E&S BMP DESIGN

Working Toward a Better Conclusion

Are Compost Socks Enough?

• Compost socks are excellent BMPs when properly used and maintained

• However, they do have limitations

Compost Socks

• The right sized mesh must be used

• The flat dimension must be at least 1.5 times the specified diameter of the sock

Compost Socks

• Care should be taken to avoid twisting

Compost Socks

• Must be installed on existing level grade

Compost Socks

• Have definite slope length limitations

Compost Socks

• Cannot be used in areas of concentrated flow

• Best case: Undercut or overtopped

• Worst case: Failure

Compost Socks

• Must have good contact with underlying soil

Compost Socks

• Must be properly staked

Compost Socks

• Joints must be properly staked

Compost Socks

• Have a definite shelf life

Compost Socks

• Are easily damage by equipment

Compost Socks

• Damaged socks must be properly repaired or replaced

This is not how to do it!

Haul Roads• Haul roads can become major sources of

sediment pollution if not properly designed, constructed, and maintained

Haul Roads• Runoff should be directed off the roadway as

efficiently as possible• One method: crowning

Haul Roads• In steep terrain, insloping works best

Haul Roads• A suitable top dressing not only reduces

sediment discharge but reduced wear & tear on equipment

Haul Roads• Where insloping is used, a roadside ditch is

needed

• Protective liners are required for roadside ditches discharging to special protection waters (HQ or EV), where discharging directly to surface waters, or where necessary to prevent the erosion of ditch itself

Haul Roads• Typical liners used in roadside ditches include:

Curled Wood

Riprap

TRM

Haul Roads• Straw Bales in the ditch are not the answer

• Neither are rock checks

Haul Roads• Properly spaced cross drains can help by

keeping flow in the ditch to a minimum

• Make use of existing flow paths• Provide suitable outlet protection

Haul Roads• Outlet protection typically takes the form of

riprap aprons

• Can also include transition mats, stilling basins, and drop structures

Haul Roads• Waterbars are not recommended for active

haul roads

Haul Roads• Broad-based dips are recommended for active

haul roads

Broad-based Dip

Low Gradient (<5%) Roadways

Haul Roads• Broad-based dips for steeper gradients

Broad-based Dip

High Gradient (5% - 10%) Roadways

Haul Roads• Stream Crossings - 105 Permits!!!

• It is not true that one crossing is allowed without a stabilized crossing!

Haul Roads• Ford crossings are not appropriate during active

construction

Haul Roads• Temporary bridge is the preferred method of

stream crossing

Haul Roads• Culverted Crossing should have clean rock fill

Haul Roads• Wetland Crossings - 105 Permits!!!

• Stable crossing must be provided

. Calibri• Stabilized wetland Crossings

Wood Mat

Terramat Expanded Metal Grating

HDPE Composite Mat

Haul Roads• Runoff should be directed into a compost trap

at stream and wetland crossings

Residential Lot BMPs• Residential lot construction is often a major

source of sediment pollution

Residential Lot BMPs• Chapter 10 in the E & S Manual addresses

typical BMPs used during construction on residential lots

• Three basic scenarios shown in the standard details:

Lot Above Roadway Lot Below Roadway Lot Along Ascending or

Descending Roadway

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion

• Channel• Compost sock with

modified filler

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion– Downslope sediment barrier

• Silt fence

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion– Downslope sediment barrier

• Silt fence• Fiber log

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion– Downslope sediment barrier

• Silt fence• Fiber log• Compost Sock

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion– Downslope sediment barrier– Stabilized Entrance

Residential Lot BMPs• BMPs for residential lots are very simple:– Upslope diversion– Downslope sediment barrier– Stabilized Entrance– Downspouts attached to roof leaders extended to

curb

Residential Lot BMPs• Maintenance of On-lot BMPs not provided

Commercial Lot BMPs• Commercial lots often need more than

sediment barriers

Commercial Lot BMPs• Stormwater facilities can often be used as

temporary E&S BMPs

Perforated Metal box attached toconcrete riser

Commercial Lot BMPs• Stormwater facilities can often be used as

temporary E&S BMPs

• Embankment sediment trap with slope pipes & plywood baffles

Commercial Lot BMPs• Embankment sediment trap with compost

socks & super silt fence baffles (ABACT)

Design of Compost Sock Traps• Same maximum drainage area, required

storage capacity, and freeboard as for other traps

• Sump area above socks often helpful

• No spillway required

• Minimum trap height = one 12” dia. Sock

• Socks may be stacked

Construction Sequencing

• Keep it simple!

• Must be site specific

• Must be complete – from initial disturbance to final stabilization

• Address all proposed E&S BMPs

• Do not include maintenance

• Stabilize as you go

• Remove temporary BMPs when no longer needed

• Conditions of stabilization

Utilities• Avoid conflicts with E&S BMPs – show them

on the E&S plan maps

• Installing a stormwater manhole in a sediment trap

Utilities• Avoid conflicts with E&S BMPs – show them

on the E&S plan maps

• Avoid crossing surface waters wherever possible – otherwise bypass normal flows

Flumed Stream Crossing Pump Bypass Cofferdam

Utilities• Avoid conflicts with E&S BMPs – show them

on the E&S plan maps

• Avoid crossing surface waters wherever possible – bypass normal flows

• Use stabilized crossings

Culverted Crossing

Temporary Bridge

Utilities• Avoid conflicts with E&S BMPs – show them

on the E&S plan maps

• Avoid crossing surface waters wherever possible – bypass normal flows

• Use stabilized crossings

• Get 105 permits where needed

• Minimize open trenches (50’ max at end of day)

• Follow OSHA requirements

• Keep current with backfilling & stabilization

• Blanket within 50’ of surface water (100’ of HQ or EV water)

Transmission Lines

• Time period for open trench operations at any station should be minimized– 30 days for most locations

– Longer periods can be approved on case-by-case basis if sufficient justification provided

Transmission Lines

• Time period for open trench operations at any station should be minimized– 30 days for most locations

– Longer periods can be approved on case-by-case basis if sufficient justification provided

• Trench plugs used at all stream & wetland crossings as well as on steep slopes

Transmission Lines

• Time period for open trench operations at any station should be minimized– 30 days for most locations

– Longer periods can be approved on case-by-case basis if sufficient justification provided

• Trench plugs used at all stream & wetland crossings as well as on steep slopes

• Open cut stream crossings– Bypass flows for minor streams (10’ wide or less

at normal flow depth)

– Completed within 24 (minor stream) to 48 hours (major stream up to 100’ wide)

Transmission Lines– Facilities for removing sediment from pumped

water should be provided at all crossings

Pumped water filter bag

Portable Sediment Tank

w/Inclined Planes

Transmission Lines– Facilities for removing sediment from pumped

water provided at all crossings

– Pipe should be ready for placement before trenching begins

Transmission Lines

• Horizontal Directional Drilling (HDD) installation– Suitable BMPs in place (sediment barriers) &

operating properly

– Readiness for any inadvertent return

– Suitable method for collecting & treating drilling fluid

Conclusion

• It is always cheaper, and much more satisfying, to do things right the first time.

Darl Rosenquest|P.E., P.G.

Senior Civil Engineer

DEP California Mining Office

25 Technology Drive

Coal Center, PA 15423

drosenques@pa.gov