806.8 Storm Water Pollution Prevention Plan (SWPPP): Difference between revisions
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A temporary berm is a temporary ridge of compacted soil, with or without a shallow ditch, constructed at the top of fill slopes or transverse to centerline on fills. The purpose of these ridges is to divert storm runoff from small areas away from steep slopes and direct this water to temporary outlets where the water can be discharged with minimum slope erosion. These ridges are used temporarily at the top of newly constructed slopes to prevent excessive erosion until permanent controls are installed and/or slopes are stabilized. They are also used transverse to grade to divert runoff to stabilized slope drains. | A temporary berm is a temporary ridge of compacted soil, with or without a shallow ditch, constructed at the top of fill slopes or transverse to centerline on fills. The purpose of these ridges is to divert storm runoff from small areas away from steep slopes and direct this water to temporary outlets where the water can be discharged with minimum slope erosion. These ridges are used temporarily at the top of newly constructed slopes to prevent excessive erosion until permanent controls are installed and/or slopes are stabilized. They are also used transverse to grade to divert runoff to stabilized slope drains. | ||
Type A Berms are specified for use at the end of each day’s operations on embankments, will be constructed to specified dimensions (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]) and will be machine compacted with a minimum of one pass over the entire width of the berm with a dozer tread, grader wheel, etc. Type B Berms are specified when embankment operations are shut down over extended periods of time (i.e., winter) | Type A Berms are specified for use at the end of each day’s operations on embankments, will be constructed to specified dimensions (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]) and will be machine compacted with a minimum of one pass over the entire width of the berm with a dozer tread, grader wheel, etc. Type A Berms may also be used as a temporary perimeter control structure where slopes are less than 2% and permanent vegetation is present on the downgrade side of the structure. Removal of Type A Berms will occur when grading operations cease and final contours are achieved. Removal will usually occur just before the application of seed and mulch or other soil stabilization measures. | ||
Type B Berms are constructed on the top of fill slopes and are intended to direct runoff water into a temporary slope drain. These temporary diversion structures are specified when embankment operations are shut down over extended periods of time (i.e., winter) and will be constructed to specified dimensions (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). The top width of these berms may be wider and the side slopes flatter on transverse berms to allow equipment to pass over these berms with minimal disruption. Operation and maintenance concerns are limited to ensuring that the majority of runoff water is directed into the inlet of the slope drain. Removal of Type B Berms will normally occur when base rock is installed, prior to paving. | |||
Type C berms are specified at the toes of spill slopes around bridge construction operations and will be constructed to the specified dimension (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). Installation will generally precede land disturbance activities, unless some clearing is necessary in order to gain access to the site. Type C Berms must be installed above the regulatory "ordinary high water mark" and will be installed at the location specified by the engineer. The structure may be permanent or temporary depending on the ultimate desired use of the right of way beneath the bridge. If the C Berm is removed, material may be used for bank stabilization, or other construction use. Bank stabilization will be in accordance with Section 404 permit. Type C Berms shall be checked for sediment accumulation after each significant rainfall. Sediment shall be removed when it reaches one-half of the original height or before. Sediment removal will include removal and disposition in a location where it will not erode into construction areas or watercourses. | |||
====806.8.4.2.2 Temporary Slope Drains==== | ====806.8.4.2.2 Temporary Slope Drains==== | ||
A temporary slope drain (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]) is used to carry water down slopes to reduce erosion and consists of stone, concrete or asphalt gutters, half-round pipe, metal pipe, plastic pipe, or flexible rubber pipe. Temporary slope drains are required on fill slopes at approximately 500 ft. intervals or as directed by the engineer. | A temporary slope drain (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]) is used to carry water down slopes to reduce erosion and consists of stone, concrete or asphalt gutters, half-round pipe, metal pipe, plastic pipe, or flexible rubber pipe. Temporary slope drains are required on fill slopes at approximately 500 ft. intervals or as directed by the engineer. These structures are installed after the fill slope has reached its intended elevation and final grade. | ||
All temporary slope drains will be adequately anchored to the slope to prevent disruption by the force of the water flowing in these drains. The inlet end will be properly constructed to channel water into the temporary drain. The outlet ends will have some means of dissipating the energy of the water to reduce erosion downstream. Unless otherwise specified, all temporary slope drains will be removed when no longer necessary and the site will be restored to match the surroundings. | All temporary slope drains will be adequately anchored to the slope to prevent disruption by the force of the water flowing in these drains. The inlet end will be properly constructed to channel water into the temporary drain. The outlet ends usually will have some means of dissipating the energy of the water to reduce erosion downstream. Where scour at the outlet is of lesser concern due to the physical characteristics of the ditch there shall still be sediment capture devices in the ditch or drainage outlet downgrade from the slope drain outlet. Unless otherwise specified, all temporary slope drains will be removed when no longer necessary and the site will be restored to match the surroundings. | ||
====806.8.4.2.3 Ditch Checks==== | ====806.8.4.2.3 Ditch Checks==== | ||
There are two types of ditch checks that can be used – Type I and Type II. | There are two types of ditch checks that can be used – Type I and Type II. These sediment control structures are used when the road ditch has been "cut" to its final dimensions, before the application of seed and mulch. | ||
Type I ditch checks | Type I ditch checks may be used where drainage areas are 1 acre or less, ditch slopes are 2 percent or less and expected ditch flow volumes are small (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). These thresholds may be exceeded at the approval of the engineer in emergency situations where appropriate materials are unavailable or weather conditions prohibit installation of more desirable structures. | ||
Type II ditch checks are specified where drainage areas are 50 acres or less, ditch slopes are 10 percent or less and expected ditch flow volumes are high (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). For scenarios that exceed the criteria established above, a combination of Type II ditch checks and erosion control blankets are utilized. | |||
Type I and II ditch checks shall be placed and constructed according to the plans shown in the Standard Plans For Highway Construction [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf (Standard Plan 806.10)]. In some cases local conditions may dictate some deviation from the dimensions and shape that are shown in the Standard Plans; however, deviations from Standard Plans must still ensure that sediment capture is occurring. In order to be effective, all of these devices must be installed according to the manufacturers specifications. | Type I and II ditch checks shall be placed and constructed according to the plans shown in the Standard Plans For Highway Construction [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf (Standard Plan 806.10)]. In some cases local conditions may dictate some deviation from the dimensions and shape that are shown in the Standard Plans; however, deviations from Standard Plans must still ensure that sediment capture is occurring. In order to be effective, all of these devices must be installed according to the manufacturers specifications. | ||
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Ditch checks shall be checked for sediment accumulation after each significant rainfall. Sediment shall be removed when it reaches one-half of the original height or before. Sediment removal will include removal and disposition in a location where it will not erode into construction areas or watercourses. Regular inspections shall be made to ensure that the center of the check is lower than the edges. This will ensure that water overflow will be directed into the middle of the roadway ditch. Erosion caused by high flows around the edges of the ditch check shall be identified in routine inspections and shall be corrected so as to protect backslopes and inslopes. | Ditch checks shall be checked for sediment accumulation after each significant rainfall. Sediment shall be removed when it reaches one-half of the original height or before. Sediment removal will include removal and disposition in a location where it will not erode into construction areas or watercourses. Regular inspections shall be made to ensure that the center of the check is lower than the edges. This will ensure that water overflow will be directed into the middle of the roadway ditch. Erosion caused by high flows around the edges of the ditch check shall be identified in routine inspections and shall be corrected so as to protect backslopes and inslopes. | ||
Type I ditch checks include the following devices: | Type I ditch checks are temporary measures and include the following devices: | ||
::Geotextile Silt Fence (staked) | ::Geotextile Silt Fence (staked) | ||
::Straw Bales (staked) | ::Straw Bales (staked) | ||
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Each type of ditch check (particularly the tubular/cylindrical/triangular products) will have specific directions for installation. In all cases care shall be exercised so as to install the device according to manufacturer specifications. Effectiveness may be compromised if not installed correctly. | Each type of ditch check (particularly the tubular/cylindrical/triangular products) will have specific directions for installation. In all cases care shall be exercised so as to install the device according to manufacturer specifications. Effectiveness may be compromised if not installed correctly. | ||
Ditch checks shall remain in place until the engineer directs that they be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. In rare cases, rock ditch checks may remain in place permanently, and resultant accumulated sediment shall be allowed to develop vegetative cover as a permanent feature of the right of way. | |||
====806.8.4.2.4 Energy Dissipaters==== | ====806.8.4.2.4 Energy Dissipaters==== | ||
An energy dissipater is a physical structure that is intended to reduce the erosive energy that is typically encountered down grade from a pipe or culvert. Erosive energy from intense flows may also be encountered in median ditches or road ditches. Energy dissipation may be accomplished by the installation of large boulders, wood pilings, engineered concrete structures or other means approved by the engineer. Unlike ditch checks and rock dams, energy dissipaters are '''not''' intended to impound water and sediment. Energy dissipaters must be constructed in a fashion such that the water that flows through, over or around the structure is equally distributed in the discharge channel and does not exacerbate or cause a resultant erosion problem. | An energy dissipater is a physical structure that is intended to reduce the erosive energy that is typically encountered down grade from a pipe or culvert. As such, these BMPs are normally permanent. Erosive energy from intense flows may also be encountered in median ditches or road ditches. Energy dissipation may be accomplished by the installation of large boulders, wood pilings, engineered concrete structures or other means approved by the engineer, following construction of the ultimate drainage channel or device. Unlike ditch checks and rock dams, energy dissipaters are '''not''' intended to impound water and sediment. Energy dissipaters must be constructed in a fashion such that the water that flows through, over or around the structure is equally distributed in the discharge channel and does not exacerbate or cause a resultant erosion problem. | ||
====806.8.4.2.5 Sediment Basin==== | ====806.8.4.2.5 Sediment Basin==== | ||
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Where the use of a sediment basin of sufficient size as described above is impractical, other similarly effective BMPs must be employed to prevent sediment from leaving MoDOT right of way. | Where the use of a sediment basin of sufficient size as described above is impractical, other similarly effective BMPs must be employed to prevent sediment from leaving MoDOT right of way. | ||
Sediment basins shall normally remain in service until all disturbed areas draining into the structure have been satisfactorily stabilized. When use of temporary sediment basins is to be discontinued, all excavations are to be backfilled and properly compacted, fill material removed, and the existing ground restored to its natural or intended condition. | Sediment basins shall be installed at the time of clearing and grubbing, and will normally remain in service until all disturbed areas draining into the structure have been satisfactorily stabilized. Once vegetative or other stabilization is achieved, the engineer will determine whether the sediment basin is to remain as a permanent feature. When use of temporary sediment basins is to be discontinued, all excavations are to be backfilled and properly compacted, fill material removed, and the existing ground restored to its natural or intended condition. | ||
When accumulated sediment and excavated material is removed from individual BMPs, the excavated material shall be disposed of in locations where sediment will not again erode into the construction areas or into natural waterways. | When accumulated sediment and excavated material is removed from individual BMPs, the excavated material shall be disposed of in locations where sediment will not again erode into the construction areas or into natural waterways. | ||
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====806.8.4.2.6 Sediment Traps==== | ====806.8.4.2.6 Sediment Traps==== | ||
A sediment trap is a temporary sediment basin. It is an excavated or dammed storage area that is used for short-term (3-4 weeks) sediment control purposes. These structures should be installed prior to land disturbance activities and will be constructed by available equipment as grading is underway and will not usually be shown on the contract plans. They are commonly used prior to the installation of more permanent, designed erosion controls. Removal will occur simultaneously with the installation of the permanent feature. In situations where long-term maintenance issues are absent, and permanent vegetation established, sediment traps may be left in place as long as there is no threat to the natural or human environment. | |||
A sediment trap is a structure constructed of rock or other non-earthen material sufficient to impound water. It is placed down grade of a drainage structure outlet to prevent sediment from leaving MoDOT right of way. Around larger, more permanent streams, they will be placed parallel to stream at each ditch outlet. They will be in place prior to clearing and grubbing operations and shall remain in place until slopes are seeded and mulched or rock lining for culvert outlets has been placed. | |||
Sediment traps may be dewatered through a single riser pipe, through the gravel of the rock dam, or over a stabilized spillway. | |||
Once installed, the location of sediment traps will be shown on the inspector's site plans. Where right of way is available, each trap will be of sufficient size to contain a volume of at least 3600 cubic ft. per each acre of disturbed area which passes through the drainage structure. Accumulated sediment shall be removed from the trap as needed to ensure the minimum volume of 3600 cubic feet is maintained. Discharges from the sediment trap shall not cause scouring of the banks or bottom of the receiving stream. | |||
Where the use of a sediment trap of sufficient size as described above is impractical, other similarly effective BMP’s must be employed to prevent sediment from leaving MoDOT right of way. | |||
A sediment trap will be constructed in accordance with [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10] and [http://www.modot.mo.gov/business/standards_and_specs/Sec0806.pdf Standard Specification 806.60]. Estimated quantities for each trap located on the project will be shown to the nearest cubic yard. | |||
====806.8.4.2.7 Inlet Controls==== | ====806.8.4.2.7 Inlet Controls==== | ||
Storm drain (median or curb) inlet protection measures prevent soil and debris from entering storm drain inlets. | Storm drain (median or curb) inlet protection measures prevent soil and debris from entering storm drain inlets. Temporary inlet protection is implemented at existing inlets prior to land disturbance, and new inlets are protected and as they are brought on-line. Effective storm drain inlet protection must be provided throughout the project until all sources with potential for discharging to an inlet have been paved or stabilized. At that time inlet controls are removed. | ||
As the conditions or operations change during a project, the sediment control BMP protecting the storm drain inlet may need to be modified to ensure proper effectiveness for sediment capture. Limiting the amount of sediment entering a storm sewer will reduce the need to clean out pipes at the end of the project. | As the conditions or operations change during a project, the sediment control BMP protecting the storm drain inlet may need to be modified to ensure proper effectiveness for sediment capture. Limiting the amount of sediment entering a storm sewer will reduce the need to clean out pipes at the end of the project. | ||
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::Silt Saver Inlet Filter | ::Silt Saver Inlet Filter | ||
::Dandy Products (Bag, Sack, Pop, Curb, Curb Bag, Curb Sack) | ::Dandy Products (Bag, Sack, Pop, Curb, Curb Bag, Curb Sack) | ||
:: | ::Wooden, steel or other barricades | ||
Each type of inlet control device (particularly the tubular/cylindrical/triangular products) will have specific directions for installation. In all cases care shall be exercised so as to install the device according to manufacturer specifications. Effectiveness may be compromised if not installed correctly. | |||
During construction, elevated curb inlets and median inlets may serve as "riser pipes" as long as they are sufficiently higher than the existing grade. Sediment that accumulates at the base of the riser pipe following storm water events shall be removed when it reaches one-half of the original height of the riser pipe. Once the desired grade has been achieved, inlet protection is required. | |||
====806.8.4.2.8 Erosion Stabilization Mats and Blankets==== | ====806.8.4.2.8 Erosion Stabilization Mats and Blankets==== | ||
Erosion control blankets, erosion stabilization mats, and turf reinforcement mats are designed to reinforce vegetation. The added reinforcement allows the vegetation to withstand higher flow velocities and can be an alternative to rip-rap applications. | Erosion control blankets, erosion stabilization mats, and turf reinforcement mats are designed to reinforce vegetation. The added reinforcement allows the vegetation to withstand higher flow velocities and can be an alternative to rip-rap applications. | ||
Erosion stabilization mats are typically used to prevent sheet, rill or gully erosion. As such they may be used on slope areas with concentrated flow or in channels. | Erosion stabilization mats are typically used to prevent sheet, rill or gully erosion. As such they may be used on slope areas with concentrated flow or in channels. Since both Erosion Stabilization Mats and Blankets have a life expectancy (longevity) they are considered to be "temporary" erosion control measures. | ||
Slopes should be stabilized immediately after grading work is completed. Soil retention blankets or turf reinforcement mats should be considered for most slopes steeper than 1V:3H; depending on soil types. Protecting slopes from erosion requires several actions that must be taken together. No single approach will be successful, especially if the slope is long, steep, or has highly erodible soils. | Slopes should be stabilized immediately after grading work is completed. Soil retention blankets or turf reinforcement mats should be considered for most slopes steeper than 1V:3H; depending on soil types. Protecting slopes from erosion requires several actions that must be taken together. No single approach will be successful, especially if the slope is long, steep, or has highly erodible soils. | ||
Prior to installation of blankets or mats the ground should be smooth, with no large rocks, vegetation or rills on the surface. Areas where blankets are to be used shall be properly prepared with topsoil or soil conditioning, and fertilized if required, and seeded before blankets are placed. The blankets shall be placed smoothly but loosely on the soil surface without stretching. Blankets at the top of the slope should be trenched in beyond the crest of the slope so as to avoid undercutting. | Mats and blankets will be installed as soon as possible after final grading. Removal is not necessary or required seeing as how the material will decay and or break down on its own. | ||
Prior to installation of blankets or mats the ground should be smooth, with no large rocks, vegetation or rills on the surface. Areas where blankets are to be used shall be properly prepared with topsoil or soil conditioning, and fertilized if required, and seeded before blankets are placed. The blankets shall be placed smoothly but loosely on the soil surface without stretching. Blankets at the top of the slope should be trenched in beyond the crest of the slope so as to avoid undercutting. Blankets and mats should be inspected at the same frequency as all other erosion control items. Malfunctions must be repaired in a timely manner or else slope shaping, grading and reinstallation will be required. | |||
Each of the products that are listed below has its own physical description that can be obtained from the manufacturer. Providing the physical description of all ECBs or TRMs would be unnecessary and redundant for the purposes of this SWPPP. | |||
{| border="1" cellpadding="5" cellspacing="0" align="center" | {| border="1" cellpadding="5" cellspacing="0" align="center" | ||
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|- | |- | ||
|DS-75|| North American Green | |DS-75|| North American Green | ||
|- | |||
|Landlok S1RD|| Propex Geosynthetics | |||
|- | |- | ||
|rowspan="7" align="center"|Type 2|| AEC Premier Straw Single Net|| American Excelsior ||rowspan="7" align="center"|Single photodegradable net ||rowspan="7" align="center"|12 months ||rowspan="7" align="center"|1(V):3(H) or flatter | |rowspan="7" align="center"|Type 2|| AEC Premier Straw Single Net|| American Excelsior ||rowspan="7" align="center"|Single photodegradable net ||rowspan="7" align="center"|12 months ||rowspan="7" align="center"|1(V):3(H) or flatter | ||
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|- | |- | ||
|S1000 ||Environscape | |S1000 ||Environscape | ||
|- | |||
|Landlok S2| Propex Geosynthetics | |||
|- | |- | ||
|rowspan="7" align="center"|Type 3|| AEC Premier Straw Double Net|| American Excelsior||rowspan="7" align="center"|Double photodegradable net ||rowspan="7" align="center"|12-18 months ||rowspan="7" align="center"|1(V):2(H) or flatter | |rowspan="7" align="center"|Type 3|| AEC Premier Straw Double Net|| American Excelsior||rowspan="7" align="center"|Double photodegradable net ||rowspan="7" align="center"|12-18 months ||rowspan="7" align="center"|1(V):2(H) or flatter | ||
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|- | |- | ||
|CFS072B||Greenfix America | |CFS072B||Greenfix America | ||
|- | |||
|Landlok 300|| Propex Geosynthetics | |||
|- | |- | ||
|rowspan="7" align="center"|Type 4|| AEC Premier Straw/Coconut|| American Excelsior ||rowspan="7" align="center"|Double photodegradable net ||rowspan="7" align="center"|24 months ||rowspan="7" align="center"|1(V):2(H) or flatter | |rowspan="7" align="center"|Type 4|| AEC Premier Straw/Coconut|| American Excelsior ||rowspan="7" align="center"|Double photodegradable net ||rowspan="7" align="center"|24 months ||rowspan="7" align="center"|1(V):2(H) or flatter | ||
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|Recyclex TRM|| American Excelsior | |Recyclex TRM|| American Excelsior | ||
|- | |- | ||
|PP5-10 | |PP5-10||Western Excelsior | ||
|- | |- | ||
|rowspan="3"|Type 3|| P550|| North American Green | |rowspan="3"|Type 3|| P550|| North American Green | ||
|- | |- | ||
| | |Pyramat Tan/Green|| Propex Geosynthetics | ||
|- | |- | ||
| | |Landlok 300|| Propex Geosynthetics | ||
|} | |} | ||
=====806.8.4.2.8.1 Temporary Seeding and Mulching (MO Specifications [http://www.modot.mo.gov/business/standards_and_specs/Sec0802.pdf Sections 802] and [http://www.modot.mo.gov/business/standards_and_specs/Sec0805.pdf 805])===== | |||
====806.8.4.2. | |||
This work shall consist of preparing and fertilizing a seedbed, furnishing and sowing of seed, and mulching. The purpose of temporary seeding and mulching is to produce a quick ground cover to reduce erosion in disturbed areas that are expected to be redisturbed at a later date. | |||
Seeding and/or mulching will be a continuous operation on all cut and fill slopes, waste sites, and borrow pits during the construction process. Designated, disturbed areas shall be seeded and mulched when and where necessary to eliminate erosion. In designated areas seeding and/or mulching shall be done as soon as possible after completion of the earthwork, not to exceed 14 days, weather permitting. | |||
Temporary mulch placed over temporary seed mixtures shall be applied in accordance with the provisions of [http://www.modot.mo.gov/business/standards_and_specs/Sec0802.pdf Sec 802.2.1] of the Missouri Standard Specifications. Fertilizer shall be applied at the rate specified for permanent seeding. Lime will usually not be required for temporary seeding but will be applied according to governing specifications when a permanent seed mixture is used. | |||
=====806.8.4.2.8.2 Permanent Seeding and Mulching (MO Specifications [http://www.modot.mo.gov/business/standards_and_specs/Sec0805.pdf Section 805])===== | |||
Permanent seeding and mulching following the temporary seeding will be performed according to the Missouri Standard Specifications | Permanent seeding and mulching following the temporary seeding will be performed according to the Missouri Standard Specifications Section 805 and ''will be permitted during the favorable seeding seasons only.'' | ||
====806.8.4.2. | ====806.8.4.2.9 Straw Bales (MO Specifications [http://www.modot.mo.gov/business/standards_and_specs/Sec0802.pdf Sec 802])==== | ||
Bales of straw can be used as a means of controlling pollution and erosion. The straw bales obstruct the flow of water allowing deposition of sediment and/or diversion of water. Other foliage may be substituted for straw in accordance with [http://www.modot.mo.gov/business/standards_and_specs/Sec0802.pdf Sec 802.2.1] of the Missouri Standard Specifications. | Bales of straw can be used as a temporary means of controlling pollution and erosion. The straw bales obstruct the flow of water allowing deposition of sediment and/or diversion of water. Other foliage may be substituted for straw in accordance with [http://www.modot.mo.gov/business/standards_and_specs/Sec0802.pdf Sec 802.2.1] of the Missouri Standard Specifications. | ||
This method is typically used at the bottom of embankment slopes to divert runoff from sheet flow and trap sediment, as a ditch check in small ditches and drainage areas, and on the lower side of the cleared areas to catch sediment from sheet flow. When used to trap sediment or divert runoff, the bales must be braced from behind. When used as a ditch check, embedment is required. Straw bales are most effective in areas where there is overland flow (runoff that flows over the surface of the ground as a thin, even layer). It is not effective in areas where there is a large volume of runoff. | This method is typically used at the bottom of embankment slopes to divert runoff from sheet flow and trap sediment, as a ditch check in small ditches and drainage areas, and on the lower side of the cleared areas to catch sediment from sheet flow. When used to trap sediment or divert runoff, the bales must be braced from behind. When used as a ditch check, embedment is required. Straw bales are most effective in areas where there is overland flow (runoff that flows over the surface of the ground as a thin, even layer). It is not effective in areas where there is a large volume of runoff. | ||
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The straw bales shall remain in place until the engineer directs that they be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. | The straw bales shall remain in place until the engineer directs that they be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. | ||
====806.8.4.2. | ====806.8.4.2.10 Silt Fence (MO Specifications [http://www.modot.mo.gov/business/standards_and_specs/Sec0624.pdf Sec 624] & [http://www.modot.mo.gov/business/standards_and_specs/Sec1011.pdf Sec 1011])==== | ||
Use of a silt fence consists of furnishing, installing, maintaining, and removing a geotextile barrier fence designed to remove suspended particles from water passing through the fence. | Use of a silt fence consists of furnishing, installing, maintaining, and removing a geotextile barrier fence designed to remove suspended particles from water passing through the fence. . Silt fence is a temporary sediment control measure. Materials used for silt fences must meet certain requirements. | ||
[[image:swpp 9.jpg|right|400px]] | [[image:swpp 9.jpg|right|400px]] | ||
There are several construction requirements for silt fences. Fence construction shall be adequate to handle the stress from hydraulic and sediment loading. Geotextile at the bottom of the fence shall be buried. The trench shall be backfilled and the soil compacted over the geotextile. The geotextile shall be spliced together as indicated on the standard drawings (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). | There are several construction requirements for silt fences. Fence construction shall be adequate to handle the stress from hydraulic and sediment loading. Geotextile at the bottom of the fence shall be buried. The trench shall be backfilled and the soil compacted over the geotextile. The geotextile shall be spliced together as indicated on the standard drawings (see MoDOT [http://www.modot.mo.gov/business/standards_and_specs/documents/80610.pdf Standard Plan 806.10]). | ||
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When support fence is used, the mesh shall be fastened securely to the up-slope side of the post. The mesh shall extend into the trench a minimum of 2 in. and extend a maximum of 36 in. above the original ground surface. When self-supported fence is used, the geotextile shall be securely fastened to fence posts. | When support fence is used, the mesh shall be fastened securely to the up-slope side of the post. The mesh shall extend into the trench a minimum of 2 in. and extend a maximum of 36 in. above the original ground surface. When self-supported fence is used, the geotextile shall be securely fastened to fence posts. | ||
When silt fence is used as a perimeter sediment control device it must be maintained for as long as necessary to contain sediment runoff. All silt fences shall be inspected as part of MODOT’s routine inspections after each rainfall and at least daily during prolonged rainfall. Any deficiencies shall be corrected within seven days following delivery of inspection report to contractor. In addition, a daily review of the location of silt fences should be made in areas where construction activities have changed the natural contour and drainage runoff to ensure that the silt fences are properly located for effectiveness. Where deficiencies exist, additional silt fences shall be installed as approved or directed by the engineer. | When silt fence is used as a perimeter sediment control device it must be installed at the time of clearing and grubbing, and must be maintained for as long as necessary to contain sediment runoff. All silt fences shall be inspected as part of MODOT’s routine inspections after each rainfall and at least daily during prolonged rainfall. Any deficiencies shall be corrected within seven days following delivery of inspection report to contractor. In addition, a daily review of the location of silt fences should be made in areas where construction activities have changed the natural contour and drainage runoff to ensure that the silt fences are properly located for effectiveness. Where deficiencies exist, additional silt fences shall be installed as approved or directed by the engineer. | ||
Sediment deposits shall be removed and disposed of when the deposit approaches one-half the height of the fence or sooner. If required by heavy sediment loading, a second silt fence shall be installed as directed by the engineer. | Sediment deposits shall be removed and disposed of when the deposit approaches one-half the height of the fence or sooner. If required by heavy sediment loading, a second silt fence shall be installed as directed by the engineer. | ||
The silt fence shall remain in place until the engineer directs that it be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. | The silt fence shall remain in place until the engineer directs that it be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. Biodegradable silt fence (such as some of the products shown below) need not be removed. | ||
The engineer may substitute perimeter silt fence by any of the following commercial products: | The engineer may substitute perimeter silt fence by any of the following commercial products: | ||
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::Triangular Silt Dike | ::Triangular Silt Dike | ||
====806.8.4.2. | ====806.8.4.2.11 Compost Filter Berms==== | ||
A compost filter berm is a dike of compost or a compost product that is placed perpendicular to sheet flow runoff to control erosion in disturbed areas and retain sediment. It can be used in place of a traditional sediment and erosion control tool such as silt fence. As such these berms are installed at the time of clearing and grubbing and will remain in place throughout construction. Composts used in filter berms are made from a variety of feedstocks, including municipal yard trimmings, food residuals, separated municipal solid waste, biosolids, wood chips, and manure. | |||
Compost filter berms are generally placed along the perimeter of a site, or at intervals along a slope, to capture sediment from sheet flow. A filter berm also can be used as a check dam in small drainage ditches. | |||
Post-construction removal is not required because, by definition, they are biodegradable and temporary. However, unvegetated berms are often broken down once construction is complete and the compost is spread around the site as a soil amendment or mulch. | |||
====806.8.4.2. | ====806.8.4.2.12 Temporary Pipe==== | ||
A temporary pipe is a conduit used temporarily to carry water under a haul road, silt fence, etc. It is used to convey normal and expected high flows at temporary stream crossings, preventing the contractor's equipment from coming in direct contact with the water when crossing active streams or intermittent streams created during heavy rainfalls. All temporary pipe shall be installed in the same manner as permanent pipe is installed on the project to assure that the water does not cause erosion around the pipe. Material to backfill the pipe should be placed in 6 in. lifts and mechanically compacted, although a compaction test is not required. | A temporary pipe is a conduit used temporarily to carry water under a haul road, silt fence, etc. It is used to convey normal and expected high flows at temporary stream crossings, preventing the contractor's equipment from coming in direct contact with the water when crossing active streams or intermittent streams created during heavy rainfalls. All temporary pipe shall be installed in the same manner as permanent pipe is installed on the project to assure that the water does not cause erosion around the pipe. Material to backfill the pipe should be placed in 6 in. lifts and mechanically compacted, although a compaction test is not required. | ||
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====806.8.4.3.3 Brush Piles==== | ====806.8.4.3.3 Brush Piles==== | ||
Brush piles are considered to be a temporary BMP that is effective during clearing and grubbing operations. | Brush piles are considered to be a temporary BMP that is effective during clearing and grubbing operations. It is also an ancillary, supportive measure used in combination with rock dams and sediment traps. | ||
Tree tops, limbs, stumps and other vegetation, when placed in a drainage swale, can effectively impound gravel, soil and other eroded materials that otherwise may be carried off of MoDOT right of way during runoff periods. To be effective, brush piles should be compressed by clearing equipment at the time of installation. Initial inspections following rainfall will determine their ability to impound water and sediment. Like other BMPs, brush piles should be inspected every seven days as well as following heavy rains to insure that they are functioning as intended. Enhanced sediment capture may be achieved by additional compaction, application of filter fabric or vegetative material. | |||
If the brush pile is intended to serve as a semi-permanent structure for an extended period of time beyond the clearing and grubbing stage, clean out and maintenance equivalent to that required for Type 1 and Type 2 ditch checks is required. | |||
==806.8.5 Disturbed Areas== | ==806.8.5 Disturbed Areas== | ||
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With the possible exception of drilled shafts in large rivers such as the Missouri or Mississippi, return water shall not be discharged without treatment by BMPs approved by the engineer. The amount of return water that is pumped and subsequently discharged shall be recorded in the inspector’s diary and expressed as gallons per minute for the duration of the pumping activity. | With the possible exception of drilled shafts in large rivers such as the Missouri or Mississippi, return water shall not be discharged without treatment by BMPs approved by the engineer. The amount of return water that is pumped and subsequently discharged shall be recorded in the inspector’s diary and expressed as gallons per minute for the duration of the pumping activity. | ||
==806.8.8 Amending/Updating the Project Plans== | ==806.8.8 Roadways== | ||
In order to ensure that sediment is not transported into a situation where it can be delivered off-site, stabilized construction entrances should be used when construction equipment is frequently crossing or entering paved roadways. Stabilized construction entrances should be built with rock of sufficient size to cause mud and dirt to fall off of the tires of the construction equipment. Geotextile fabric may be necessary for placement below the stabilized entrance in some soil conditions. In muddy situations, the voids between the rocks will always fill up with soil particles and as such, additional stone will need to be applied periodically and when repair is required. | |||
The purpose of the stabilized entrance is to reduce the amount of sediment that will be transported onto the driving surface. However, the driving surface at the point of the active crossing cannot remain clean without additional measures such as sweeping or grading. | |||
Because it is impossible to eliminate all trackout of soil particles, inspections should ensure that sediment control measures downgrade from the area of trackout are in good operating condition. | |||
==806.8.9 Amending/Updating the Project Plans== | |||
Erosion control plans are prepared by MoDOT designers and/or consultants and will show the final structural erosion controls that are envisioned upon completion of final grading. These plans usually will not be changed unless directed by the engineer. Interim erosion control measures at the start of the project shall be amended and updated as appropriate during the term of the land disturbance activity. The engineer shall require modifications to the erosion controls whenever the: | Erosion control plans are prepared by MoDOT designers and/or consultants and will show the final structural erosion controls that are envisioned upon completion of final grading. These plans usually will not be changed unless directed by the engineer. Interim erosion control measures at the start of the project shall be amended and updated as appropriate during the term of the land disturbance activity. The engineer shall require modifications to the erosion controls whenever the: | ||
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:*MDNR determines violations of Water Quality Standards have occurred. | :*MDNR determines violations of Water Quality Standards have occurred. | ||
==806.8. | ==806.8.10 Site Inspection Reports== | ||
The [[:category:105 Control of Work#105.9 Authority and Duties of Resident Engineer (Sec 105.9)|resident engineer]] is responsible for evaluating the contractor’s erosion control devices and must ensure that weekly inspections are performed, as well as inspections following any rainfall event that could cause migration of eroded soil off of the site. Copies of the inspection reports are provided to the contractor, and deficiencies are to be corrected within seven calendar days. | The [[:category:105 Control of Work#105.9 Authority and Duties of Resident Engineer (Sec 105.9)|resident engineer]] is responsible for evaluating the contractor’s erosion control devices and must ensure that weekly inspections are performed, as well as inspections following any rainfall event that could cause migration of eroded soil off of the site. Copies of the inspection reports are provided to the contractor, and deficiencies are to be corrected within seven calendar days. | ||
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MoDOT performs environmental compliance training to resident engineers, construction inspectors and other field staff to ensure that erosion control inspections are being conducted in a consistent fashion statewide. The individual who performs the training is organizationally located in MoDOT’s Environmental Section and does not have supervisory authority over the construction personnel who perform inspections. However, the same individual who performs training has the responsibility of performing statewide audits of construction sites to ensure that SWPPPs are being followed to the extent that off-site contamination does not occur. The individual usually will visit every construction site at least twice per year and meet with MoDOT resident engineers, inspectors or contractors to evaluate the land disturbance elements of the project and to ensure consistency of inspections. In cases where deficiencies are identified, the resident engineer has the responsibility to see that the deficiencies are corrected. | MoDOT performs environmental compliance training to resident engineers, construction inspectors and other field staff to ensure that erosion control inspections are being conducted in a consistent fashion statewide. The individual who performs the training is organizationally located in MoDOT’s Environmental Section and does not have supervisory authority over the construction personnel who perform inspections. However, the same individual who performs training has the responsibility of performing statewide audits of construction sites to ensure that SWPPPs are being followed to the extent that off-site contamination does not occur. The individual usually will visit every construction site at least twice per year and meet with MoDOT resident engineers, inspectors or contractors to evaluate the land disturbance elements of the project and to ensure consistency of inspections. In cases where deficiencies are identified, the resident engineer has the responsibility to see that the deficiencies are corrected. | ||
==806.8. | ==806.8.11 Diamond Grinding== | ||
Although diamond grinding is not a land disturbance activity, the fine material that is removed from the driving surface will become suspended in discharge water and has the potential to contaminate nearby streams if not sufficiently managed. The following shall be considered the minimum requirements for performing this work within the project limits in addition to [http://www.modot.mo.gov/business/standards_and_specs/Sec0622.pdf Sec 622] and [[:Category:622 Pavement and Bridge Surface Removal and Texturing#622.2 Construction Inspection for Diamond Grinding of Existing Portland Cement Concrete Pavement|EPG 622.2.1 Construction Inspection for Diamond Grinding of Existing Portland Cement Concrete Pavement]] . | Although diamond grinding is not a land disturbance activity, the fine material that is removed from the driving surface will become suspended in discharge water and has the potential to contaminate nearby streams if not sufficiently managed. The following shall be considered the minimum requirements for performing this work within the project limits in addition to [http://www.modot.mo.gov/business/standards_and_specs/Sec0622.pdf Sec 622] and [[:Category:622 Pavement and Bridge Surface Removal and Texturing#622.2 Construction Inspection for Diamond Grinding of Existing Portland Cement Concrete Pavement|EPG 622.2.1 Construction Inspection for Diamond Grinding of Existing Portland Cement Concrete Pavement]] . | ||
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The engineer may suspend operations during periods of rainfall or during freezing temperatures. | The engineer may suspend operations during periods of rainfall or during freezing temperatures. | ||
==806.8. | ==806.8.12 Turbidity Removal and Advanced Treatment Systems== | ||
Water clarification and the removal of turbidity will usually require the addition of flocculents, polymers, polyacrylamides (PAM), chitosan and other chemicals that cause soil particles to bind together, become heavy and settle to the bottom of a sediment trap or sediment basin. | Water clarification and the removal of turbidity will usually require the addition of flocculents, polymers, polyacrylamides (PAM), chitosan and other chemicals that cause soil particles to bind together, become heavy and settle to the bottom of a sediment trap or sediment basin. | ||
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:* Erosion control blankets and turf reinforcement mats that have been inoculated with PAM or chitosan, and installed upgrade from a sediment basin or sediment trap. | :* Erosion control blankets and turf reinforcement mats that have been inoculated with PAM or chitosan, and installed upgrade from a sediment basin or sediment trap. | ||
==806.8. | ==806.8.13 Chemical Stabilizers == | ||
Chemical stabilizers, also known as soil binders or soil palliatives, provide temporary soil | Chemical stabilizers, also known as soil binders or soil palliatives, provide temporary soil | ||
stabilization. Various products are sprayed onto the surface of exposed soils to hold the soil in place and minimize erosion from runoff and wind. These materials are easily applied to the surface of the soil, can stabilize areas where vegetation cannot be established, and provide immediate protection. | stabilization. Various products are sprayed onto the surface of exposed soils to hold the soil in place and minimize erosion from runoff and wind. These materials are easily applied to the surface of the soil, can stabilize areas where vegetation cannot be established, and provide immediate protection. | ||
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Inspect chemically stabilized areas regularly for signs of erosion, and if necessary, reapply the stabilizer. | Inspect chemically stabilized areas regularly for signs of erosion, and if necessary, reapply the stabilizer. | ||
[[Category:806 Pollution, Erosion and Sediment Control|806.8]] | [[Category:806 Pollution, Erosion and Sediment Control|806.8]] |
Revision as of 15:24, 14 January 2011
EPG 806.8 SWPPP presents the very latest SWPPP information, but this doc file may be helpful for those wanting to easily print the SWPPP information. |
806.8.1 Storm Water Permit and Storm Water Polution Prevention Plan (SWPPP)
Provisions of the federal Clean Water Act and related state rules and regulations require stormwater permits where construction activities disturb greater than one acre over the life of a project as part of a common plan or sale. MoDOT has a general State Operating Permit, obtained from the Missouri Department of Natural Resources (DNR), that allows road construction activities and the associated land disturbance. The permit stipulates that MoDOT will follow certain erosion control guidelines and install temporary erosion control measures. Locally sponsored federal aid projects that are performed on MoDOT right of way and are using MoDOT’s land disturbance permit are required to comply with MoDOT Standard Specifications, and therefore, must follow this Storm Water Pollution Prevention Plan (SWPPP). Cities, counties and other government entities may already possess their own State Operating Permit and, in that case, must comply with their own SWPPP.
In a few rare cases, MoDOT may require contractors to obtain their own individual State Operating Permit for land disturbance activities even though the project is being constructed on MoDOT right of way. These unique situations will normally be design/build projects that are funded by MoDOT, but totally managed by the contractor. MoDOT will coordinate with DNR whenever one of these design/build projects commences.
The purpose of the SWPPP is to ensure the design, implementation, management and maintenance of Best Management Practices (BMPs) in order to reduce the amount of sediment and other pollutants in storm water discharges associated with the land disturbance activities; comply with the Missouri Water Quality Standards, and ensure compliance with the terms and conditions of the general permit.
The following documents were used in the preparation of this SWPPP:
- Best Management Practices for Erosion and Sediment Control, (Report No. FHWA-FLP-94-005) published by the United States Department of Transportation (1995)
- Storm Water Management for Construction Activities: Developing Pollution Prevention Plans and Best Management Practices, (Document number EPA 832-R-92-005) published by the United States Environmental Protection Agency (1992)
- Protecting Water Quality: A field guide to erosion, sediment and storm water best management practices for development sites in Missouri
- Missouri Standard Specifications for Highway Construction
- Missouri Department of Transportation Engineering Policy Guide
- Menu of BMPs – United States Environmental Protection Agency.
A typical MoDOT project involves the implementation of many documents, processes and standard operating procedures. These various processes and procedures are of such detail that it is impossible to include in this brief summary of BMPs. Pollution from storm water can be reduced by the implementation of the BMPs, construction techniques and site management measures in this article. However, pollution from storm water will also be reduced by the issuance of change orders, letters/memos of notification, Order Records and Contractor Performance Reports. Changes that occur as a result of directives to contractors will usually be documented by Document Records and other various product and reports produced by the computer program, SiteManager. Lastly, a Semi-Final Inspection Report can serve to identify post-construction measures that will ensure permit compliance and water quality protection.
In addition to these contract management tools, MoDOT conducts annual storm water permit compliance training for construction site inspectors, resident engineers and other personnel. The information distributed in that class goes beyond the scope of this statewide SWPPP document. Many effective BMPs and construction techniques are discussed during that training, but may not yet appear in this article.
These and other unique MoDOT tools must be considered elements of a SWPPP because they all result in implementation of measures that cause or caused a resultant action to occur on a construction project.
806.8.2 Site Description
The Engineering Policy Guide article EPG 237.1 Plan Details describes the information that is to be included in all plans that are used by contractors to build highways. All highway and bridge projects are constructed from a set of design plans that are generated by MoDOT designers or consultants. The plans show all existing topographic features, buildings, roadways and drainages, as well as right of way limits.
The plans contain sufficient information to be of practical use to contractors and site construction workers to guide the installation of BMPs in the interim and final stages of construction. A set of final plans is always on location at active MoDOT job sites, usually in the possession of MoDOT’s construction inspector or the contractor superintendent. In the early stages of construction these final plans will usually include hand written notes showing the locations of temporary BMPs.
Contract plans shall include erosion control measures that are sufficient to protect streams, lakes and private land adjacent to MoDOT right of way, and the location of most of these controls will be depicted on the plan sheets. Temporary erosion control measures shall be coordinated with permanent erosion control measures to assure economical, effective and continuous erosion control. Construction of permanent erosion control measures that may contribute to the control of siltation, shall be accomplished at the earliest practicable time.
806.8.3 Drainage Areas
In compliance with the Missouri Clean Water Law (Section 644.051), neither MoDOT nor MoDOT's contractors shall pollute any waters of the state, or place, cause, or permit to be placed any water contaminant in a location where it is reasonably certain to cause pollution of any waters of the state. Also, they shall not discharge water contaminants into any waters of the state, which reduce the quality of these waters below the state's water quality standards. These water quality standards include the following (MO 10 CSR 20-7):
- (a) Waters shall be free from substances in sufficient amounts to cause the formation of putrescent, unsightly or harmful bottom deposits or prevent full maintenance of beneficial uses.
- (b) Waters shall be free from oil, scum and floating debris in sufficient amounts to be unsightly or prevent full maintenance of beneficial uses.
- (c) Waters shall be free from substances in sufficient amounts to cause unsightly color or turbidity, offensive odor or prevent full maintenance of beneficial uses.
- (d) Waters shall be free from substances or conditions in sufficient amounts to result in toxicity to human, animal or aquatic life.
- (e) Waters shall be free from physical, chemical or hydrologic changes that would impair the natural biological community.
- (f) Waters shall be free from used tires, car bodies, appliances, demolition debris, used vehicles or equipment and solid waste as defined in Missouri’s Solid Waste Law, Section 260.200, RSMo, except as the use of such materials is specifically permitted pursuant to Section 260.200–260.247.
MoDOT personnel or contractors hired by MoDOT shall comply with these and any other federal, state, and local laws and regulations controlling pollution of the environment. To ensure that these general criteria are met, the following guidelines will be observed:
- 1) Machinery shall be kept out of the waterway as much as possible.
- 2) Fuel, lubricants, debris and other water contaminants shall not be stored in areas that are subject to contact with water (such as adjacent to stream banks) or where contaminated runoff from the storage areas can enter waters.
- 3) Refueling and maintenance (e.g., oil changing) of machinery shall not take place in, or directly alongside, any water body.
- 4) Clearing of vegetation/trees shall be kept to the minimum required to accomplish the activity.
- 5) Riparian areas and banks shall be restored to a stable condition through recontouring and revegetation of the area, as necessary, as soon as possible (normally within three working days of final contouring).
- 6) Work shall be conducted during low flow whenever possible.
- 7) Wetland areas shall be avoided to the extent practical.
- 8) Work shall conform to all conditions that are part of the USACOE Section 404 permit and the ancillary MDNR Section 401 Water Quality Certification.
EPG 127.19 Section 404 Clean Water Act for Bridge Demolitions provides a detailed explanation of the process that is followed whenever a stream or drainage channel may fall into USACOE jurisdiction.
806.8.4 Temporary Erosion and Sediment Control (MO Specifications Division 800)
Temporary water pollution control measures shall be required of all contractors MoDOT hires. The contractor shall exercise best management practices throughout the project to control water pollution. Construction of permanent drainage facilities and other activities, which may contribute to the control of siltation, shall be accomplished at the earliest practicable time. This work shall consist of furnishing, installing, maintaining, and removing temporary control measures as shown on the plans (see MoDOT Standard Plan 806.10) or as ordered by the engineer. The control of water pollution will be accomplished through the use of berms, slope drains, ditch checks, sediment basins, seeding and mulching, straw bales, silt fences and other erosion control devices or methods. Pollutants such as chemicals, fuels, lubricants, bitumens, raw sewage or other harmful materials shall not be discharged from the project. No work shall be started until the erosion control timetable and methods of operation have been approved.
Temporary erosion control measures shall be coordinated with permanent erosion control measures to assure economical, effective and continuous erosion control. Temporary erosion controls must be kept in place and maintained until revegetation has occurred to an extent sufficient to prohibit the formation of gullies by runoff.
The engineer shall routinely inspect the condition of erosion controls and shall notify the contractor within 24 hours if any controls are found to be in disrepair or are not functioning at the desired level of effectiveness. Inspections are to be conducted at a frequency of once every seven days. Additional post-rainfall inspections will commence within 48 hours following significant rainfall. Significant rainfall means an event that causes linear flow in ditches and the subsequent overtopping or potential damage to BMPs. If sediment control devices at outfall locations have overtopped (denoting runoff), an inspection report will be completed. If rainfall is not sufficient to cause runoff, inspection reports may not be completed until the next scheduled 7-day inspection. The inspector will ensure that rainfall measurements are made on the job site and routinely monitor weather forecasts. Directives to the contractor shall be noted in the inspector's diary, which shall be available for review by DNR upon request.
Materials required for erosion control measures shall meet the standards of the following Missouri Standard Specifications for Highway Construction sections:
Name of Material | Sec |
---|---|
Fertilizer and Lime | 801 |
Straw for Bales | 802 |
Mulching, rates and material | 802 |
Seed | 805 |
Geotextile Fabric | 624 & 1011 |
806.8.4.1 Construction Requirements
The engineer may limit the surface area of erodible earth material exposed by clearing and grubbing, or excavation, borrow, and fill operations, and may direct the contractor to provide immediate permanent or temporary erosion control measures to prevent contamination of adjacent streams or other watercourses, wetlands, lakes, ponds, and other water impoundments. Such work may involve the construction of temporary berms, dikes, dams, sediment basins, slope drains, and the use of temporary seeding and mulching, or other erosion control devices or methods as necessary.
The contractor shall be required to incorporate all permanent erosion control measures into the project at the earliest practicable time. Temporary erosion control measures shall be used to correct conditions that develop during construction which were not foreseen during the design stage. Temporary erosion control shall also be used when needed prior to installation of permanent erosion control measures or when needed temporarily to control erosion that develops during normal construction practices, but are not associated with permanent control measures on the project.
Clearing and grubbing operations shall be scheduled and performed so that grading operations and temporary and permanent erosion control measures will follow immediately thereafter. The surface area of erodible earth material exposed at one time by clearing and grubbing, by excavating, by fill, or by borrow, shall be minimized to prevent runoff. The engineer may limit the total acreage of erodible earth material to be exposed at one time as determined by an analysis of project conditions. In such cases the engineer will identify specific BMPs and controls that have been, or will be installed in order to exceed the specified maximum disturbed acreage threshold.
The engineer will limit the area of clearing and grubbing, excavation, borrow and embankment operations in progress commensurate with the contractor's ability to keep the finish grading, mulching, seeding and other erosion control measures current. Should seasonal limitations make such coordination unrealistic, temporary erosion control measures shall be implemented as directed by the engineer.
Unless otherwise approved, construction operations in rivers, streams, wetlands and impoundments shall be restricted to those areas that must be entered for the construction of temporary or permanent structures. Rivers, streams, wetlands and impoundments shall be promptly cleared of all falsework, piling, debris or other obstructions placed therein or caused by the construction operations.
Frequent fording of live streams or wetlands with construction equipment is not permitted. Temporary bridges or other structures shall be used wherever an appreciable number of stream crossings are necessary. All temporary fills and structures placed in streams, wetlands, or impoundments will be removed and the site returned to natural or intended contours prior to completion of construction. Unless otherwise approved, mechanized equipment shall not be operated in live streams except as may be required to construct channel changes and temporary or permanent structures. If a Section 404 permit is applicable for a project, its requirements and/or conditions shall be followed.
Site-specific erosion controls above and beyond MoDOT standard specifications shall be discussed with the contractor at a preconstruction conference. Special conditions may be developed which can include limitations on the amount of surface area that can remain unprotected at one time or special water quality or stream protections requirements.
The location of all local material pits (other than commercially operated sources) and all excess material areas shall be subject to the approval of the engineer (material in this case refers to soil and rock). Construction operations shall be conducted and pollution control measures implemented so that erosion will not result in water pollution.
Concrete batch plants that are located on MoDOT right of way will be covered under this General Permit with respect to MDNR and State Operating Permit requirements. However, all other appropriate permits will need to be obtained by the batch plant operators themselves. Operators of concrete batch plants that are located off of MoDOT right of way will be responsible for obtaining all appropriate permits directly from the DNR.
With respect to the State Operating Permit requirements, borrow sites located immediately contiguous with MoDOT right of way or owned by MoDOT are covered by this permit. For borrow activities located not on or not contiguous with MoDOT right of way, the borrow operator will be responsible for obtaining all appropriate permits, including a land disturbance permit directly from the DNR for borrow sites greater than one acre.
In the event of a conflict between these requirements and pollution control laws, rules, or regulations of other federal, state, or local agencies, the more restrictive laws, rules, or regulations shall apply.
806.8.4.2 Erosion Control Measures (MO Specifications - Special Provisions)
The following Best Management Practices (BMPs) shall be used by contractors to assure that eroded sediment from MoDOT right of way does not move off of MoDOT property and onto adjacent land or into streams and drainage channels.
These practices may be used as stand alone BMPs or may be used in combination with other practices to assure effective erosion control and off site delivery of pollutants. Other practices that are not listed here, or have not been identified or invented at the time of the preparation of this SWPPP, may be used if their performance is equivalent or better than the practices listed below.
806.8.4.2.1 Temporary Berms
A temporary berm is a temporary ridge of compacted soil, with or without a shallow ditch, constructed at the top of fill slopes or transverse to centerline on fills. The purpose of these ridges is to divert storm runoff from small areas away from steep slopes and direct this water to temporary outlets where the water can be discharged with minimum slope erosion. These ridges are used temporarily at the top of newly constructed slopes to prevent excessive erosion until permanent controls are installed and/or slopes are stabilized. They are also used transverse to grade to divert runoff to stabilized slope drains.
Type A Berms are specified for use at the end of each day’s operations on embankments, will be constructed to specified dimensions (see MoDOT Standard Plan 806.10) and will be machine compacted with a minimum of one pass over the entire width of the berm with a dozer tread, grader wheel, etc. Type A Berms may also be used as a temporary perimeter control structure where slopes are less than 2% and permanent vegetation is present on the downgrade side of the structure. Removal of Type A Berms will occur when grading operations cease and final contours are achieved. Removal will usually occur just before the application of seed and mulch or other soil stabilization measures.
Type B Berms are constructed on the top of fill slopes and are intended to direct runoff water into a temporary slope drain. These temporary diversion structures are specified when embankment operations are shut down over extended periods of time (i.e., winter) and will be constructed to specified dimensions (see MoDOT Standard Plan 806.10). The top width of these berms may be wider and the side slopes flatter on transverse berms to allow equipment to pass over these berms with minimal disruption. Operation and maintenance concerns are limited to ensuring that the majority of runoff water is directed into the inlet of the slope drain. Removal of Type B Berms will normally occur when base rock is installed, prior to paving.
Type C berms are specified at the toes of spill slopes around bridge construction operations and will be constructed to the specified dimension (see MoDOT Standard Plan 806.10). Installation will generally precede land disturbance activities, unless some clearing is necessary in order to gain access to the site. Type C Berms must be installed above the regulatory "ordinary high water mark" and will be installed at the location specified by the engineer. The structure may be permanent or temporary depending on the ultimate desired use of the right of way beneath the bridge. If the C Berm is removed, material may be used for bank stabilization, or other construction use. Bank stabilization will be in accordance with Section 404 permit. Type C Berms shall be checked for sediment accumulation after each significant rainfall. Sediment shall be removed when it reaches one-half of the original height or before. Sediment removal will include removal and disposition in a location where it will not erode into construction areas or watercourses.
806.8.4.2.2 Temporary Slope Drains
A temporary slope drain (see MoDOT Standard Plan 806.10) is used to carry water down slopes to reduce erosion and consists of stone, concrete or asphalt gutters, half-round pipe, metal pipe, plastic pipe, or flexible rubber pipe. Temporary slope drains are required on fill slopes at approximately 500 ft. intervals or as directed by the engineer. These structures are installed after the fill slope has reached its intended elevation and final grade.
All temporary slope drains will be adequately anchored to the slope to prevent disruption by the force of the water flowing in these drains. The inlet end will be properly constructed to channel water into the temporary drain. The outlet ends usually will have some means of dissipating the energy of the water to reduce erosion downstream. Where scour at the outlet is of lesser concern due to the physical characteristics of the ditch there shall still be sediment capture devices in the ditch or drainage outlet downgrade from the slope drain outlet. Unless otherwise specified, all temporary slope drains will be removed when no longer necessary and the site will be restored to match the surroundings.
806.8.4.2.3 Ditch Checks
There are two types of ditch checks that can be used – Type I and Type II. These sediment control structures are used when the road ditch has been "cut" to its final dimensions, before the application of seed and mulch.
Type I ditch checks may be used where drainage areas are 1 acre or less, ditch slopes are 2 percent or less and expected ditch flow volumes are small (see MoDOT Standard Plan 806.10). These thresholds may be exceeded at the approval of the engineer in emergency situations where appropriate materials are unavailable or weather conditions prohibit installation of more desirable structures.
Type II ditch checks are specified where drainage areas are 50 acres or less, ditch slopes are 10 percent or less and expected ditch flow volumes are high (see MoDOT Standard Plan 806.10). For scenarios that exceed the criteria established above, a combination of Type II ditch checks and erosion control blankets are utilized.
Type I and II ditch checks shall be placed and constructed according to the plans shown in the Standard Plans For Highway Construction (Standard Plan 806.10). In some cases local conditions may dictate some deviation from the dimensions and shape that are shown in the Standard Plans; however, deviations from Standard Plans must still ensure that sediment capture is occurring. In order to be effective, all of these devices must be installed according to the manufacturers specifications.
Ditch checks shall be checked for sediment accumulation after each significant rainfall. Sediment shall be removed when it reaches one-half of the original height or before. Sediment removal will include removal and disposition in a location where it will not erode into construction areas or watercourses. Regular inspections shall be made to ensure that the center of the check is lower than the edges. This will ensure that water overflow will be directed into the middle of the roadway ditch. Erosion caused by high flows around the edges of the ditch check shall be identified in routine inspections and shall be corrected so as to protect backslopes and inslopes.
Type I ditch checks are temporary measures and include the following devices:
- Geotextile Silt Fence (staked)
- Straw Bales (staked)
- Fiber Rolls - < 8 “ (staked)
- Dura Check Sediment Control Panel®
Type II ditch checks include the following devices:
- Rock Ditch Checks
- Sand Bags
- Triangular Silt Dike®
- EnviroBerm® Porous Sediment Control System
- Fiber Rolls - > 8 “ (staked)
- Compost Filter Socks
- Filtrexx Ditch Chexx, Channel Soxx, Silt Soxx
- GeoRidge (Nilex)
- Compost Filter Berms
- Landlok BioLog
Each type of ditch check (particularly the tubular/cylindrical/triangular products) will have specific directions for installation. In all cases care shall be exercised so as to install the device according to manufacturer specifications. Effectiveness may be compromised if not installed correctly.
Ditch checks shall remain in place until the engineer directs that they be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. In rare cases, rock ditch checks may remain in place permanently, and resultant accumulated sediment shall be allowed to develop vegetative cover as a permanent feature of the right of way.
806.8.4.2.4 Energy Dissipaters
An energy dissipater is a physical structure that is intended to reduce the erosive energy that is typically encountered down grade from a pipe or culvert. As such, these BMPs are normally permanent. Erosive energy from intense flows may also be encountered in median ditches or road ditches. Energy dissipation may be accomplished by the installation of large boulders, wood pilings, engineered concrete structures or other means approved by the engineer, following construction of the ultimate drainage channel or device. Unlike ditch checks and rock dams, energy dissipaters are not intended to impound water and sediment. Energy dissipaters must be constructed in a fashion such that the water that flows through, over or around the structure is equally distributed in the discharge channel and does not exacerbate or cause a resultant erosion problem.
806.8.4.2.5 Sediment Basin
A sediment basin is an excavated or dammed storage area with rock riprap placed in inlet and outlet areas with defined side slopes (see MoDOT Standard Plan 806.10). Sediment basins are constructed to trap and store sediment from erodible areas in order to protect properties and stream channels below the installation from excessive siltation. These structures trap and store sediment that occurs in spite of temporary erosion control measures.
Sediment basins shall be considered when large areas (greater than ten acres) concentrate flow to one discharge point, and where right of way is available. The area where a sediment basin is to be constructed shall be cleared of vegetation to enable removal of sediment. The inlets of these sediment basins shall be constructed with a wide cross section and minimum grade to prevent turbulence and allow deposition of the soil particles. When the depth of sediment reaches 1/3 of the depth of the structure in any part of the pool, all accumulation shall be removed. Discharges from the basin shall not cause scouring of the receiving area.
The location of sediment basins will be shown on the plans. Each basin will be of sufficient size to contain a volume of at least 3600 cubic ft. per each acre of disturbed area which passes through the drainage structure. Accumulated sediment shall be removed from the basin as needed to ensure the minimum volume of 3600 cubic ft. is maintained. Discharges from the sediment basin shall not cause scouring of the banks or bottom of the receiving stream.
Where the use of a sediment basin of sufficient size as described above is impractical, other similarly effective BMPs must be employed to prevent sediment from leaving MoDOT right of way.
Sediment basins shall be installed at the time of clearing and grubbing, and will normally remain in service until all disturbed areas draining into the structure have been satisfactorily stabilized. Once vegetative or other stabilization is achieved, the engineer will determine whether the sediment basin is to remain as a permanent feature. When use of temporary sediment basins is to be discontinued, all excavations are to be backfilled and properly compacted, fill material removed, and the existing ground restored to its natural or intended condition.
When accumulated sediment and excavated material is removed from individual BMPs, the excavated material shall be disposed of in locations where sediment will not again erode into the construction areas or into natural waterways.
806.8.4.2.6 Sediment Traps
A sediment trap is a temporary sediment basin. It is an excavated or dammed storage area that is used for short-term (3-4 weeks) sediment control purposes. These structures should be installed prior to land disturbance activities and will be constructed by available equipment as grading is underway and will not usually be shown on the contract plans. They are commonly used prior to the installation of more permanent, designed erosion controls. Removal will occur simultaneously with the installation of the permanent feature. In situations where long-term maintenance issues are absent, and permanent vegetation established, sediment traps may be left in place as long as there is no threat to the natural or human environment.
A sediment trap is a structure constructed of rock or other non-earthen material sufficient to impound water. It is placed down grade of a drainage structure outlet to prevent sediment from leaving MoDOT right of way. Around larger, more permanent streams, they will be placed parallel to stream at each ditch outlet. They will be in place prior to clearing and grubbing operations and shall remain in place until slopes are seeded and mulched or rock lining for culvert outlets has been placed.
Sediment traps may be dewatered through a single riser pipe, through the gravel of the rock dam, or over a stabilized spillway.
Once installed, the location of sediment traps will be shown on the inspector's site plans. Where right of way is available, each trap will be of sufficient size to contain a volume of at least 3600 cubic ft. per each acre of disturbed area which passes through the drainage structure. Accumulated sediment shall be removed from the trap as needed to ensure the minimum volume of 3600 cubic feet is maintained. Discharges from the sediment trap shall not cause scouring of the banks or bottom of the receiving stream.
Where the use of a sediment trap of sufficient size as described above is impractical, other similarly effective BMP’s must be employed to prevent sediment from leaving MoDOT right of way.
A sediment trap will be constructed in accordance with Standard Plan 806.10 and Standard Specification 806.60. Estimated quantities for each trap located on the project will be shown to the nearest cubic yard.
806.8.4.2.7 Inlet Controls
Storm drain (median or curb) inlet protection measures prevent soil and debris from entering storm drain inlets. Temporary inlet protection is implemented at existing inlets prior to land disturbance, and new inlets are protected and as they are brought on-line. Effective storm drain inlet protection must be provided throughout the project until all sources with potential for discharging to an inlet have been paved or stabilized. At that time inlet controls are removed.
As the conditions or operations change during a project, the sediment control BMP protecting the storm drain inlet may need to be modified to ensure proper effectiveness for sediment capture. Limiting the amount of sediment entering a storm sewer will reduce the need to clean out pipes at the end of the project.
The following items are considered “prequalified” for use:
- Rock Ditch Checks
- Sand Bags
- Triangular Silt Dike®
- Fiber Rolls
- Compost Filter Socks
- Filtrexx Ditch Chexx, Channel Soxx, Silt Soxx
- Compost Filter Berms
- Landlok BioLog
- Big Red Curb Inlet Protector
- Silt Saver Inlet Filter
- Dandy Products (Bag, Sack, Pop, Curb, Curb Bag, Curb Sack)
- Wooden, steel or other barricades
Each type of inlet control device (particularly the tubular/cylindrical/triangular products) will have specific directions for installation. In all cases care shall be exercised so as to install the device according to manufacturer specifications. Effectiveness may be compromised if not installed correctly.
During construction, elevated curb inlets and median inlets may serve as "riser pipes" as long as they are sufficiently higher than the existing grade. Sediment that accumulates at the base of the riser pipe following storm water events shall be removed when it reaches one-half of the original height of the riser pipe. Once the desired grade has been achieved, inlet protection is required.
806.8.4.2.8 Erosion Stabilization Mats and Blankets
Erosion control blankets, erosion stabilization mats, and turf reinforcement mats are designed to reinforce vegetation. The added reinforcement allows the vegetation to withstand higher flow velocities and can be an alternative to rip-rap applications.
Erosion stabilization mats are typically used to prevent sheet, rill or gully erosion. As such they may be used on slope areas with concentrated flow or in channels. Since both Erosion Stabilization Mats and Blankets have a life expectancy (longevity) they are considered to be "temporary" erosion control measures.
Slopes should be stabilized immediately after grading work is completed. Soil retention blankets or turf reinforcement mats should be considered for most slopes steeper than 1V:3H; depending on soil types. Protecting slopes from erosion requires several actions that must be taken together. No single approach will be successful, especially if the slope is long, steep, or has highly erodible soils.
Mats and blankets will be installed as soon as possible after final grading. Removal is not necessary or required seeing as how the material will decay and or break down on its own.
Prior to installation of blankets or mats the ground should be smooth, with no large rocks, vegetation or rills on the surface. Areas where blankets are to be used shall be properly prepared with topsoil or soil conditioning, and fertilized if required, and seeded before blankets are placed. The blankets shall be placed smoothly but loosely on the soil surface without stretching. Blankets at the top of the slope should be trenched in beyond the crest of the slope so as to avoid undercutting. Blankets and mats should be inspected at the same frequency as all other erosion control items. Malfunctions must be repaired in a timely manner or else slope shaping, grading and reinstallation will be required.
Each of the products that are listed below has its own physical description that can be obtained from the manufacturer. Providing the physical description of all ECBs or TRMs would be unnecessary and redundant for the purposes of this SWPPP.
Prequalified Erosion Control Blanket | |||||
---|---|---|---|---|---|
Type | Product Name | Manufacturer | Netting | Longevity | Slopes |
Type 1 | AEC Premier Straw Single Net - Quickly Degradable | American Excelsior | Single net, quickly degradable | 45-60 days | 1(V):3(H) or flatter |
Curlex 1 (0.73 LB/SqYd) - Quickly Degradable | American Excelsior | ||||
Curlex 1 CL - Quickly Degradable | American Excelsior | ||||
SR-1 Rapid Go Products | Western Excelsior | ||||
R-1 Rapid Go Products | Western Excelsior | ||||
DS-75 | North American Green | ||||
Landlok S1RD | Propex Geosynthetics | ||||
Type 2 | AEC Premier Straw Single Net | American Excelsior | Single photodegradable net | 12 months | 1(V):3(H) or flatter |
Curlex I (0.73 LB/SqYd) | American Excelsior | ||||
Curlex I CL | American Excelsior | ||||
SR-1 Excel Products | Western Excelsior | ||||
R-1 Excel Products | Western Excelsior | ||||
S75 | North American Green | ||||
S1000 | Environscape | ||||
Propex Geosynthetics | |||||
Type 3 | AEC Premier Straw Double Net | American Excelsior | Double photodegradable net | 12-18 months | 1(V):2(H) or flatter |
Curlex II (0.73 lb/sq.yd) | American Excelsior | ||||
SR-2 Excel Products | Western Excelsior | ||||
R-2 Excel Products | Western Excelsior | ||||
EG2s, EG1x, EG2x | Euro-Guard | ||||
S-150 | North American Green | ||||
CFS072B | Greenfix America | ||||
Landlok 300 | Propex Geosynthetics | ||||
Type 4 | AEC Premier Straw/Coconut | American Excelsior | Double photodegradable net | 24 months | 1(V):2(H) or flatter |
Curlex III | American Excelsior | ||||
EG2S/C, EG2C, EG2P___ | Euro-Guard | ||||
Landlok CS2 | Propex Geosynthetics | ||||
CS-3 Products | Western Excelsior | ||||
SC150 | North American Green | ||||
S2000 | Environscape | ||||
Type 5 | AEC Premier Coconut | American Excelsior | Double photodegradable net | 24 months | 1(V):2(H) or flatter |
C125 | North American Green | ||||
EG2S/C, EG2C, EG2P___ | Euro-Guard | ||||
Curlex Enforcer | American Excelsior | ||||
CC-4 Products | Western Excelsior | ||||
Landlok C2 | Propex Geosynthetics |
Guidelines for Turf Reinforcement Mats
General: Use Erosion Control Blanket for Calculated Shear Stresses up to 3.5 lbs/ft2 and use Turf Reinforcement Mat for Calculated Shear Stresses of 3.5 lbs/ft2 or greater.
- Type 1 Turf Reinforcement Mat
- Channels: Calculated Shear Stresses of 4 lbs/ft2 to 6 lbs/ft2
- Type 2 Turf Reinforcement Mat
- Channels: Calculated Shear Stresses of 6 lbs/ft2 to 8 lbs/ft2
- Type 3 Turf Reinforcement Mat
- Channels: Calculated Shear Stresses of 8 lbs/ft2 to 10 lbs/ft2
Prequalified Turf Reinforcement Mat | ||
---|---|---|
Type | Product Name | Manufacturer |
Type 1 | Landlok 435 | Propex Geosynthetics |
Recyclex TRM - V | American Excelsior | |
PP5-8, PP5-10, PP5-12 | WEstern Excelsior | |
Type 2 | Landlok 450 | Propex Geosynthetics |
P300 | North American Green | |
Recyclex TRM | American Excelsior | |
PP5-10 | Western Excelsior | |
Type 3 | P550 | North American Green |
Pyramat Tan/Green | Propex Geosynthetics | |
Landlok 300 | Propex Geosynthetics |
806.8.4.2.8.1 Temporary Seeding and Mulching (MO Specifications Sections 802 and 805)
This work shall consist of preparing and fertilizing a seedbed, furnishing and sowing of seed, and mulching. The purpose of temporary seeding and mulching is to produce a quick ground cover to reduce erosion in disturbed areas that are expected to be redisturbed at a later date.
Seeding and/or mulching will be a continuous operation on all cut and fill slopes, waste sites, and borrow pits during the construction process. Designated, disturbed areas shall be seeded and mulched when and where necessary to eliminate erosion. In designated areas seeding and/or mulching shall be done as soon as possible after completion of the earthwork, not to exceed 14 days, weather permitting.
Temporary mulch placed over temporary seed mixtures shall be applied in accordance with the provisions of Sec 802.2.1 of the Missouri Standard Specifications. Fertilizer shall be applied at the rate specified for permanent seeding. Lime will usually not be required for temporary seeding but will be applied according to governing specifications when a permanent seed mixture is used.
806.8.4.2.8.2 Permanent Seeding and Mulching (MO Specifications Section 805)
Permanent seeding and mulching following the temporary seeding will be performed according to the Missouri Standard Specifications Section 805 and will be permitted during the favorable seeding seasons only.
806.8.4.2.9 Straw Bales (MO Specifications Sec 802)
Bales of straw can be used as a temporary means of controlling pollution and erosion. The straw bales obstruct the flow of water allowing deposition of sediment and/or diversion of water. Other foliage may be substituted for straw in accordance with Sec 802.2.1 of the Missouri Standard Specifications.
This method is typically used at the bottom of embankment slopes to divert runoff from sheet flow and trap sediment, as a ditch check in small ditches and drainage areas, and on the lower side of the cleared areas to catch sediment from sheet flow. When used to trap sediment or divert runoff, the bales must be braced from behind. When used as a ditch check, embedment is required. Straw bales are most effective in areas where there is overland flow (runoff that flows over the surface of the ground as a thin, even layer). It is not effective in areas where there is a large volume of runoff.
The integrity of straw bales must be maintained for as long as they are necessary to contain sediment runoff. All straw bales shall be inspected immediately after each rainfall and at least daily during prolonged rainfall. Any deficiencies shall be immediately corrected. In addition, a daily review of the location of straw bales should be made in areas where construction activities have changed the natural contour and drainage runoff to ensure that the straw bales are properly located for effectiveness. Where deficiencies exist, additional straw bales shall be installed as approved or directed by the engineer.
Sediment deposits shall be removed and disposed of when the deposit approaches one-half the height of the bale or sooner. If required by heavy sediment loading, a second set of straw bales shall be installed as directed by the engineer.
The straw bales shall remain in place until the engineer directs that they be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas.
806.8.4.2.10 Silt Fence (MO Specifications Sec 624 & Sec 1011)
Use of a silt fence consists of furnishing, installing, maintaining, and removing a geotextile barrier fence designed to remove suspended particles from water passing through the fence. . Silt fence is a temporary sediment control measure. Materials used for silt fences must meet certain requirements.
There are several construction requirements for silt fences. Fence construction shall be adequate to handle the stress from hydraulic and sediment loading. Geotextile at the bottom of the fence shall be buried. The trench shall be backfilled and the soil compacted over the geotextile. The geotextile shall be spliced together as indicated on the standard drawings (see MoDOT Standard Plan 806.10).
As a general rule silt fence should not be used around median inlets.
Post spacing shall not exceed 8 ft. for wire support fence installations or 5 ft. for self-supported installations. Posts shall be driven a minimum of 24 in. into the ground. Where rock is encountered, posts shall be installed in a manner approved by the engineer. Closer spacing, greater embedment depth and/or wider posts shall be used as necessary in low areas and soft or swampy ground to ensure adequate resistance to applied loads.
When support fence is used, the mesh shall be fastened securely to the up-slope side of the post. The mesh shall extend into the trench a minimum of 2 in. and extend a maximum of 36 in. above the original ground surface. When self-supported fence is used, the geotextile shall be securely fastened to fence posts.
When silt fence is used as a perimeter sediment control device it must be installed at the time of clearing and grubbing, and must be maintained for as long as necessary to contain sediment runoff. All silt fences shall be inspected as part of MODOT’s routine inspections after each rainfall and at least daily during prolonged rainfall. Any deficiencies shall be corrected within seven days following delivery of inspection report to contractor. In addition, a daily review of the location of silt fences should be made in areas where construction activities have changed the natural contour and drainage runoff to ensure that the silt fences are properly located for effectiveness. Where deficiencies exist, additional silt fences shall be installed as approved or directed by the engineer.
Sediment deposits shall be removed and disposed of when the deposit approaches one-half the height of the fence or sooner. If required by heavy sediment loading, a second silt fence shall be installed as directed by the engineer.
The silt fence shall remain in place until the engineer directs that it be removed. Upon removal, the contractor shall remove and dispose of any excess silt accumulations, grade and dress the area to the satisfaction of the engineer, and establish vegetation on all bare areas. Biodegradable silt fence (such as some of the products shown below) need not be removed.
The engineer may substitute perimeter silt fence by any of the following commercial products:
- Sediment STOP (North American Green)
- Terra-Tubes (Profile Products)
- Straw Wattles (Earth-Savers)
- Compost Filter Socks
- Triangular Silt Dike
806.8.4.2.11 Compost Filter Berms
A compost filter berm is a dike of compost or a compost product that is placed perpendicular to sheet flow runoff to control erosion in disturbed areas and retain sediment. It can be used in place of a traditional sediment and erosion control tool such as silt fence. As such these berms are installed at the time of clearing and grubbing and will remain in place throughout construction. Composts used in filter berms are made from a variety of feedstocks, including municipal yard trimmings, food residuals, separated municipal solid waste, biosolids, wood chips, and manure.
Compost filter berms are generally placed along the perimeter of a site, or at intervals along a slope, to capture sediment from sheet flow. A filter berm also can be used as a check dam in small drainage ditches.
Post-construction removal is not required because, by definition, they are biodegradable and temporary. However, unvegetated berms are often broken down once construction is complete and the compost is spread around the site as a soil amendment or mulch.
806.8.4.2.12 Temporary Pipe
A temporary pipe is a conduit used temporarily to carry water under a haul road, silt fence, etc. It is used to convey normal and expected high flows at temporary stream crossings, preventing the contractor's equipment from coming in direct contact with the water when crossing active streams or intermittent streams created during heavy rainfalls. All temporary pipe shall be installed in the same manner as permanent pipe is installed on the project to assure that the water does not cause erosion around the pipe. Material to backfill the pipe should be placed in 6 in. lifts and mechanically compacted, although a compaction test is not required.
806.8.4.3 Additional Temporary Erosion and Sediment Control
806.8.4.3.1 Surface Roughening
Surface roughening is a temporary erosion control best management practice that is intended to aid in the establishment of vegetative cover with seed, to reduce runoff velocity and increase infiltration, and to reduce erosion and provide for sediment trapping. This practice is intended for areas which have been cleared and grubbed and are awaiting application of temporary or permanent seed, or installation of other structural controls such as ditch checks, rock dams or sediment basins. The practice is not intended to serve as a stand-alone best management practice and is only to be used as a short-term (2-3 weeks), sequential practice as the grading and seeding proceeds.
806.8.4.3.2 Mulching and Crimping
Application of mulch without seed may be used as a temporary best management practice if approved by the engineer. This practice is most applicable in late fall or early winter when grass seed would have little or no opportunity to germinate. Straw mulch should be applied with a mulch blower or by hand and must be anchored (crimped) immediately after spreading to prevent windblow. Application rates will vary based on the percent slope.
806.8.4.3.3 Brush Piles
Brush piles are considered to be a temporary BMP that is effective during clearing and grubbing operations. It is also an ancillary, supportive measure used in combination with rock dams and sediment traps.
Tree tops, limbs, stumps and other vegetation, when placed in a drainage swale, can effectively impound gravel, soil and other eroded materials that otherwise may be carried off of MoDOT right of way during runoff periods. To be effective, brush piles should be compressed by clearing equipment at the time of installation. Initial inspections following rainfall will determine their ability to impound water and sediment. Like other BMPs, brush piles should be inspected every seven days as well as following heavy rains to insure that they are functioning as intended. Enhanced sediment capture may be achieved by additional compaction, application of filter fabric or vegetative material.
If the brush pile is intended to serve as a semi-permanent structure for an extended period of time beyond the clearing and grubbing stage, clean out and maintenance equivalent to that required for Type 1 and Type 2 ditch checks is required.
806.8.5 Disturbed Areas
Project plans that are discussed in Site Description, will identify those areas that will be cleared and graded as part of the highway development project. Areas that are not to be disturbed are also shown on project plans. Such areas are also staked in the field.
Seeding and/or mulching will be a continuous operation on all cut and fill slopes, excess material sites, and borrow pits during the construction process. All disturbed areas shall be seeded and mulched when and where necessary to eliminate erosion. Seeding and/or mulching shall be done as soon as possible after completion of the earthwork and preparation of the seedbed, not to exceed 14 days, weather permitting.
806.8.6 Installation
The contractor shall be required to incorporate all permanent erosion control measures into the project at the earliest practicable time. Temporary erosion control measures shall be used to correct conditions that develop during construction which were not foreseen during the design stage. Temporary erosion control shall also be used when needed prior to installation of permanent erosion control measures or when needed temporarily to control erosion that develops during normal construction practices, but are not associated with permanent control measures on the project.
Clearing and grubbing operations shall be scheduled and performed so that grading operations and temporary and permanent erosion control measures will follow immediately thereafter. The surface area of erodible earth material exposed at one time by clearing and grubbing, by excavating, by fill, or by borrow, shall be minimized to prevent runoff. The engineer may limit the total acreage of erodible earth material to be exposed at one time as determined by an analysis of project conditions. In such cases the engineer will identify specific BMPs and controls that have been, or will be installed in order to exceed the specified maximum disturbed acreage threshold.
The engineer will limit the area of clearing and grubbing, excavation, borrow, and embankment operations in progress commensurate with the contractor's ability to keep the finish grading, mulching, seeding, and other erosion control measures current. Should seasonal limitations make such coordination unrealistic, temporary erosion control measures shall be implemented so as to protect the exposed soil from leaving the job site.
806.8.7 Dewatering
Dewatering of pits or excavations associated with pier construction shall be discussed at the preconstruction conference.
Standard Specification 107.10.2 requires a dike or barrier to be placed between the excavation and the stream to prevent sediment from reaching the watercourse. The structural BMPs that are identified in Erosion Control Measures are usually sufficient to remove sediment and drill cuttings prior to discharge of return water. Land application of the pumped water is a viable option when percolation into the subsurface results; however, caution shall be used to ensure that the pit water discharge does not cause the formation of gullies in cases where pumping exceeds percolation.
With the possible exception of drilled shafts in large rivers such as the Missouri or Mississippi, return water shall not be discharged without treatment by BMPs approved by the engineer. The amount of return water that is pumped and subsequently discharged shall be recorded in the inspector’s diary and expressed as gallons per minute for the duration of the pumping activity.
806.8.8 Roadways
In order to ensure that sediment is not transported into a situation where it can be delivered off-site, stabilized construction entrances should be used when construction equipment is frequently crossing or entering paved roadways. Stabilized construction entrances should be built with rock of sufficient size to cause mud and dirt to fall off of the tires of the construction equipment. Geotextile fabric may be necessary for placement below the stabilized entrance in some soil conditions. In muddy situations, the voids between the rocks will always fill up with soil particles and as such, additional stone will need to be applied periodically and when repair is required.
The purpose of the stabilized entrance is to reduce the amount of sediment that will be transported onto the driving surface. However, the driving surface at the point of the active crossing cannot remain clean without additional measures such as sweeping or grading.
Because it is impossible to eliminate all trackout of soil particles, inspections should ensure that sediment control measures downgrade from the area of trackout are in good operating condition.
806.8.9 Amending/Updating the Project Plans
Erosion control plans are prepared by MoDOT designers and/or consultants and will show the final structural erosion controls that are envisioned upon completion of final grading. These plans usually will not be changed unless directed by the engineer. Interim erosion control measures at the start of the project shall be amended and updated as appropriate during the term of the land disturbance activity. The engineer shall require modifications to the erosion controls whenever the:
- Design of the construction project has changed in a fashion that could impact the quality of storm water discharges;
- MoDOT inspections indicate deficiencies in individual BMPs;
- MDNR notifies MoDOT of erosion control deficiencies on site;
- Erosion controls are determined to be ineffective in significantly minimizing or controlling erosion and sedimentation;
- MDNR determines violations of Water Quality Standards have occurred.
806.8.10 Site Inspection Reports
The resident engineer is responsible for evaluating the contractor’s erosion control devices and must ensure that weekly inspections are performed, as well as inspections following any rainfall event that could cause migration of eroded soil off of the site. Copies of the inspection reports are provided to the contractor, and deficiencies are to be corrected within seven calendar days.
MoDOT performs environmental compliance training to resident engineers, construction inspectors and other field staff to ensure that erosion control inspections are being conducted in a consistent fashion statewide. The individual who performs the training is organizationally located in MoDOT’s Environmental Section and does not have supervisory authority over the construction personnel who perform inspections. However, the same individual who performs training has the responsibility of performing statewide audits of construction sites to ensure that SWPPPs are being followed to the extent that off-site contamination does not occur. The individual usually will visit every construction site at least twice per year and meet with MoDOT resident engineers, inspectors or contractors to evaluate the land disturbance elements of the project and to ensure consistency of inspections. In cases where deficiencies are identified, the resident engineer has the responsibility to see that the deficiencies are corrected.
806.8.11 Diamond Grinding
Although diamond grinding is not a land disturbance activity, the fine material that is removed from the driving surface will become suspended in discharge water and has the potential to contaminate nearby streams if not sufficiently managed. The following shall be considered the minimum requirements for performing this work within the project limits in addition to Sec 622 and EPG 622.2.1 Construction Inspection for Diamond Grinding of Existing Portland Cement Concrete Pavement .
The contractor shall submit to the engineer for approval in writing prior to the pre-construction meeting, the best management practices (BMP’s) to be used to protect the environment, including the method of disposal whether on right of way or off-site.
The preferred BMP for slurry management is land application on MoDOT right of way. When slurry is dispersed on the right of way, BMPs shall be installed to keep slurry residue from entering drainage structures, from entering any waterways and from leaving the right of way.
Prior to starting work, slurry or residue “no discharge zones” will be identified by the engineer with respect to the contractor’s approved BMP and residue disposal plan.
The engineer may suspend operations during periods of rainfall or during freezing temperatures.
806.8.12 Turbidity Removal and Advanced Treatment Systems
Water clarification and the removal of turbidity will usually require the addition of flocculents, polymers, polyacrylamides (PAM), chitosan and other chemicals that cause soil particles to bind together, become heavy and settle to the bottom of a sediment trap or sediment basin.
Since settling of flocculated soil particles requires very slow moving (still) water, chemical additives should never be introduced into an outfall BMP where water leaves MODOT right of way. In all cases where chemical additives are used to reduce turbidity it is essential to include a sediment basin or sediment trap and a ditch liner or ditch check apron that prohibits additional erosion on the downgrade side of the ditch check.
The following Advanced Treatment Systems are pre-approved for use in MODOT projects where turbidity removal is required:
- Gel logs and Gel flats that are installed directly in a ditch, pipe or culvert upgrade from a sediment basin or sediment trap.
- Chitosan or PAM treated ditch checks (ie fiber rolls, wattles, or compost logs) that have been installed upgrade from a sediment basin or sediment trap.
- Chitosan or PAM treated rock ditch checks that have been installed upgrade from a sediment basin or sediment trap.
- Geo ridge ditch checks with attached chitosan or PAM bags, installed upgrade from a sediment basin or sediment trap.
- Addition of granular PAM or chitosan directly into a ditch, upgrade from a sediment basin or sediment trap.
- Terratubes
- Erosion control blankets and turf reinforcement mats that have been inoculated with PAM or chitosan, and installed upgrade from a sediment basin or sediment trap.
806.8.13 Chemical Stabilizers
Chemical stabilizers, also known as soil binders or soil palliatives, provide temporary soil stabilization. Various products are sprayed onto the surface of exposed soils to hold the soil in place and minimize erosion from runoff and wind. These materials are easily applied to the surface of the soil, can stabilize areas where vegetation cannot be established, and provide immediate protection.
Use chemical stabilizers alone in areas where other methods of stabilization are not effective because of environmental constraints, or use them in combination with vegetative or perimeter practices to enhance erosion and sediment control.
Closely follow the manufacturer's recommended application procedures to prevent the products from pooling and creating impervious areas where stormwater cannot infiltrate.
Inspect chemically stabilized areas regularly for signs of erosion, and if necessary, reapply the stabilizer.