 3 High Tension Cable Guardrail”. The lengths of high tension cable guardrail stated in the plans were based on a non-effective length of 26’ at each end of the “run” of guardrail. The length and location of the high tension cable guardrail at each site will need to be adjusted during construction as necessary if a system with a different non-effective length is used and it shall be approved by the Design Engineer before installation. The Contractor shall provide a signed letter of compliance to the Engineer upon completion of the high tension cable guardrail installation(s) stating that the high tension cable barrier system has been installed in conformance to the installation instructions, specifications, and at a minimum meets the TL-3 crash test requirements of NCHRP 350 or MASH 2009. The high tension cable guardrail shall be measured along the centerline of the cable guardrail from center of anchor assembly to center of anchor assembly to the nearest foot. Example: If the system utilizes 4 anchor footings in the anchor assembly, then the center of the anchor assembly would be centered between the 2nd and 3rd footing. All costs for furnishing and installing the 3 or 4 cable high tension guardrail system including all labor, materials, and equipment shall be incidental to the contract unit price per foot for NCHRP 350 TEST LEVEL 3 HIGH TENSION CABLE GUARDRAIL. The location of the high tension guardrail posts shall be coordinated to not damage the equipment conduit, wires and drain pipes.
HIGH TENSION CABLE GUARDRAIL ANCHOR ASSEMBLY The beginning and end of each “run” of high tension cable guardrail shall terminate with an anchor assembly that meets the Test Level 3 crash testing requirements of NCHRP 350 or MASH 2009. The footing for the anchor assembly shall be designed to allow for 1 inch maximum of lateral deflection. The allowable design soil pressure shall be 1000 psf. The top 2 feet of soil pressure shall be neglected in the design of the footing. The footing shall be a minimum of 5’ deep. The footing design shall be submitted through proper channels to the Office of Bridge Design for approval a minimum of 4 weeks prior to construction of the anchor footings. All costs for furnishing and installing the High Tension Cable Guardrail Anchor Assembly including all labor, equipment, and materials which include the anchor footing, hardware, and all attachments to the anchor footing, shall be incidental to the contract unit price per each for NCHRP 350 TEST LEVEL 3 HIGH TENSION CABLE GUARDRAIL ANCHOR ASSEMBLY. HIGH TENSION CABLE GUARDRAIL POST The Contractor shall furnish an additional 25 galvanized posts and 25 caps or cable spacers with white reflective sheeting and shall deliver and stockpile the materials at the DOT South Maintenance Yard located off of SD79 in Rapid City. The posts shall be the same type of posts provided in the installation of the high tension cable guardrail on the project. All costs for furnishing the posts and caps and delivering them to the DOT Maintenance Yard shall be incidental to the contract unit price per each for HIGH TENSION CABLE GUARDRAIL POST. HIGH TENSION CABLE GUARDRAIL POST AND SLEEVE The Contractor shall furnish an additional 25 galvanized posts, 25 sleeves with soil plates, and 25 caps or cable spacers with white reflective sheeting and shall deliver and stockpile the materials at the DOT South Maintenance Yard located off of Hwy SD79 in Rapid City. The posts and sleeves shall be the same type of posts and sleeves provided in the installation of the high tension cable guardrail on the project. All costs for furnishing the posts, sleeves with soil plates, caps, and delivering them to the DOT Maintenance Yard shall be incidental to the contract unit price per each for HIGH TENSION CABLE GUARDRAIL POST AND SLEEVE.
TABLE OF GUARDRAIL AND RELATED ITEMS
Location
NCHRP 350 Test Level 3
High Tension Cable
Guardrail
Feet
NCHRP 350 Test Level 3 High Tension
Cable Guardrail Anchor
Assembly
Each Northbound Lanes Sta. 680+06.58 R. to Sta. 683+44.58 R. 312 2
RATES OF MATERIALS The Estimate of Surfacing Quantities is based on the following quantities of materials per station. MEDIAN SHOULDERS SOUTHBOUND LANES Sta. 677+50 to Sta. 688+50 BASE COURSE, SALVAGED
Salvaged Material 49.58 tons ASPHALT CONCRETE COMPOSITE – 1ST LIFT Asphalt Concrete Composite at the rate of 11.56 Tons ASPHALT CONCRETE COMPOSITE – 2ND LIFT Asphalt Concrete Composite at the rate of 8.79 Tons NORTHBOUND LANES Sta. 676+50 to Sta. 687+50 BASE COURSE, SALVAGED
Salvaged Material 14.29 tons ASPHALT CONCRETE COMPOSITE – 1ST LIFT Asphalt Concrete Composite at the rate of 10.45 Tons ASPHALT CONCRETE COMPOSITE – 2ND LIFT Asphalt Concrete Composite at the rate of 8.42 Tons TABLE OF ADDITIONAL QUANTITIES
Location
Base Course,
Salvaged
Ton Northbound Lanes Additional Surfacing Adjacent to Guardrail Sta. 679+82.58 R. to Sta. 683+68.58 R. 11.8
HR Y502(00) F5 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
REMOVE AND REPLACE TOPSOIL Prior to beginning resurfacing operations, a 4” depth of topsoil shall be bladed down the respective inslopes and left in a windrow 16’+/- from the subgrade shoulder. Following completion of resurfacing operations, topsoil shall be bladed back up the inslope to the point indicated on the typical section. The estimated amount of topsoil to be removed and replaced is 538 CuYd. All cost associated with removing and replacing the topsoil along areas to be resurfaced shall be incidental to the lump sum price for “Remove and Replace Topsoil”. FERTILIZING The Contractor shall apply an all-natural slow release fertilizer prior to seeding or placing sod. The all-natural fertilizer shall have a minimum guaranteed analysis of 4-6-4 and be USDA Certified BioBased. It should provide a minimum of 4% (N) nitrogen with a minimum water insoluble nitrogen (WIN) fraction of 3.2%, a minimum of 6% (P2O5) available phosphate, a minimum of 4% (K2O) soluble potash, and a maximum carbon to nitrogen ratio (C:N ratio) of 5:1. The all-natural fertilizer shall be free of weed-seed and pathogens accomplished through thermophilic composting, and not mechanical or chemical sterilization, to assure presence of beneficial soil microbiology. The fertilizer shall have a near neutral pH, a low salt index, a low biological oxygen demand, contain organic humic and fulvic acids, and have high aerobic organism counts. The fertilizer shall also be stable, free of bad odors, and be unattractive as a food source for animals. It should also be in a granular form that is easily spread. The all-natural slow release fertilizer shall be applied according to the manufacturer’s application recommendations. The application rate is 1,000 pounds per acre. The fertilizer shall be as shown below or an approved equal:
Product Manufacturer
Sustane
Sustane Corporate Headquarters Cannon Falls, Minnesota Phone: 1-800-352-9245 http://www.sustane.com/
DRILLS In addition to the drills specified in Section 730 of the Specifications, other types of drills including no-till drills will be allowed as long as they have baffles, partitions, agitators, or augers which keep the seed distributed throughout the seed box and the seed is planted at a depth of ¼” to ½”.
MYCORRHIZAL INOCULUM Mycorrhizal inoculum shall consist of mycorrhizal fungi spores and mycorrhizal fungi-infected root fragments in a solid carrier. The carrier may include organic materials, calcinated clay, or other materials consistent with application and good plant growth. The supplier shall provide certification of the fungal species claimed and the live propagule count. The inoculum shall include the following fungal species: Glomus intraradices 25% Glomus aggregatu 25% Glomus mosseae 25% Glomus etunicatum 25% All seed shall be inoculated by the seed supplier with a minimum of 100,000 live propagules of mycorrhizal fungi per acre. All costs of inoculating the seed shall be incidental to the contract unit price per pound for the corresponding permanent seed mixture. The mycorrhizal inoculum shall be as shown below or an approved equal:
Product Manufacturer
MycoApply
Mycorrhizal Applications, Inc. Grants Pass, OR Phone: 1-866-476-7800 http://www.mycorrhizae.com/
PERMANENT SEEDING The areas to be seeded consist of all newly graded areas within the project limits except for the top of roadways. All permanent seed shall be planted in the topsoil at a depth of ¼” to ½”. All seed broadcast must be raked or dragged in (incorporated) within the top ¼” to ½” of topsoil when possible. This requirement may be waived by the Engineer during construction when raking or dragging is deemed not feasible by conventional methods. Type A Permanent Seed Mixture shall consist of the following:
Grass Species
Variety
Pure Live Seed (PLS)
(Pounds/Acre) Western Wheatgrass Flintlock, Rodan, Rosana 7 Green Needlegrass Lodorm 4 Sideoats Grama Butte, Killdeer, Pierre, Trailway 3 Blue Grama Bad River, Willis 2 Canada Wildrye Mandan 2 Total: 18
MULCHING (GRASS HAY OR STRAW) Bales with noxious weed contamination will be rejected and the Contractor will be required to remove the contaminated bales from the project. SEED ORIGIN LIMITATIONS Grass seed furnished shall be the grass species listed in the plans. The Contractor may use one of the grass varieties listed in the plans for the specified grass species or the Contractor may use a different grass variety of the same grass species specified. If the Contractor uses a grass variety listed in the plans for the specified grass species, the grass seed origin limitations will not apply. If the Contractor uses a grass variety not listed in the plans for the specified grass species, the grass seed furnished must originate in South Dakota, North Dakota, Montana, Wyoming, Nebraska, Iowa, Minnesota, Kansas, Colorado, or Wisconsin. Grass seed grown outside this area may be approved after the Contractor has furnished written certification from three seed suppliers confirming seed grown within this area is not readily available.
HR Y502(00) F6 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
STORM WATER POLLUTION PREVENTION PLAN CHECKLIST (The numbers right of the title headings are reference numbers to the GENERAL PERMIT FOR STORM WATER DISCHARGES ASSOCIATED WITH CONSTRUCTION ACTIVITIES
SITE DESCRIPTION (4.2 1)
Project Limits: See Title Sheet (4.2 1.b) Project Description: See Title Sheet (4.2 1.a.) Site Map(s): See Title Sheet and Plans (4.2 1.f. (1)-(6)) Major Soil Disturbing Activities (check all that apply)
Clearing and grubbing Excavation/borrow Grading and shaping Filling Cutting and filling Other (describe):
Total Project Area 12.1 Acres (4.2 1.b.) Total Area To Be Disturbed 1 Acre (4.2 1.b.) Existing Vegetative Cover (%) Soil Properties: Clay (4.2 1. d.) Name of Receiving Water Body/Bodies Dry Creek (4.2 1.e.)
ORDER OF CONSTRUCTION ACTIVITIES (4.2 1.c.)
(Stabilization measures shall be initiated as soon as possible, but in no case later than 14 days after the construction activity in that portion of the site has temporarily or permanently ceased. Initiation of final or temporary stabilization may exceed the 14-day limit if earth disturbing activities will be resumed within 21 days.)
Remove topsoil and store in windrow. Install commercial vehicle information system (WIM) Widen inslope with fill and install guardrail. Blade topsoil back up inslopes Complete final paving and sealing of concrete. Reseed and mulch areas disturbed by removal activities. EROSION AND SEDIMENT CONTROLS (4.2 2.a.(1)(a)-(f))
(Check all that apply) Stabilization Practices (See Detail Plan Sheets)
Temporary Seeding (Cover Crop Seeding) Permanent Seeding Sodding Planting (Woody Vegetation for Soil Stabilization) Mulching (Grass Hay or Straw) Hydraulic Mulch (Wood Fiber Mulch) Soil Stabilizer Bonded Fiber Matrix Erosion Control Blankets or Mats Vegetation Buffer Strips Roughened Surface (e.g. tracking) Dust Control Other:
Structural Temporary Erosion and Sediment Controls
Silt Fence Floating Silt Curtain Straw Bale Check Temporary Berm Temporary Slope Drain Straw Wattles or Rolls Turf Reinforcement Mat Rip Rap Gabions Rock Check Dams Sediment Traps/Basins Inlet Protection Outlet Protection Surface Inlet Protection (Area Drain) Curb Inlet Protection Stabilized Construction Entrances Entrance/Exit Equipment Tire Wash Interceptor Ditch Concrete Washout Area Temporary Diversion Channel Work Platform Temporary Water Barrier Temporary Water Crossing Other:
Wetland Avoidance Will construction and/or erosion and sediment controls impinge on regulated wetlands? Yes No If yes, the structural and erosion and sediment controls have been included in the total project wetland impacts and have been included in the 404 permit process with the USACE.
Storm Water Management (4.2 2.b., (1) and (2)) Storm water management will be handled by temporary controls outlined in “EROSION AND SEDIMENT CONTROLS” above, and any permanent controls needed to meet permanent storm water management needs in the post construction period. Permanent controls will be shown on the plans and noted as permanent.
Other Storm Water Controls (4.2 2.c., (1) and (2)) Waste Disposal
All liquid waste materials will be collected and stored in sealed metal containers approved by the project engineer. All trash and construction debris from the site will be deposited in the approved containers. Containers will be serviced as necessary, and the trash will be hauled to an approved disposal site or licensed landfill. All onsite personnel will be instructed in the proper procedures for waste disposal, and notices stating proper practices will be posted in the field office. The general contractor’s representative responsible for the conduct of work on the site will be responsible for seeing waste disposal procedures are followed.
Hazardous Waste All hazardous waste materials will be disposed of in a manner specified by local or state regulations or by the manufacturer. Site personnel will be instructed in these practices, and the individual designated as the contractor’s on-site representative will be responsible for seeing that these practices are followed.
Sanitary Waste Portable sanitary facilities will be provided on all construction sites. Sanitary waste will be collected from the portable units in a timely manner by a licensed waste management contractor or as required by any local regulations.
Maintenance and Inspection (4.2 3. and 4.2 4.) Maintenance and Inspection Practices
Inspections will be conducted at least one time per week and after a storm event of 0.50 inches or greater.
All controls will be maintained in good working order. Necessary repairs will be initiated within 24 hours of the site inspection report.
Silt fence will be inspected for depth of sediment and for tears in order to ensure the fabric is securely attached to the posts and that the posts are well anchored. Sediment buildup will be removed from the silt fence when it reaches 1/3 of the height of the silt fence.
Sediment basins and traps will be checked. Sediment will be removed when depth reaches approximately 50 percent of the structure’s capacity, and at the conclusion of the construction.
Check dams will be inspected for stability. Sediment will be removed when depth reaches ½ the height of the dam.
All seeded areas will be checked for bare spots, washouts, and vigorous growth free of significant weed infestations.
Inspection and maintenance reports will be prepared on form DOT 298 for each site inspection, this form will also be used to document changes to the SWPPP. A copy of the completed inspection form will be filed with the SWPPP documents.
The SDDOT Project Engineer and contractor’s site superintendent are responsible for inspections. Maintenance, repair activities are the responsibility of the contractor. The SDDOT Project Engineer will complete the inspection and maintenance reports and distribute copies per the distribution instructions on DOT 298.
Non-Storm Water Discharges (3.0) The following non-storm water discharges are anticipated during the course of this project (check all that apply). Discharges from water line flushing. Pavement wash-water, where no spills or leaks of toxic or
hazardous materials have occurred. Uncontaminated ground water associated with dewatering
activities. Materials Inventory (4.2. 2.c.(2)) The following materials or substances are expected to be present on the site during the construction period. These materials will be handled as noted under the headings “EROSION AND SEDIMENT CONTROLS” and “SPILL PREVENTION” (check all that apply). Concrete and Portland Cement Detergents Paints Metals Bituminous Materials Petroleum Based Products Cleaning Solvents Wood Cure Texture Chemical Fertilizers Other:
HR Y502(00) F7 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
Spill Prevention (4.2 2.c.(2)) Material Management
Housekeeping Only needed products will be stored on-site by the
contractor. Except for bulk materials the contractor will store all
materials under cover and in appropriate containers. Products must be stored in original containers and labeled. Material mixing will be conducted in accordance with the
manufacturer’s recommendations. When possible, all products will be completely used before
properly disposing of the container off site. The manufacturer’s directions for disposal of materials and
containers will be followed. The contractor’s site superintendent will inspect materials
storage areas regularly to ensure proper use and disposal. Dust generated will be controlled in an environmentally
safe manner. Vegetation areas not essential to the construction project
will be preserved and maintained as noted on the plans.
Hazardous Materials Products will be kept in original containers unless the
container is not resealable. Original labels and material safety data sheets will be
retained in a safe place to relay important product information.
If surplus product must be disposed of, manufacturer’s label directions for disposal will be followed.
Maintenance and repair of all equipment and vehicles involving oil changes, hydraulic system drain down, de-greasing operations, fuel tank drain down and removal, and other activities which may result in the accidental release of contaminants will be conducted on an impervious surface and under cover during wet weather to prevent the release of contaminants onto the ground.
Wheel wash water will be collected and allowed to settle out suspended solids prior to discharge. Wheel wash water will not be discharged directly into any storm water system or storm water treatment system.
Potential pH-modifying materials such as: bulk cement, cement kiln dust, fly ash, new concrete washings, concrete pumping, residuals from concrete saw cutting (either wet or dry), and mixer washout waters will be collected on site and managed to prevent contamination of storm water runoff.
Product Specific Practices (6.8)
Petroleum Products All on-site vehicles will be monitored for leaks and receive regular preventive maintenance to reduce the chance of leakage. Petroleum products will be stored in tightly sealed containers which are clearly labeled.
Fertilizers Fertilizers will be applied only in the amounts specified by the SDDOT. Once applied, fertilizers will be worked into the soil to limit the exposure to storm water. Fertilizers will be stored in an enclosed area. The contents of partially used fertilizer bags will be transferred to sealable containers to avoid spills.
Paints All containers will be tightly sealed and stored when not required for use. The excess will be disposed of according to
the manufacturer’s instructions and any applicable state and local regulations.
Concrete Trucks Contractors will provide designated truck washout areas on the site. These areas must be self contained and not connected to any storm water outlet of the site. Upon completion of construction washout areas will be properly stabilized.
Spill Control Practices (4.2 2 c.(2)) In addition to the previous housekeeping and management practices, the following practices will be followed for spill prevention and cleanup if needed. For all hazardous materials stored on site, the manufacturer’s
recommended methods for spill clean up will be clearly posted. Site personnel will be made aware of the procedures and the locations of the information and cleanup supplies.
Appropriate cleanup materials and equipment will be maintained by the contractor in the materials storage area on-site. As appropriate, equipment and materials may include items such as brooms, dust pans, mops, rags, gloves, goggles, kitty litter, sand, sawdust, and plastic and metal trash containers specifically for clean up purposes.
All spills will be cleaned immediately after discovery and the materials disposed of properly.
The spill area will be kept well ventilated and personnel will wear appropriate protective clothing to prevent injury from contact with a hazardous substance.
After a spill a report will be prepared describing the spill, what caused it, and the cleanup measures taken. The spill prevention plan will be adjusted to include measures to prevent this type of spill from reoccurring, as well as clean up instructions in the event of reoccurrences.
The contractor’s site superintendent, responsible for day-to-day operations, will be the spill prevention and cleanup coordinator. The contractor is responsible for ensuring that the site superintendent has had appropriate training for hazardous materials handling, spill management, and cleanup.
Spill Response (4.2 2 c.(2)) The primary objective in responding to a spill is to quickly contain the material(s) and prevent or minimize migration into storm water runoff and conveyance systems. If the release has impacted on-site storm water, it is critical to contain the released materials on-site and prevent their release into receiving waters. If a spill of pollutants threatens storm water or surface water at the site, the spill response procedures outlined below must be implemented in a timely manner to prevent the release of pollutants. The contractor’s site superintendent will be notified immediately
when a spill or the threat of a spill is observed. The superintendent will assess the situation and determine the appropriate response.
If spills represent an imminent threat of escaping erosion and sediment controls and entering receiving waters, personnel will be directed to respond immediately to contain the release and notify the superintendent after the situation has been stabilized.
Spill kits containing appropriate materials and equipment for spill response and cleanup will be maintained by the contractor at the site.
If oil sheen is observed on surface water (e.g. settling ponds, detention ponds, swales), action will be taken immediately to remove the material causing the sheen. The contractor will use appropriate materials to contain and absorb the spill. The source of the oil sheen will also be identified and removed or repaired as necessary to prevent further releases.
If a spill occurs the superintendent or the superintendent’s designee will be responsible for completing the spill reporting form and for reporting the spill to SD DENR.
Personnel with primary responsibility for spill response and clean up will receive training by the contractor’s site superintendent or designee. The training must include identifying the location of the spill kits and other spill response equipment and the use of spill response materials.
Spill response equipment will be inspected and maintained as necessary to replace any materials used in spill response activities.
Spill Notification In the event of a spill, the contractor’s site superintendent will make the appropriate notification(s), consistent with the following procedures: A release or spill of a regulated substance (includes petroleum and
petroleum products) must be reported to DENR immediately if any one of the following conditions exists: The discharge threatens or is in a position to threaten the
waters of the state (surface water or ground water). The discharge causes an immediate danger to human health or
safety. The discharge exceeds 25 gallons. The discharge causes a sheen on surface water. The discharge of any substance that exceeds the ground water
quality standards of ARSD (Administrative Rules of South Dakota) chapter 74:51:01.
The discharge of any substance that exceeds the surface water quality standards of ARSD chapter 74:51:01.
The discharge of any substance that harms or threatens to harm wildlife or aquatic life.
The discharge of crude oil in field activities under SDCL (South Dakota Codified Laws) chapter 45-9 is greater than 1 barrel (42 gallons).
To report a release or spill, call DENR at 605-773-3296 during regular office hours (8 a.m. to 5 p.m. Central time). To report the release after hours, on weekends or holidays, call State Radio Communications at 605-773-3231. Reporting the release to DENR does not meet any obligation for reporting to other state, local, or federal agencies. Therefore, the responsible person must also contact local authorities to determine the local reporting requirements for releases. DENR recommends that spills also be reported to the National Response Center at (800) 424-8802. Construction Changes (4.4) When changes are made to the construction project that will require alterations in the temporary erosion controls of the site, the Storm Water Pollution Prevention Plan (SWPPP) will be amended to provide appropriate protection to disturbed areas, all storm water structures, and adjacent waters. The SDDOT Project Engineer will modify the SWPPP plan (DOT 298) and drawings to reflect the needed changes. Copies of changes will be routed per DOT 298. Copies of forms and the SWPPP will be retained in a designated place for review over the course of the project.
HR Y502(00) F8 F18
PROJECT STATE OF SOUTH
DAKOTA
SHEET NO.
TOTAL SHEETS
CERTIFICATIONS
Certification of Compliance with Federal, State, and Local
Regulations The Storm Water Pollution Prevention Plan (SWPPP) for this project reflects the requirements of all local municipal jurisdictions for storm water management and sediment and erosion control as established by ordinance, as well as other state and federal requirements for sediment and erosion control plans, permits, notices or documentation as appropriate.
South Dakota Department of Transportation
I certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations.
Authorized Signature (See the General Permit, Section 6.7.1.C.)
Prime Contractor This section is to be executed by the General Contractor after the award of the contract. This section may be executed any time there is a change in the Prime Contractor of the project.
I certify under penalty of law that this document and all attachments will be revised or maintained under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations.
___________________________________________________________
Authorized Signature
CONTACT INFORMATION
Contractor Information:
Prime Contractor Name:
Contractor Contact Name:
Address:
Address:
City: State: Zip:
Office Phone: Field:
Cell Phone: Fax:
Erosion Control Supervisor Name:
Address:
Address:
City: State: Zip:
Office Phone: Field:
Cell Phone: Fax:
SDDOT Project Engineer
Name:
Business Address:
Job Office Location:
City: State: Zip:
Office Phone: Field:
Cell Phone: Fax:
SD DENR Contact Spill Reporting Business Hours Monday-Friday (605) 773-3296 Nights and Weekends (605) 773-3231
SD DENR Contact for Hazardous Materials. (605) 773-3153
National Response Center Hotline (800) 424-8802.
HR Y502(00) F9 F18
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14’ 12’6’6’ 4’ 9’
2’2’
Slope: 0.02’/Ft. Slope: 0.02’/Ft.
6:1 6:1
Slope: 0.04’/Ft.Slope: 0.04’/Ft.
3" Asphalt Concrete In Place 3" Asphalt Concrete In Place
Gravel Cushion In PlaceGravel Cushion In Place
9.5" Nonreinforced PCC Pavement In Place
5" Gravel Cushion In Place
CL
14’ 12’6’6’ 4’ 9’
2’
Slope: 0.02’/Ft. Slope: 0.02’/Ft.
6:1 6:1
Slope: 0.02’/Ft.
Slope: 0.04’/Ft.
3" Asphalt Concrete In Place
Gravel Cushion In Place
9.5" Nonreinforced PCC Pavement In Place
5" Gravel Cushion In Place
CL
In Place Section Showing Material to be Removed
Sta. 677+50 to Sta. 688+50
SOUTHBOUND LANES
Surfacing Section
Sta. 677+50 to Sta. 688+50
SOUTHBOUND LANES
Granular Base Material
and Stockpile Asphalt Mix &
Unclassified Excavation and Salvage
3" Asphalt Concrete Composite
3" Asphalt Concrete Composite
1.5’
1.5’
8.5" Base Course, Salvaged
lump sum price for INCIDENTAL WORK.
subgrade shall be incidental to the contract
necessary to reshape and recompact the
the Engineer. All costs and incidentals
and recompacted to the satisfaction of
Top 6" of subgrade shall be reshaped
HR Y502(00) F10 F18
12’ 14’4’4’ 6’ 4’
1.5’
PCC Pavement In Place
9.5" Nonreinforced
3" Asphalt Concrete In Place
Base Course, Salvaged In Place
Asphalt Concrete In Place
3" Asphalt Concrete In Place
3" Base Course In Place
6" to 15" Subbase In Place
Slope: 0.04’/Ft.Slope: 0.02’/Ft.
6:1
4:1
Slope: 0.02’/Ft. Slope: 0.02’/Ft.
CL
12’ 14’4’4’
1.5’
6’ 4’
1.5’
PCC Pavement In Place
9.5" Nonreinforced
3" Asphalt Concrete In Place
Base Course, Salvaged In Place
Asphalt Concrete In Place
3" Asphalt Concrete In Place
3" Base Course In Place
6" to 15" Subbase In Place
Slope: 0.04’/Ft.
Slope: 0.04’/Ft.
3" Asphalt Concrete In Place
Base Course, Salvaged In Place
6:1
4.9:
1
4:1
Slope: 0.02’/Ft. Slope: 0.02’/Ft.
CL
Granular Base Material
and Stockpile Asphalt Mix &
Unclassified Excavation and Salvage
1.1’
1.1’
4.9:
1
3" Asphalt Concrete Composite
3" Asphalt Concrete Composite
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3.5" Base Course, Salvaged
In Place Section Showing Material to be Removed
Sta. 676+50 to Sta. 687+50
NORTHBOUND LANES
Surfacing Section
Sta. 676+50 to Sta. 687+50
NORTHBOUND LANES
HR Y502(00) F11 F18
12’ 14’ 6’ 2’
PCC Pavement In Place
9.5" Nonreinforced
3" Asphalt Concrete In Place
Base Course, Salvaged In Place
Asphalt Concrete In Place
3" Asphalt Concrete In Place
3" Base Course In Place
6" to 15" Subbase In Place
Slope: 0.04’/Ft.
4:1
Slope: 0.02’/Ft. Slope: 0.02’/Ft.
CL
10:1 Slope
4:1 Minimum Inslope
for limits of surfacing.
See Guardrail Embankment Layout
Base Course, Salvaged
4’4’
Slope: 0.02’/Ft.
6:1
1.1’
1.1’
4.9:
1
3" Asphalt Concrete Composite In Place
3" Asphalt Concrete Composite In Place
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Typical Section Showing Surfacing of Guardrail Embankment
Sta. 679+82.58 to Sta. 683+68.58
NORTHBOUND LANES
3.5" Base Course, Salvaged In Place
HR Y502(00) F12 F18
681+00 682+00 683+00 684+00
GG
G
681+00 682+00 683+00 684+00
6’
14’
12’
4’
6’
14’
12’
4’
4’
12’
14’
6’
4’
12’
14’
6’
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
PCC Pavement
In Place
PCC Pavement
In Place
PCC Pavement
Begin Grinding
Sta. 681+50
PCC Pavement
End Grinding
Sta. 684+50
4.8’
4.8’
Limits of Grinding PCC Pavement
> of Southbound Lanes
> of Northbound Lanes
PCC Pavement
In Place
PCC Pavement
In Place
G G Underground Gas Line
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Scale 1 Inch = 30 Feet
of Sta. 862+50 SBL
Sta. 682+50 NBL = 104’ R.
Equation
PCC Pavement
Begin Grinding
Sta. 680+50
PCC Pavement
End Grinding
Sta. 683+50
for additional details for the locations of the Weigh-In-Motion System.
after grinding of the existing PCC pavement is completed. See Section G
Limits of Concrete Pavement Removal for Weigh-In-Motion System (WIM)
and Northbound Lanes Sta. 682+50 or as adjusted by the Engineer.
Southbound Lanes Sta. 682+50 or as adjusted by the Engineer
HR Y502(00) F13 F18
680+00 681+00 682+00 683+00
680+00 681+00 682+00 683+00
6’
14’
12’
4’
6’
14’
12’
4’
4’
12’
14’
6’
4’
12’
14’
6’
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
> of Southbound Lanes
> of Northbound Lanes
In Place PCC Pavement
In Place PCC Pavement
30’ 326’ 30’
2’ 2’
additional surfacing limits
See Typical Surfacing Sections for
Base Course - 10:1 Slope.
1
3
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Scale 1 Inch = 30 Feet
2
3 License Plate Reader Camera Pole (See Section G)
2 License Plate Reader Camera Illuminator Pole (See Section G)
1 Overview Camera Pole (See Section G)
of Sta. 682+50 SBL
Sta. 682+50 NBL = 104’ R.
Equation
Sta. 680+12.58
Sta. 679+82.58
Sta. 683+38.58
Sta. 683+68.58
See Section G for additional details
Weigh-In-Motion System (WIM)
Sta. 682+50 or as adjusted by the Engineer
See Section G for additional details
Weigh-In-Motion System (WIM)
Sta. 682+50 or as adjusted by the Engineer
HR Y502(00) F14 F18
680+00 681+00 682+00 683+00
680+00 681+00 682+00 683+00
6’
14’
12’
4’
6’
14’
12’
4’
4’
12’
14’
6’
4’
12’
14’
6’
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
In Place Asphalt Concrete Shoulder
> of Southbound Lanes
> of Northbound Lanes
In Place PCC Pavement
In Place PCC Pavement
286’ 26’
1
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Scale 1 Inch = 30 Feet
26’
4 4
4 NCHRP 350 Test Level 3 High Tension Cable Guardrail Anchor Assembly
3 License Plate Reader Camera Pole (See Section G)
2 License Plate Reader Camera Illuminator Pole (See Section G)
1 Overview Camera Pole (See Section G)
2
of Sta. 682+50 SBL
Sta. 682+50 NBL = 104’ R.
Equation
Sta. 680+32.58 Sta. 683+18.58
See Section G for additional details
Weigh-In-Motion System (WIM)
Sta. 682+50 or as adjusted by the Engineer
See Section G for additional details
Weigh-In-Motion System (WIM)
Sta. 682+50 or as adjusted by the Engineer
NCHRP 350 Test Level 3 High Tension Cable Guardrail - Length of Need - Maximum 8’ Post Spacing
HR Y502(00) F15 F18
DAKOTA
SOUTH
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SHEETSHEETS
TOTAL
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SHEETSHEETS
TOTAL
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SHEETSHEETS
TOTAL
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