Prior to the final approval of any subdivision or land development plan within the jurisdiction of this chapter, or the commencement of any regulated activity within the jurisdiction of this chapter, the applicant shall submit a stormwater management site plan to the Township for approval.

Stormwater drainage systems shall be provided in order to permit unimpeded flow along natural watercourses, except as modified by stormwater management facilities or open channels consistent with this chapter.

Where a development site is traversed by watercourses other than permanent streams, a drainage easement shall be provided conforming substantially to the line of such watercourses. The terms of the easement shall prohibit excavation, the placing of fill or structures, and any alterations that may affect adversely the flow of stormwater within any portion of the easement. Also, maintenance of vegetation within the easement shall be required.

The PADEP Chapter 105 rules and regulations apply to the construction, modification, operation or maintenance of both existing and proposed water obstructions and encroachments throughout the watershed, including work in wetlands. Inquiries on permit requirements or other concerns shall be addressed to PADEP's regional office.

When it can be shown that, due to topographic conditions, natural drainageways on the development site cannot adequately provide for drainage, open channels may be constructed conforming substantially to the line and grade of such natural drainageways. Work within natural drainageways shall be subject to approval by PADEP.

Any stormwater management facilities or any facilities that constitute water obstructions (e.g., culverts, bridges, outfalls, or stream enclosures, etc.) that are regulated by this chapter, that will be located in or adjacent to waters of the commonwealth (including wetlands), shall be subject to approval by PADEP. When there is a question whether wetlands may be involved, it is the responsibility of the applicant or his agent to show that the land in question cannot be classified as wetlands; otherwise, approval to work in the area must be obtained from PADEP.

Should any stormwater management facility require a dam safety permit under PADEP Chapter 105, the facility shall be designed in accordance with PADEP Chapter 105 and meet the regulations of PADEP Chapter 105 concerning dam safety which may be required to pass storms larger than the one-hundred-year event.

Roof drains shall not be connected to sanitary sewers or public storm sewers.

No outlet structure from a detention basin, storm pipe, or swale shall discharge directly onto any publicly used Township, state or private road but shall discharge into a culvert under or along the road.

Any stormwater management facilities regulated by this chapter which will be located on or which will discharge onto state highway rights-of-way shall be subject to approval by PennDOT. If PennDOT requires that the Township be the permittee for such drainage facilities, the applicant shall enter into an agreement, in recordable form, assuming all of the obligations which PennDOT may place upon the Township as permittee, including, but not limited to, long-term maintenance of any such facilities, compliance with all conditions contained in the permit, and indemnification of the Township for any costs or penalties which PennDOT may seek to impose on the Township. The Township shall have no obligation to make any applications to PennDOT.

Stormwater management facilities located within or affecting the floodplain of any watercourse shall comply with the requirements of the floodplain regulations provided in the Floodplain Management Ordinance or any future ordinances regulating construction or development within areas of the Township subject to flooding.[1]

The minimum floor elevations for all structures that would be affected by a basin, other temporary impoundments, or open conveyance systems where ponding may occur shall be two feet above the one-hundred-year water surface. If basement or underground facilities are proposed, detailed calculations addressing the effects of the stormwater ponding on the structure and waterproofing and/or floodproofing design information shall be provided for review and approval.

All existing and natural watercourses, channels, drainage systems and areas of surface water concentration shall be maintained in their existing condition unless an alteration is approved by the appropriate regulatory agency.

No outlet structure from a stormwater management facility, or swale, shall discharge directly onto a Township or state roadway.

Stormwater management facilities intended to receive and infiltrate runoff from regulated activities shall be selected based on suitability of soils and site conditions and shall be constructed on soils that have the following characteristics:

Stormwater discharge points onto an adjacent property shall comply with the following:

Unless an alternate design is submitted to the Township for review, and said design is prepared by a licensed (in the Commonwealth of Pennsylvania) geologist or geotechnical engineer:

All stormwater runoff flowing over the project site shall be considered in the design of the stormwater management facilities.

The calculated peak rates of runoff for stormwater originating on the project site must meet one of the following conditions, for all watersheds flowing from the project site:

Areas proposed for infiltration BMPs shall be protected from sedimentation and compaction during the construction phase to maintain maximum infiltration capacity. Staging of earthmoving activities and selection of construction equipment should consider this protection.

Infiltration BMPs shall not be constructed nor receive runoff from disturbed areas until the entire contributory drainage area to the infiltration BMP has achieved final stabilization.

If structure foundations, basements, or other underground facilities (whether on-site or off-site) would be affected by saturated soil due to a nearby stormwater management facility, detailed calculations addressing the impact of the saturated soil, and waterproofing design information, where applicable, shall be submitted for approval.

The applicant shall meet requirements as contained in 25 Pa. Code, Chapters 92 and 102, as required and applicable, as follows:

Evidence of any necessary plan or permit approval for earth disturbance activities from PADEP or the Lancaster County Conservation District must be provided to the Township.

The Township shall receive simultaneous copies of plans, reports, applications, and other documents submitted for review by the Lancaster County Conservation District.

A copy of the notice of termination for NPDES permits shall be provided to the Township once accepted by the Lancaster County Conservation District.

Construction of temporary roadways (e.g., for utility construction, timber harvesting, etc.) shall comply with all applicable standards for erosion and sedimentation control and stream crossing regulations under 25 Pa. Code, Chapters 102 and 105.

The erosion and sedimentation control plan shall be submitted to the Lancaster County Conservation District for approval and shall address the following, as applicable:

The following principles shall be applied to the design plan and construction schedule to minimize soil erosion and sedimentation:

In accordance with PADEP Chapter 102, temporary facilities shall be included in the submitted plans for a phased section where the following conditions are met:

The Soil-Cover-Complex Method (as set forth in the latest edition of Urban Hydrology for Small Watersheds, Technical Release No. 55, as published by NRCS, formerly SCS) may be used for all detention facilities with a drainage area greater than or equal to 60 acres. This method is recommended for design of stormwater management facilities and where stormwater runoff volume must be taken into consideration.

The Rational Method may be used for drainage areas up to 60 acres. Extreme caution should be used by the qualified person if the watershed has more than one main drainage channel, if the watershed is divided so that hydrologic properties are significantly different in one watershed versus the other, if the time of concentration exceeds 60 minutes, or if stormwater runoff volume is an important factor. The combination of Rational Method hydrographs based on timing shall be prohibited.

The Rational Method shall be used for all:

Any other method approved by the Township Engineer.

If the NRCS/SCS Method (also known as the "Soil-Cover-Complex Method") is used, the design storm volumes to be used in the analysis of peak rates of discharge shall be obtained from the Precipitation-Frequency Atlas of the United States, Atlas 14, Volume 2, Version 3.0, United States Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), National Weather Service, Hydrometeorological Design Studies Center, Silver Spring, Maryland. NOAA's Atlas 14 can be accessed at: http://hdsc.nws.noaa.gov/hdsc/pfds/orb/pa pfds.html.

If the SCS Method is used, Antecedent Moisture Condition 1 is to be used in areas of carbonate geology, and Antecedent Moisture Condition 2 is to be used in all other areas. A Type II distribution shall be used in all areas.

If the Rational Method is used, the NOAA Atlas 14 data (see § 229-45E) shall be used to determine the rainfall intensity in inches per hour based on the information for the five- through sixty-minute duration storm events.

Hydrographs may be obtained from NRCS methods such as TR-55, TR20, or from use of the "modified" or "unit hydrograph" rational methods. If "modified" or "unit hydrograph" rational methods are used, the ascending leg of the hydrograph shall have a time of three times the time of concentration (3xTc), and the descending leg shall have a time of seven times the time of concentration (7xTc) to approximate an NRCS/SCS Type 2 hydrograph.

Runoff coefficients "C" and curve numbers "CN" shall be based on the charts contained in Appendix B.[1]

Times of concentration shall be based on the following design parameters:

For the purpose of calculating predevelopment peak discharges, all runoff coefficients, both on-site and off-site, shall be based on actual land use assuming summer or good land conditions. Post-development runoff coefficients for off-site discharges used to design conveyance facilities shall be based on actual land use assuming winter or poor land conditions.

Design of on-site conveyance system calculations may use the Rational Method of Q=CIA, where Q is the peak discharge of the watershed in cubic feet per second, C is the coefficient of runoff, I is the intensity of rainfall in inches per hour, and A is the area of the watershed in acres; or any other method approved by the Township.

Runoff calculations shall include a hydrologic and hydraulic analysis indicating volume and velocities of flow and the grades, sizes, and capacities of water-carrying structures, sediment basins, and retention and detention structures and sufficient design information to construct such facilities. Runoff calculations shall also indicate both predevelopment and post-development rates for peak discharge of stormwater runoff from the project site.

Runoff calculations will also be made to ensure that the runoff from the upstream watershed area can be accommodated by the pipes, drainage easements, watercourses, etc., on the site.

Peak rate control is not required for off-site runoff. Off-site runoff may be bypassed around the site, provided all other discharge requirements are met. If off-site runoff is routed through rate control facilities, runoff coefficients for off-site discharges used to design those rate control facilities shall be based on actual land use assuming winter or poor land conditions.

All storm sewer pipes, grass waterways, open channels, swales and other water-carrying facilities that service drainage areas within the site shall be designed to convey the twenty-five-year storm event unless, in the opinion of the Township or Township Engineer, the character of development and potential for damage warrant design for the fifty- or one-hundred-year storm.

Stormwater management facilities that convey off-site water through the site shall be designed to convey the fifty-year storm event.

All developments shall include provisions that allow for the overland conveyance and flow of the post-developed one-hundred-year storm event without damage to public or private property.

Conveyance facilities shall comply with the design criteria in the following table:

All storm sewer pipes, culverts, manholes, inlets, endwalls and end sections shall be constructed in accordance with Pennsylvania Department of Transportation Form 408, as amended.

Storm sewer pipes, culverts, manholes, inlets, endwalls, and end sections proposed for dedication or located along streets shall conform to the requirements of the Pennsylvania Department of Transportation, Bureau of Design, Standards for Roadway Construction, Publication No. 72, in effect at the time the design is submitted.

The roughness coefficient (Manning "n" values) used for conveyance capacity calculations shall be determined in accordance with Appendix B-3, or per the manufacturer's specifications.

Inlets shall be placed on both sides of the street at low spots, at changes in the horizontal or vertical directions of storm sewers, and at points where the flow in gutters exceeds three inches. Inlets shall normally be along the curbline at or beyond the curb radius points. For the purpose of inlet location at corners, the depth of flow shall be considered for each gutter. At intersections, the depth of flow for the twenty-five-year storm across the through streets shall not exceed one inch. An access/maintenance port may either be an inlet or manhole. Manholes may be substituted for inlets at locations where inlets are not required to collect surface runoff.

Material consistency and placement depths for storm sewer pipe backfill shall be (at a minimum) per all applicable pipe manufacturer's recommendations, further providing it should be free of large (not exceeding six inches in any dimension) stone, rock, or other objectionable or detritus material.

Within the public street right-of-way, the gutter spread based on the twenty-five-year storm shall be no greater than 1/2 of the travel lane and have a maximum depth of three inches at the curbline. A parking lane shall not be considered as part of the travel lane.

Inlets or manholes shall be placed at all points of change in the horizontal or vertical directions of conveyance pipes. Curved pipe sections are prohibited.

All inlets placed in paved areas shall have heavy-duty bicycle-safe grating consistent with PennDOT Publication 72M, latest edition. A note to this effect shall be added to the stormwater management site plan or inlet details therein.

Inlets, junction boxes, or manholes greater than five feet in depth shall be equipped with nonaluminum ladder rungs and shall be detailed on the stormwater management site plan.

Where the connecting pipe has a diameter 18 inches or greater, headwalls and endwalls shall be provided with a protective barrier device to prevent entry of the storm sewer pipe by unauthorized persons. Such protection devices shall be designed to be removable for cleaning.

In addition to the material requirements in this section, culverts designed to convey waters of the commonwealth may be constructed with either a corrugated metal arch or a precast concrete culvert.

Flow velocities from any storm sewer shall not result in a degradation of the receiving channel.

Energy dissipaters shall be placed at the outlets of all storm sewer pipes where flow velocities exceed maximum permitted channel velocities.

The capacities of swales shall be computed from the Manning Equation using the following design parameters: Permissible open channel velocities and design standards shall be in accordance with good engineering practice as documented in the Engineering Field Manual for Conservation Practices, USDA, SCS, or in Design Charts for Open-Channel Flow, Hydraulic Design Series No. 3, United States Department of Transportation.

Aboveground storage facilities shall consist of all stormwater facilities which store, infiltrate/evaporate/transpire, clean, release, or otherwise affect stormwater runoff and the top of which is exposed to the natural environment. Aboveground storage facilities shall be located above the finished ground elevation. Aboveground storage facilities do not include stormwater management facilities designed for conveyance, or cisterns.

Facilities with a facility depth greater than eight feet shall not be permitted in residential areas.

Aboveground storage facilities shall comply with the design criteria in the following table:

If required, pretreatment elements shall be designed according to the BMP Manual.

All aboveground storage facilities shall be structurally sound and shall be constructed of sound and durable materials. All discharge control devices and anticlogging devices with appurtenances shall be made of reinforced concrete and stainless steel. Bolts/fasteners shall be stainless steel. The maximum opening dimensions of all anticlogging devices shall be no greater than 1/2 of the smallest orifice opening size on which it is protecting. A separation distance of at least 1/2 of the opening size shall be maintained between the anticlogging device and the orifice being protected. The completed structure and the foundation of all basins shall be stable under all probable conditions of operation. Spillways shall be capable of discharging the peak discharge of a post-development one-hundred-year storm event through the emergency spillway facilities, in a condition that assumes the primary outlet(s) are blocked, which will not damage the integrity of the facility or the downstream drainage areas. Use of the spillway to convey flows greater than the fifty-year design storm shall be permitted.

The effect on downstream areas if the aboveground storage facility embankment fails shall be considered in the design of all basins. The basin shall be designed to minimize the potential damage caused by such failure of the embankment.

An easement shall be provided from the spillway outfall to a natural or artificial watercourse.

The maximum depth of water for aboveground storage facilities without restricted access shall not exceed six feet unless approved by modification by the Supervisors. Access to basins with a maximum depth of water greater than six feet shall be restricted by fencing that will discourage access.

Aboveground storage facilities without restricted access shall have impoundment areas with side slopes no greater than the horizontal to vertical ratios in the design chart. Access to basins with steeper side slopes than those shown in the chart shall be restricted by fencing that will discourage access.

All detention basins shall include an outlet structure to permit draining the rate control volume within 24 hours, exclusive of BMP storage.

All outlet structures and emergency spillways shall include a satisfactory means of dissipating the energy of flow at its outlet to assure conveyance of flow without endangering the safety and integrity of the basin and the downstream drainage area.

An impervious core/key trench, if required, shall consist of a cutoff trench (below existing grade) and a core trench (above existing grade). A key trench may not be required wherever the facility depth is less than two feet or where it can be shown that another design feature, such as the use of an impermeable liner, accomplishes the same purpose. Materials used for the core shall conform to the Unified Soil Classification GC, SC, CH, or CL and must have at least 30% passing the No. 200 sieve.

All pipe collars, if required, shall be designed in accordance with Chapter 7 of the PADEP Erosion and Sediment Control Manual. The material shall consist of concrete or otherwise nondegradable material around the outfall barrel and shall be watertight.

The embankment fill material shall be free of roots, stumps, wood, rubbish, stones greater than six inches, and frozen or other objectionable materials.

The minimum freeboard for spillways shall be provided above the one-hundred-year design elevation of the water surface at the emergency spillway in a condition that assumes the primary outlet(s) are blocked.

Wherever possible, basins shall have a nonuniform (naturalistic) shape, rather than a geometric design in the form of a square or rectangle.

The minimum bottom slope of facilities not designed for infiltration shall be 1%. A flatter slope may be used if an equivalent dewatering mechanism is provided.

If required, dewatering shall be provided through the use of underdrain, surface device, or an alternate approved by the Township Engineer. If the facility is to be used for infiltration, the dewatering device should be capable of being disconnected and only being made operational if the basin is not dewatering within the required time frame.

Within basins designed for infiltration, existing native vegetation shall be preserved, if possible. For existing unvegetated areas or for infiltration basins that require excavation, a planting plan shall be prepared in accordance with this chapter and the BMP Manual.

The Design Storm Method (CG-1 in the BMP Manual) is applicable to any size of regulated activity. This method requires detailed modeling based on site conditions.

Any portion of the volume control storage that meets the following conditions may also be used as rate control storage:

Volume control BMPs and pretreatment elements shall be designed in accordance with the BMP Manual and the soil and infiltration testing requirements of § 229-43.

All applicable worksheets from Chapter 8 of the BMP Manual must be used when establishing volume controls.

Subsurface storage facilities shall consist of all stormwater facilities which store, infiltrate/evaporate/transpire, clean, release, or otherwise affect stormwater runoff and the top of which is not exposed to the natural environment. Subsurface facilities shall be located below the finished ground elevation. Subsurface facilities shall not include stormwater management facilities designed for conveyance.

Subsurface storage facilities shall comply with the design criteria in the following table:

The facility shall be designed according to the BMP Manual to provide pretreatment to eliminate solids, sediment, and other debris from entering the subsurface facility.

The facility shall be designed to provide a means of evenly balancing the flow across the surface of the facility to be used for infiltration.

For facilities with the bottom less than five feet below the average grade of the ground surface, a cleanout shall be an acceptable observation port. For facilities with the bottom five feet or more below the average grade of the ground surface, a manhole or other means acceptable to the Township shall be provided for access to and monitoring of the facility. The number of access points shall be sufficient to flush or otherwise clean out the system.

Storage and distribution system piping shall be PVC, SLHDPE, or RCP.

The stone used for infiltration beds shall be clean washed, uniformly graded coarse aggregate. The void ratio for design shall be assumed to be 40%.

Material consistency and placement depths for backfill shall be (at a minimum) per all applicable pipe manufacturer's recommendations, further providing it should be free of large (not exceeding six inches in any dimension) stone, rock, or other objectionable or detritus material. Select nonaggregate material should be indigenous to the surrounding soil material for nonvehicular areas. Backfill within vehicular areas shall comply with this section unless otherwise specified in governing municipal road/street or subdivision and land development ordinances. Furthermore, if the design concept includes the migration of runoff through the backfill to reach the infiltration facility, the material shall be well-drained, free of excess clay or clay-like materials and generally uniform in gradation.

Nonwoven geotextiles shall be placed on all sides of subsurface infiltration facilities.

When located under pavement, the top of the subsurface facility shall be a minimum of three inches below the bottom of the pavement subbase. Where located under vegetative cover, the top of the subsurface facility shall be a minimum of 12 inches below the surface elevation or as required to establish vegetation.

Subsurface facilities shall be designed to safely convey and/or bypass flows from storms exceeding the design storm.