Erosion and sediment control during the earth disturbance activities (e.g., during construction).

Water quality protection measures after completion of earth disturbance activities (e.g., after construction), including operations and maintenance.

Providing facilities and best management practices to reduce the runoff volume, in accordance with § 166-22 of this chapter.

Providing facilities and best management practices to meet stormwater management district and peak rate control requirements, in accordance with § 166-23 and § 166-24 of this chapter.

Providing a complete plan for the continued operation and maintenance of stormwater management facilities and best management practices during and after construction, in accordance with Article V of this chapter.

Preparation of an approved stormwater management plan is required.

No regulated activities shall commence until the Township issues written approval of a stormwater management plan that demonstrates compliance with the requirements of this chapter.

The Township may hear requests for waivers where it is alleged that the stormwater management provisions of this chapter inflict unreasonable or undue hardship upon the applicant. The waiver request shall be in writing to the Township. The applicant shall fully document the nature of the alleged hardship.

The Township Board of Supervisors may grant a waiver from the stormwater management provisions, provided that all of the following findings are made in a given case:

In granting any waiver, the municipality may attach such reasonable conditions and safeguards as it may deem necessary to implement the purposes of Pennsylvania Act 167.

If a site is designated as a hotspot, it has important implications for how stormwater is managed. First and foremost, untreated stormwater runoff from hotspots shall not be allowed to recharge into groundwater where it may contaminate water supplies. Therefore, infiltration requirements shall not apply to development sites that fit into the hotspot category (the runoff volume must be managed using appropriate methods). Second, a greater level of stormwater management shall be considered at hotspot sites to prevent pollutant washoff after construction. The Environmental Protection Agency's (EPA) NPDES stormwater program requires some industrial sites to prepare and implement a stormwater pollution prevention plan. Below is a list of examples of designated hotspots:

The following land uses and activities are not normally considered hotspots:

While large highways [average daily traffic volume (ADT) greater than 30,000] are not designated as stormwater hotspots, it is important to ensure that highway stormwater management plans adequately protect groundwater.

Infiltration: replication of preconstruction stormwater infiltration conditions;

Treatment: use of water quality treatment BMPs to ensure filtering out of the chemical and physical pollutants from the stormwater runoff; and

Stream bank and stream bed protection: management of volume and rate of post-construction stormwater discharges to prevent physical degradation of receiving waters (e.g., from scouring).

Do not increase the post-development total runoff volume for all storms equal to or less than the two-year frequency, twenty-four-hour duration precipitation.

For modeling purposes:

Stormwater facilities shall capture at least the first two inches of runoff from all new impervious surfaces.

At least the first one inch of runoff from new impervious surfaces shall be permanently removed from the runoff flow (i.e., the first one inch of runoff shall not be released into the surface waters of this commonwealth). Removal options include reuse, evaporation, transpiration and infiltration.

Wherever possible, infiltration facilities should be designed to accommodate infiltration of the entire permanently removed runoff. However, in all cases at least the first 0.5 inch of the permanently removed runoff shall be infiltrated.

In order to implement the provisions of the Stony Creek/Saw Mill Run Act 167 Stormwater Management Plan, developed by the Montgomery County Planning Commission with input from the Montgomery County municipalities and adopted by the Montgomery County Commissioners, dated June 1, 1991 (hereinafter the "Stony Creek Plan"), the Township is hereby divided into stormwater management districts, consistent with the designated watersheds for the Stony Creek/Saw Mill Run Watershed Release Rate Map developed and adopted by the Montgomery County Planning Commission, dated October 1991 (hereinafter the "Release Rate Map"). The boundaries of the stormwater management districts are shown on an official map which, along with the Stony Creek Plan and the Release Rate Map, is incorporated herein by reference and all of which are available for inspection at the Township administrative offices.

Three broad categories of stormwater management districts, namely the Release Rate District, the Provisional No-Detention District and the One-Hundred-Percent Release Rate District, shall be applied in the Township.

Release Rate District. Within a given district, the post-development peak rate of stormwater runoff must be controlled to the stated percentage of the predevelopment peak rate of stormwater runoff in order to protect downstream watershed areas. There are numerous Release Rate Districts which differ in the extent to which post-development stormwater runoff must be controlled. The release rates range from 50% to 100%, and a specific release rate for each district is shown on the Release Rate Map and the Stony Creek Plan.

Provisional No-Detention District. These watershed areas may discharge post-development peak stormwater runoff without detention without adversely affecting the total watershed peak flow. In certain instances, however, the local conveyance facilities, which transport stormwater runoff from the site to the main channel, may not have adequate capacity to safely transport increased peak flows associated with no detention for a proposed development. In those instances, the developer shall either use a one-hundred-percent release rate control or provide increased capacity of downstream drainage elements to convey increased peak flows. In determining if adequate capacity exists in the local watershed drainage network, the developer must assume that the entire local watershed is developed per the existing current Chapter 205, Zoning, and that all new development would use the runoff controls specified within this chapter.

One-Hundred-Percent Release Rate District. This is an area that should use a one-hundred-percent release rate control to protect the areas downstream of the development site. A one-hundred-percent release rate control would result in the post-development peak rate stormwater runoff being controlled to the predevelopment level, as further defined in this chapter.

Natural or man-made channels or swales must be able to convey the increased runoff associated with a two-year return period event within their banks at velocities consistent with protection of the channels from erosion. Acceptable velocities shall be based upon criteria included in the DEP Erosion and Sediment Pollution Control Program Manual, latest edition.

Natural or man-made channels or swales must be able to convey the increased twenty-five-year return period runoff peak within their banks or to otherwise not create any hazards to persons or property.

Culverts, bridges or storm sewers or any other facilities that must pass or convey flows from the tributary area must have sufficient capacity to pass or convey the increased flows associated with the twenty-five-year return period event, except for facilities located within a designated floodplain area that must be capable of passing or conveying the one-hundred-year return period runoff. Any facilities that constitute stream enclosures per DEP's Chapter 105 regulations shall be designed to convey the one-hundred-year return period runoff.

The peak flow values to be used for the downstream areas for the design return period storms (two-, five-, ten-, twenty-five-, fifty- and one-hundred-year) shall be the values from the calibrated Penn State Runoff Model (PSRM) for the Stony Creek/Saw Mill Run watershed. These flow values would be supplied to the developer by the Township Engineer upon request.

Any available capacity in the downstream conveyance system as documented by a developer may be used by the developer only in proportion to his development site acreage relative to the total upstream undeveloped acreage from the identified capacity (i.e., if the developer's site is 10% of the upstream undeveloped acreage, the developer may use up to 10% of the documented downstream available capacity).

Developer-proposed runoff controls that would generate increased peak flow rates at documented storm drainage problem areas would, by definition, be precluded from successful attempts to prove no harm, except in conjunction with proposed capacity improvements for the problem areas consistent with § 166-24J of this chapter.

In certain instances, primarily within the provisional no-detention and provisional one-hundred-percent release rate category areas, local drainage conditions may dictate more-stringent levels of runoff control than those based upon protection of the entire watershed. In these instances, if the developer could prove that it would be feasible to provide capacity improvements to relieve the capacity deficiency in the local drainage network, then the capacity improvements could be provided by the developer in lieu of development controls on the development site. Any capacity improvements would be designed based upon the development of all areas tributary to the proposed improvement and the capacity criteria specified in § 166-24C of this chapter. In addition, all new development upstream of a proposed capacity improvement shall be assumed to implement the applicable runoff controls consistent with this chapter, except that all new development within the entire subarea(s) within which the proposed development site is located shall be assumed to implement the developer's proposed discharge control, if any.

Capacity improvements may also be provided as necessary to implement any regional or subregional detention alternatives or to implement a modified no-harm option which proposes specific capacity improvements to document the validity of a less-stringent discharge control that would not create any harm downstream.

TR-20 (or commercial computer package based on TR-20), developed by the USDA and NRCS; applicable where use of full hydrology computer model is desirable or necessary.

TR-55 (or commercial computer package based on TR-55), developed by the USDA and NRCS; applicable for land development plans within the limitations described in TR-55.

HEC-1/HEC-HMS, developed by the United States Army Corps of Engineers; applicable where use of a full hydrologic computer model is desirable or necessary.

PSRM, developed by Penn State University; applicable where use of a hydrologic model is desirable or necessary; simpler than TR-20 or HEC-1.

Rational Method (or commercial computer package based on Rational Method), developed by Emil Kuichling (1889); applicable for sites less than 200 acres, or as approved by the Township.

Other methods: other computation methodologies approved by the Township.

For development and redevelopment sites, the ground cover used in determining the existing conditions' flow rates for the developed portion of the site shall be considered as "meadow in good condition," unless the natural ground cover generates a lower curve number (CN) or Rational "c" value (i.e., woods) as presented in the PennDOT Drainage Manual (Publication 584).

The developer shall construct and/or install such drainage structures as necessary to:

If, in the course of preparing or reviewing the stormwater management plan, the Township determines that off-site improvements are necessary to satisfactorily control the stormwater from the proposed development, the developer shall be responsible for the off-site improvements.

All stormwater detention/retention facilities and erosion and sedimentation control measures shall be in place and functioning prior to the creation of any impervious surface.

Any term not specifically defined in § 166-10 or in the Subdivision and Land Development Ordinance of East Norriton Township[1] shall have the meaning set forth in the latest edition of Urban Hydrology for Small Watersheds, Technical Release 55, and the National Engineering Handbook, Section 4, Hydrology.

Whenever a watercourse, stream or intermittent stream is located within a development site, it shall remain open in its natural state and location and shall not be piped. However, if the stream banks are of excessive slope (steeper than 3:1), it shall be the responsibility of the developer to improve the stream banks along the watercourse.

The existing points of natural drainage discharge onto adjacent property shall not be altered without the written approval of the affected landowners in a form satisfactory to the Township Solicitor.

No stormwater runoff or natural drainage shall be so diverted as to overload existing drainage systems or create flooding or the need for additional drainage structures on other private properties or public lands.

Drainage easements. Drainage easements to accommodate all storm drainage requirements shall be a minimum of 20 feet in width and shall be offered for dedication to the Township. Easements shall be provided for all improved watercourses and storm drainage piping that are not located within street rights-of-way.

Storm drainage pipe. The minimum diameter of all storm drainage pipe shall be 18 inches or an equivalent with equal area. No storm drainage piping shall be permitted under buildings. The minimum grade of piping shall be reinforced concrete and conform to Pennsylvania Department of Transportation specifications. All joints shall be mortared.

Stormwater detention/retention. The following criteria shall be used for design of retention/detention areas. Any reference to detention basin shall also include retention basin.

Stormwater release rate.

The following rainfall intensities shall be used for the twenty-four-hour Type II distribution storm with average antecedent moisture conditions for the frequencies shown:

All developments shall limit the rate of stormwater runoff as previously set forth within this chapter to be in strict conformance with the Stony Creek Plan and this section.

The increased stormwater runoff which may result from subdivision or land development shall be controlled by permanent stormwater runoff control measures and facilities. The design for such facilities is as follows:

An overflow system shall be provided to carry runoff to the detention basin when the capacity of the storm drainage pipe system is exceeded. The overflow system shall have sufficient capacity to carry the runoff difference between the one-hundred-year-storm peak flow rate and the capacity of the storm drain pipe. The one-hundred-year-storm peak shall be calculated by the Soil Cover Complex Method or by an equal method as may be approved by the Township Engineer.

Detention basins shall be designed to facilitate regular maintenance, mowing and periodic desilting and reseeding. Basins shall not be located within floodplains or floodplain soils. In residential subdivisions and residential developments, shallow broad basins shall be used.

If the side slopes of the basin area exceed 3:1 over at least a five-foot area, a four-foot-high chain-link fence (green) shall be required. The fence should be located on the outside of the berm or slope. Plantings as required in this section shall be located next to the fence on the outside to soften the appearance. If the side slopes are less than 3:1, no fencing is required.

The minimum top width of the detention basin berm shall be 10 feet. A cutoff trench (keyway) comprised of impervious material shall be provided under all embankments that require fill material. The cutoff trench shall be a minimum of eight feet wide and two feet deep and have side slopes of 1:1.

In order to ensure proper drainage on the floor of the basin, a minimum grade of 2% shall be maintained for grassed areas. For concrete channel flow, a minimum grade of 1% shall be maintained.

All detention/retention basin embankments shall be placed in a maximum of eight-inch concrete lifts to a minimum of 95% of maximum dry density as established by the American Society for Testing and Materials D-1557. Prior to proceeding to the next lift, the compaction shall be checked by the Township Engineer or soils engineer. Compaction tests will be run on the leading and the trailing edge of the berm as well as the top of the berm.

Whenever possible, the emergency spillway for detention basins shall be constructed on undisturbed ground. In situations where the spillway is constructed within a fill area, the emergency spillways shall be constructed of reinforced concrete checker blocks. All emergency spillways shall be constructed so that the detention basin berm is protected against erosion. The minimum capacity of all emergency spillways shall be the peak flow rate from the one-hundred-year design storm after development. The construction material of the emergency spillway shall extend along the upstream and downstream berm embankment slopes. The upstream edge of the emergency spillway shall be a minimum of three feet below the spillway crease elevation. The downstream slope of the spillway shall, as a minimum, extend to the toe of the berm embankment. The emergency spillway shall not discharge over earth fill and/or easily erodible material.

All stormwater management detention facilities shall provide a minimum one foot of freeboard above the maximum pool elevation associated with the storm event. Any emergency spillway shall be designed to pass the one-hundred-year after-construction stormwater runoff event with a minimum one foot of freeboard from the design flow elevation in the emergency spillway to the top of a settled detention basin embankment.

Antiseep collars shall be installed around the pipe barrel within the normal saturation zone of the detention basin berms. The antiseep collars and their connections to the pipe barrel shall be watertight. The antiseep collars shall extend a minimum of two feet beyond the outside of the principal pipe barrel. The maximum spacing between collars shall be 14 times the minimum projection of the collar measured perpendicular to the pipe. A minimum of two antiseep collars shall be installed on each pipe outlet.

All outlet pipes through the basin berm shall be reinforced concrete pipe having O-ring joints. All joints shall be mortared.

Energy-dissipating devices, including, but not limited to, riprap and endwalls, shall be placed at all basin outlets.

During construction, a perforated riser pipe shall be provided at each outlet of all detention basins for sediment control. The riser shall be constructed of metal or concrete. The riser shall extend to a maximum elevation of two feet below the crest elevation of the emergency spillway. The perforated riser shall be designed so that the rate of outflow is controlled by the pipe barrel through the basin berm when the depth of water within the basin exceeds the height of the riser. Circular perforations with a maximum diameter of 1 1/2 inches shall be spaced eight inches vertically and 12 inches horizontally on the upper 2/3 of the pipe. The perforations shall be cleanly cut and shall not be susceptible to enlargement. All metal risers shall be coated to prevent rust. A trash rack or similar appurtenances shall be provided to prevent debris from entering the riser. All risers shall have a concrete base attached with a watertight connection. The base shall be of sufficient weight to prevent flotation of the riser. An antivortex device, consisting of a thin vertical plate normal to the basin berm, shall be provided on the top of the riser.

All drainage channels shall be designed to prevent erosion of the bed and banks. The maximum permissible flow velocity shall not exceed those outlined in the following table. Suitable stabilization shall be provided where required to prevent erosion of the drainage channels. Allowable water velocities shall be as follows:

All vegetated drainage channels shall have a maximum side slope grade of three horizontal to one vertical.

Because of the critical nature of vegetated drainage channels, the design of all vegetated drainage channels shall, as a minimum, conform to the design procedures outlined in the Pennsylvania Department of Environmental Resources Erosion and Sediment Control Handbook (April 1990, or as further revised).

Access ramps (for maintenance equipment) shall be 12 feet in width and have a maximum slope of 12 1/2% for all detention/retention basins. These ramps shall be constructed of concrete checker blocks on a six-inch compacted layer of PennDOT No. 2A coarse aggregate or approved equal.

The following standards shall apply to underground detention basins:

All subdivision and land development plans shall include methods to withhold and release stormwater at a controlled rate onto adjacent property.

Lots shall be laid out and graded to provide positive drainage away from buildings.

Storm sewers, culverts and related installations shall be provided to:

Storm sewers are required and shall be placed in the right-of-way parallel to the roadway. When located in undedicated land, they shall be placed within an easement not less than 20 feet wide.

Manholes shall be spaced not more than 300 feet apart on pipe sizes up to and including 24 inches in diameter and not more than 450 feet apart for pipe sizes greater than 24 inches in diameter. Inlets may be substituted for manholes, on approval by the Township Engineer, at the same spacing as required for manholes. In no case shall inlets be spaced more than 450 feet apart. Manholes or inlets shall be provided at all changes of direction of storm sewer piping.

Inlets and manhole cover frames shall conform to Pennsylvania Department of Transportation specifications. At street intersections, inlets shall be placed in the tangent and not in the curved portion of the curbing. Manhole covers shall have the word "STORM" cast in two-inch-high letters on the top of the cover.

Stormwater roof drains and sump pumps shall not discharge water directly onto a sidewalk or a street and shall be constructed to discharge wholly to a storm sewer system.

Drainage structures which drain watershed areas in excess of 1/2 square mile (320 acres) or which have a span of eight feet or more shall be designed for a maximum expected runoff as calculated using the Soil Conservation Service Technical Release 55, Urban Hydrology for Small Watersheds (Less Than 2,000 Acres). The design storm shall be a minimum one-hundred-year storm. A water obstruction and encroachment permit shall be obtained from the Pennsylvania Department of Environmental Resources or a waiver from the Pennsylvania Department of Environmental Resources for all waterway openings prior to final plan approval. The cartway width over a structure shall be as wide as the widest road connecting with the structure, or, if the character of the road is expected to change for the future planning, the cartway over the structure shall be made to anticipate this condition.

Storm frequency.

A five-minute storm duration shall be used if the duration does not result in a maximum expected discharge that exceeds the capacity of a thirty-inch pipe.

If a five-minute storm duration results in a pipe size exceeding 30 inches, the time-of-concentration approach shall be used in determining storm duration.

If a five-minute storm duration results in a pipe size exceeding 30 inches, within any run of pipe, the time-of-concentration approach may be used for the sizing of pipes from that point on by adjusting the time of concentration.

Shoulders in cut areas (without swales).

When swales are provided in cut areas, the water shall not encroach upon the roadway area during a ten-year-frequency storm of five-minute duration.

The maximum velocity as determined by Manning's Equation shall not exceed the allowable velocities as shown in § 166-25D(17) for the specific type of swale material.

The maximum encroachment of water on the roadway pavement shall not exceed three inches in depth at the curbline or 1/2 of a vehicular travel lane during a ten-year-frequency storm of five-minute duration.

Inlets shall be provided to control the encroachment of water on the pavement.

When there is a change in pipe size in the inlet, the elevation of the top of pipes shall be the same or the smaller pipe higher. A minimum drop of two inches shall be provided at the inlet pipe invert elevation and the outlet pipe invert elevation.

If the capacity of the shoulder, swale, curb section or depressed median section is less than the inlet capacity, the shoulder, swale, curb section or depressed medial section capacity shall govern inlet spacing.

Inlet capacities shall be based on a maximum flow of 5.0 cubic feet per second.

To facilitate the solution of Manning's Equation as applied to storm pipes, charts are presented in Design Charts for Open Channel Flow, prepared by the United States Department of Commerce, as last revised, which permit a direct determination of the capacity of circular pipes.

Where headroom is restricted, equivalent pipe arches may be used in lieu of circular pipe.

The minimum diameter of storm pipe shall be 18 inches.

Inlets or manholes shall be placed at changes in vertical or horizontal direction of pipe.

Pipe shall be designed with a slope such that the minimum velocity of 2.5 feet per second will be attained; however, the slope shall not be less than 0.5%.

All inlets, manholes and piping shall be designed to provide a minimum of 1.0 foot of freeboard at all inlets and manholes. The stormwater piping system shall be designed to meet inlet and outlet control.

All pipes shall be designed to have a minimum of 18 inches of cover over the bell of the pipe.

Subbase and U-drains in combination with six-inch pipe U-drains and/or combination storm sewers and U-drains shall be installed on roadways where the finished roadway grade is within one foot of the seasonal high-water table as designated for the soils by the Montgomery County Soil Survey.

All plans showing the proposed storm sewer construction must be accompanied by a complete design submitted by the registered engineer.

When subdivisions or land development are submitted to the Township for approval in sections, a complete storm sewer design for the proposed subdivision and land development shall be submitted. The proposed design must include the entire tract and not a portion.

If only a section of a subdivision or land development is contemplated for construction, the engineer shall show how he proposes to handle stormwater from this section in order to prevent damage to adjacent properties. If temporary construction is required, the engineer shall include such structures in the plans submitted.

In the event that such temporary measures cannot ensure protection to adjacent properties, then the main outfall line of the storm sewer shall be included as part of the construction for the proposed section.

Landscaping for naturalized basins. The following shall apply to basins left in a natural state, especially those in parks or large open spaces:

Landscaping for maintained basins. The following shall be applied for basins in developed areas where a manicured lawn is possible. Lawn mowing shall take place at intervals sufficient to maintain the grass ground cover at no higher than six inches.