A. 
The management of stormwater on site, both during and upon completion of the disturbances associated with activities permitted under § 178-104, shall be accomplished in accordance with the standards and criteria of this chapter. The design of any temporary or permanent facilities and structures and the utilization of any natural drainage systems shall be in full compliance with this chapter. The intent of these design standards is to encourage environmentally sound stormwater management practices that provide necessary drainage facilities while protecting the hydrologic characteristics and water quality of the site and watershed. Developments shall be required to incorporate stormwater management controls. Stormwater management design shall blend into the natural environment and be aesthetically integrated into the site design.
B. 
For all regulated activities, unless preparation of an SWM site plan is specifically exempted in § 178-302:
(1) 
Preparation and implementation of an approved SWM site plan is required.
(2) 
No regulated activities shall commence until the Borough issues written approval of an SWM site plan, which demonstrates compliance with the requirements of this chapter.
(3) 
All SWM design work must be sealed by a qualified design professional. All designs proposing the use of a SWM retention or detention facility, with or without outlet structure(s), shall be completed by a design engineer licensed in the Commonwealth of Pennsylvania.
(4) 
SWM site plans approved by the Borough, in accordance with § 178-406, shall be on site throughout the duration of the regulated activity.
C. 
These standards apply to the landowner and any person engaged in regulated activities.
D. 
For all regulated earth disturbance activities, erosion and sediment control BMPs shall be designed, implemented, operated, and maintained during the regulated earth disturbance activities (e.g., during construction) to meet the purposes and requirements of this chapter and to meet all requirements under Title 25 of the Pennsylvania Code, the Clean Streams Law,[1] and the Storm Water Management Act.[2] Various BMPs and their design standards are listed in the Erosion and Sediment Pollution Control Program Manual (E&S Manual), No. 363-2134-008, as amended and updated. In addition, the following standards apply:
(1) 
No regulated earth disturbance activities within the municipality shall commence until the municipality receives a copy of any required approvals from the Conservation District or DEP for an erosion and sediment control plan.
(2) 
DEP has regulations that require an erosion and sediment control plan for any earth disturbance activity of 5,000 square feet or more, under 25 Pa. Code § 102.4(b).
(3) 
In addition, under 25 Pa. Code Chapter 92a, a DEP NPDES construction activities permit is required for regulated earth disturbance activities.
(4) 
Evidence of any necessary permit(s) for regulated earth disturbance activities from the appropriate DEP regional office or County Conservation District must be provided to the municipality.
(5) 
A copy of the erosion and sediment control plan and any required permits, as required by DEP regulations, shall be available at the project site at all times.
(6) 
Additional erosion and sediment control design standards and criteria are recommended to be applied where infiltration BMPs are proposed and shall include the following:
(a) 
Areas proposed for infiltration BMPs shall be protected from sedimentation and compaction during the construction phase to maintain maximum infiltration capacity.
(b) 
Infiltration BMPs shall not be constructed nor receive runoff until the entire contributory drainage area to the infiltration BMP has achieved final stabilization.
(c) 
Infiltration BMPs should be dispersed throughout the project site at strategic locations, made as shallow as practicable, and located to maximize use of natural on-site infiltration features while still meeting the other requirements of this chapter.
(7) 
The municipality shall be authorized to enforce regulations specified under 25 Pa. Code Chapters 92a, 102 and 105 for regulated earth disturbance activities authorized by the Allegheny County Conservation District and/or the DEP.
[1]
Editor's Note: See 35 P.S. § 691.1 et seq.
[2]
Editor's Note: See 32 P.S. § 680.1 et seq.
E. 
All development activity within a special flood hazard area designated by the Federal Emergency Management Agency (FEMA) shall comply with § 212-1503, Floodplain management, of the Zoning Ordinance, and this subsection. All development shall be designated to maintain the flood-carrying capacity of the floodway such that the base flood elevations are not increased, either upstream or downstream, unless an approval is received from the PADEP. The natural conveyance characteristics of the site and the receiving floodplain shall be incorporated into the stormwater management practices proposed for the site.
F. 
The stormwater management system shall not create an adverse impact on stormwater quantity or quality in either upstream or downstream areas. Off-site areas which discharge to or across a site proposed for development shall be addressed in the stormwater management plan prepared for the development. No stormwater management plan shall be approved until it is demonstrated that the runoff from the project shall not adversely impact downstream areas.
G. 
Wetlands shall not be used to meet the minimum design requirements for stormwater management or stormwater runoff quality treatment, except when used as part of a treatment train that incorporates a portion of the outer zone (filter strip) of the wetland's riparian buffer as a stormwater outfall.
H. 
Stormwater management designs shall not alter the alignment of any natural watercourse or adversely impact its flow.
I. 
All proposed stormwater management systems shall be designed to prevent the pollution of groundwater resources by stormwater, promote safety, minimize health hazards, preserve natural features and provide infiltration and groundwater recharge where appropriate. Neither submission of a plan under the provision herein nor compliance with the provisions of these regulations shall relieve any person from responsibility for damage to any person or property otherwise imposed by law.
J. 
Where deemed necessary by the Borough Engineer, or as addressed in an approved Act 167 stormwater management plan, the applicant shall construct storm drains to handle on-site runoff. To the maximum extent permitted under the Municipalities Planning Code, 53 P.S. § 10101, et seq., and Act 167, or any amendments thereto, the applicant shall provide on-site/off-site drainage easements and provide for the conveyance of off-site runoff to an acceptable outlet in the same watershed.
K. 
Where watercourses traverse a development site, drainage easements shall be provided conforming to the line of such watercourses. The terms of the easements shall prohibit excavation, the placing of fill or structures, except as needed for roadways, driveways and walkways, or any alterations that may adversely affect the flow of stormwater within any portions of the easement, and require the establishment and protection of riparian buffers.
L. 
Any regulated activity that may affect the stormwater flows toward or onto a state or county highway right-of-way or facility shall be designed, implemented, operated and maintained in accordance with the regulations of the Pennsylvania Department of Transportation (PennDOT) or Allegheny County, as the case may be.
M. 
At the time of the application for a residential or nonresidential building permit or authorization for improvements as a land development project, issuance of the permit shall be conditioned upon adherence to the terms and requirements of this chapter.
N. 
Stormwater discharges to critical areas with sensitive resources (e.g., special protection waters, cold-water fisheries, recharge areas, water supply reservoirs, etc.) may be subject to additional performance criteria or may need to utilize or restrict certain stormwater management practices.
O. 
The applicant must document that downstream (off-site) conveyance systems exist to safely transport the discharge and that no erosion, sedimentation, flooding or other adverse impacts will result from said discharge from each subarea.
P. 
All stormwater runoff from disturbed areas shall be pretreated prior to discharge to surfaces or groundwater.
Q. 
Post-construction water quality protection shall be addressed as required by the stormwater management requirements contained in this chapter.
R. 
All BMPs used to meet the requirements of this chapter shall conform to the state water quality requirements and any more stringent requirements as required by the municipality.
S. 
In selecting the appropriate BMPs or combinations thereof, the applicant shall consider the following:
(1) 
Total contributing area.
(2) 
Permeability and infiltration rate of the site soils.
(3) 
Slope and depth to bedrock.
(4) 
Seasonal high-water table.
(5) 
Proximity to building foundations and wellheads.
(6) 
Erodability of soils.
(7) 
Land availability and configuration of the topography.
(8) 
Peak discharge and required volume control.
(9) 
Stream bank erosion.
(10) 
Efficiency of the BMPs to mitigate potential water quality problems.
(11) 
The volume of runoff that will be effectively treated.
(12) 
The nature of the pollutant being removed.
(13) 
Maintenance requirements.
(14) 
Creation/protection of aquatic and wildlife habitat.
T. 
Transference of runoff from one DEP-designated Act 167 watershed to another shall be prohibited unless approved by the municipality.
U. 
Impervious areas:
(1) 
The measurement of impervious areas shall include all of the impervious areas in the total proposed development even if development is to take place in stages.
(2) 
For development taking place in stages, the entire development plan must be used in determining conformance with this chapter.
(3) 
For projects that add impervious area to a parcel, the total impervious area on the parcel is subject to the requirements of this chapter; except that the volume controls in § 178-303 and the peak rate controls of § 178-304 do not need to be retrofitted to existing impervious areas that are not being altered by the proposed regulated activity.
V. 
Stormwater flows onto adjacent or downstream property shall not be created, increased, decreased, relocated, impeded, or otherwise altered without written notification of the affected property owner(s). Notification shall include a description of the proposed development and the stormwater flows that are being created, increased, decreased, relocated, impeded, or otherwise altered. Adjacent property shall at a minimum include any property having a shared boundary with the subject property of the SWM site plan, however, if in the judgement of the designated plan reviewer additional properties are being affected, additional notifications may be required. Proof of notification (signed postal receipt for example) shall be included as part of the SWM plan submission to the Borough. Such stormwater flows shall be subject to the requirements of this chapter.
W. 
All regulated activities shall include such measures as necessary to:
(1) 
Protect health, safety, and property.
(2) 
Meet the water quality goals of this chapter by implementing measures to:
(a) 
Minimize disturbance to floodplains, wetlands, and wooded areas.
(b) 
Maintain or extend riparian buffers.
(c) 
Avoid erosive flow conditions in natural flow pathways.
(d) 
Minimize thermal impacts to waters of this commonwealth.
(e) 
Disconnect impervious surfaces by directing runoff to pervious areas, wherever possible.
(3) 
Incorporate methods described in the Pennsylvania Stormwater Best Management Practices Manual (BMP Manual), Pennsylvania Handbook of Best Management Practices for Developing Areas, the Maryland Stormwater Design Manual, or other appropriate references for guidance in the design of SWM facilities most appropriate to individual site conditions. Objectives for design are to reduce the volume of stormwater generated, infiltrate runoff at its source to the maximum extent possible, achieve water quality improvement at the source or during conveyance, and provide for peak flow attenuation. Applicants shall examine design alternatives by viewing them in a series. In addition, applicants are strongly encouraged to use structural and nonstructural stormwater management practices that reduce or eliminate the need for detention basins. If methods other than green infrastructure and LID methods are proposed to achieve the volume and rate controls required under this chapter, the SWM site plan must include a detailed justification, acceptable to the designated plan reviewer, demonstrating that the use of LID and green infrastructure is not practicable.
X. 
Normally dry, open top, storage facilities should completely drain both the volume control and rate control capacities over a period of time not less than 24 and not more than 72 hours from the end of the design storm.
Y. 
The design storm-precipitation depths to be used in the analysis of peak rates of discharge shall be as obtained in PennDOT's Drainage Manual, Publication 584, Appendix 7A; or obtained from the latest version of the Precipitation-Frequency Atlas of the United States, 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/.
Z. 
The Borough may, after consultation with DEP, approve measures for meeting the state water quality requirements other than those in this chapter, provided that they meet the minimum requirements of, and do not conflict with, state law including, but not limited to, the Clean Streams Law.[3]
[3]
Editor's Note: See 35 P.S. § 691.1 et seq.
AA. 
Appendix F contains Worksheets 11, 12, and 13 from Chapter 8 of the Pennsylvania Stormwater Best Management Practices Manual (DEP, 2006) and shall be used for computing pollutant loads from common land uses and the resultant loads after application of the most common stormwater management BMPs. Requirements shall be met per the worksheets.
A. 
Regulated activities that result in cumulative earth disturbances less than one acre are exempt from the requirements in § 178-401 of this chapter except as provided below. The Project Standardized SWM Guidance document provided in Appendix E was prepared to assist applicants in meeting this requirement for individual lots only.
B. 
Earth disturbances between 0.25 acre (10,890 square feet) and one acre of earth disturbance must submit a SWM site plan to the Borough which shall consist of the following items and related supportive material needed to determine compliance with §§ 178-303 through 178-305. The applicant can use the protocols in the Small Project Stormwater Management Site Plan pursuant to Appendix C.[1]
(1) 
General description of proposed stormwater management techniques, including construction specifications of the materials to be used for stormwater management facilities.
(2) 
An erosion and sediment control plan, including all reviews and letters of adequacy from the Conservation District where appropriate.
(3) 
Limits of earth disturbance, including the type and amount of impervious area that is proposed; proposed structures, roads, paved areas, and buildings; and a statement, signed by the applicant, acknowledging that any revision to the approved drainage plan must be approved by the Borough, and that a revised erosion and sediment control plan must be submitted to the Borough or Conservation District for approval.
(4) 
All stormwater management facilities must be located on a plan and described in detail; and all calculations, assumptions, and criteria used in the design of the stormwater management facilities must be shown. Plans must be designed by a design professional.
[1]
Editor's Note: Appendix C is included as an attachment to this chapter.
C. 
Earth disturbances under 0.25 acre (10,890 square feet) require plans in accordance with the project standardized SWM guidance document provided in Appendix E and the site plan provisions in the Small Project stormwater management site plan pursuant to Appendix C. These appendices were prepared to assist applicants in meeting this requirement for individual lots only.[2]
[2]
Editor's Note: Said appendices are included as attachments to this chapter.
D. 
Agricultural activity is exempt from the SWM site plan preparation requirements of this chapter provided the activities are performed according to the requirements of 25 Pa. Code Chapter 102.
E. 
Forest management and timber operations are exempt from the SWM site plan preparation requirements of this chapter provided the activities are performed according to the requirements of 25 Pa. Code Chapter 102.
F. 
Roadway resurfacing and maintenance projects, which do not increase impervious area, and underground infrastructure projects are exempt from the provisions of this chapter, provided the activities meet the requirements of all other Municipal, State and Federal requirements.
G. 
Gravel driveways: An existing gravel driveway is considered semipervious, and the conversion of an existing gravel driveway to a conventional paved driveway that is less than 1,600 square feet shall be exempt from the requirements of this chapter to implement SWM BMPs. The conversion of an existing gravel driveway to a conventional paved driveway that is at least 1,600 square feet but not more than 5,000 square feet may be accomplished using standardized BMPs. The Stormwater Management Planning Guidelines for Existing Gravel Driveways document provided in Appendix D contains two tables labeled "Gravel Driveways" and has been prepared to assist applicants in meeting this requirement for individual lots only.[3]
[3]
Editor's Note: Appendix D is included as an attachment to this chapter.
H. 
Exemptions from any provisions of this chapter shall not relieve the applicant from the requirements in § 178-301D through J.
I. 
The Borough may deny or revoke any exemption pursuant to this section at any time for any project that the Borough believes may pose a threat to public health and safety or the environment.
J. 
Voluntary Green Stormwater Infrastructure (GSI) retrofit projects that are solely intended to better manage runoff from existing development and are not part of new development or redevelopment, are exempt from the stormwater management provisions of this chapter. This does not exempt such projects from any other municipal, state, or federal regulation.
K. 
A stormwater management plan will not be required for regulated activities previously approved by the Borough after January 1, 2008.
[Added 12-18-2019 by Ord. No. 655-2019]
The green infrastructure and low-impact development practices provided in the BMP Manual shall be utilized for all regulated activities wherever possible. Water volume controls shall be implemented using the Design Storm Method in Subsection A or the Simplified Method in Subsection B below. Water volume controls shall be implemented using the Design Storm Method in Subsection A or the Simplified Method in Subsection B below, or alternative design criteria as allowed by PA Code Title 25, Chapter 102.
A. 
The Design Storm Method (CG-1 in the BMP Manual) is applicable as a method to any size of regulated activity. This method requires detailed modeling based on site conditions. The following shall be incorporated into the CG-1 method:
(1) 
Do not increase the post-development total runoff volume for all storms equal to or less than the two-year twenty-four-hour duration precipitation.
(2) 
At least the first one inch of runoff from the net increase in impervious surfaces shall be permanently removed from the runoff flow, i.e., it shall not be released into the surface waters of this commonwealth. Removal options include reuse, evaporation, transpiration, and infiltration. If the developer provides justification that the listed removal options are not feasible, and the designated plan reviewer agrees, runoff shall be detained in a facility designed for a twenty-four-to-seventy-two-hour dewatering time in an area with a dedicated stormwater system (not contributory to a combined sewer system) and shall be detained in a facility designed for a seventy-two-hour dewatering time in an area contributory to a combined sewer system before discharge to local stormwater systems or the environment.
(3) 
For modeling purposes:
(a) 
Existing (predevelopment) nonforested pervious areas must be considered meadow in good condition.
(b) 
20% of existing impervious area, when present, shall be considered meadow in good condition in the model for existing conditions.
B. 
The Simplified Method (CG-2 in the BMP Manual) provided below is independent of site conditions and should be used if the Design Storm Method is not followed. This method is not applicable to regulated activities greater than one acre or for projects that require design of stormwater storage facilities. For new impervious surfaces:
(1) 
Stormwater facilities shall capture at least the first two inches of runoff from the net increase in impervious surfaces.
(2) 
At least the first one inch of runoff from the net increase in impervious surfaces shall be permanently removed from the runoff flow, i.e., it shall not be released into the surface waters of this commonwealth. Removal options include reuse, evaporation, transpiration, and infiltration. If the developer provides justification that the listed removal options are not feasible, and the designated plan reviewer agrees, runoff shall be detained in a facility designed for a twenty-four-hour dewatering time in an area with a dedicated stormwater system (not contributory to a combined sewer system) and shall be detained in a facility designed for a seventy-two-hour dewatering time in an area contributory to a combined sewer system before discharge to local stormwater systems or the environment.
(3) 
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 should be infiltrated.
(4) 
This method is exempt from the requirements of § 178-304, Rate controls.
A. 
For areas not covered by a release rate map from an approved Act 167 Stormwater Management Plan: Post-development discharge rates shall not exceed the predevelopment discharge rates for the one-, two-, five-, ten-, twenty-five-, fifty-, and 100-year, twenty-four-hour storm events. This is the equivalent to a 100% release rate area when compared to those rates shown in the maps contained in Appendix A (New and Existing Release Rate Management Districts).[1] This predevelopment to post-development control is not to be misconstrued as the same as the "conditional direct discharge" areas on the release rate maps. If it is shown that the peak rates of discharge indicated by the post-development analysis are less than or equal to the peak rates of discharge indicated by the predevelopment analysis for one-, two-, five-, ten-, twenty-five-, fifty-, and 100-year, twenty-four-hour storms, then the requirements of this section have been met. Otherwise, the applicant shall provide additional controls as necessary to satisfy the peak rate of discharge requirement. Peak flows should be computed using the methods included in the chapter titled "Stormwater Calculations and Methodology" of the PADEP Stormwater Management BMP Manual.
[1]
Editor's Note: Appendix A is included as an attachment to this chapter.
B. 
The post-development peak discharge rate shall not exceed the predevelopment peak discharge rate multiplied by the subbasin release rate percentage for the one-year, two-year, five-year, ten-year, twenty-five-year, fifty-year, and 100-year twenty-four-hour storm events pursuant to the predevelopment cover assumption described in § 178-306.
[Amended 12-18-2019 by Ord. No. 655-2019]
A. 
In order to protect and improve water quality, a riparian buffer easement shall be created and recorded as an article of any subdivision or land development that encompasses a riparian buffer. The intent of this chapter in establishing a riparian buffer is to protect and improve stream water quality. The riparian buffer is intended to slow overland flow to the stream through the presence of native grasses, trees and shrubs, allowing infiltration/groundwater recharge; causing deposition of sediment, nutrients, pesticides, and other pollutants in the buffer rather than in the stream; and reducing erosion by providing stream bank stabilization. The trees provide shade for streams, keeping waters cooler and reducing evaporation.
B. 
Except as required by PA Code Title 25 Chapter 102, the riparian buffer easement shall be required for all streams (as defined in Article 200) with a contributing watershed area of greater than 10 acres. The riparian buffer easement shall be measured to be a minimum of 35 feet from the top of the streambank (on each side).
C. 
Minimum management requirements for riparian buffers.
(1) 
No use or construction within the riparian buffer shall be permitted that is inconsistent with the intent of the riparian buffer as described in § 178-305A.
(2) 
Existing native vegetation shall be protected and maintained within the riparian buffer easement.
(3) 
Whenever practicable, invasive vegetation shall be actively removed, and the riparian buffer easement shall be planted with native trees, shrubs and other vegetation to create a diverse native plant community appropriate to the intended ecological context of the site.
D. 
The riparian buffer easement shall be enforceable by the Borough and shall be recorded with the Allegheny County Department of Real Estate, so that it shall run with the land and shall limit the use of the property located therein. The easement shall allow for the continued private ownership and shall count toward the minimum lot area required by zoning, unless otherwise specified in Chapter 212 of the Borough's Code of Ordinances, Zoning.
E. 
Any permitted use within the riparian buffer easement shall be conducted in a manner that will maintain the extent of the existing 100-year floodplain, improve or maintain the stream stability, and preserve and protect the ecological function of the floodplain.
F. 
Stormwater drainage pipes shall be permitted within the riparian buffer easement, but they shall cross the easement in the shortest practical distance. Other structural stormwater management facilities are not permitted within the riparian buffer easement.
G. 
The following conditions shall apply when public and/or private recreation trails are permitted by the Borough within riparian buffers:
(1) 
It is preferred that trails be designed to be permeable and for nonmotorized use only; however, impermeable trails are permitted provided they have adequate drainage.
(2) 
Trails shall be designed to have the least impact on native plant species and other sensitive environmental features.
H. 
Septic drainfields and sewage disposal systems shall not be permitted within the riparian buffer easement and shall comply with setback requirements established under 25 Pa. Code Chapter 73.
I. 
Underground utilities shall be permitted within the riparian buffer easement; however, work shall be performed to minimize disturbance area and removal of trees. Restoration within the riparian buffer easement shall be with native species of trees, grasses, and other plantings. One tree shall be planted for each tree removed and the restoration shall be designed by a registered professional with the requisite experience. Aboveground utilities shall only be permitted to cross the easement perpendicular to the easement or in the shortest practical distance. Existing utilities may remain and be maintained as required.
[Amended 12-18-2019 by Ord. No. 655-2019]
A. 
The following design storms shall be used for analysis of the predevelopment and post-development conditions. These values are applicable to the Soil-Cover-Complex Method:
Twenty-Four-Hour Peak Flows for Watersheds
Return Period
(years)
24-Hour Storm
(inches)
1
1.97
2
2.35
5
2.87
10
3.29
25
3.89
50
4.39
100
4.90
(1) 
The precipitation values for each frequency storm listed above were abstracted from the precipitation frequency estimates developed by the National Oceanic and Atmospheric Administration as set forth in NOAA Atlas 14, Volume 2 (NOAA June 2004). The NOAA data are available from the Hydrometeorological Design Studies Center of the National Weather Service.
B. 
The following assumptions shall be used for runoff calculations.
(1) 
For new development sites, the ground cover used as the predevelopment assumption for runoff calculations shall be as follows:
(a) 
Wooded sites shall use a ground cover of woodland in good condition. Portions of a site having more than one viable tree of a DBH (diameter at breast height), the diameter of the tree stem 4 1/2 feet above the ground, of six inches or greater per 1,500 square feet shall be considered wooded where such trees existed within 10 years of application. If there is evidence of logging within the ten-year period, logged area shall be considered as woodland in good condition. The intent of this section is to recognize the existing woodland conditions and not inadvertently encourage tree harvesting.
(b) 
Agricultural sites shall use a ground cover of pasture in good condition.
(c) 
All other portions of a site shall use the appropriately designated ground cover in good condition.
(d) 
All watershed area(s) contributing to the point of interest, including off-site area, shall be considered.
(e) 
For redevelopment sites, see § 178-307.
(2) 
The runoff curve numbers listed in the table below shall be used in developing the runoff calculations for the ground covers noted in § 178-307B. These values are referenced from the Urban Hydrology for Small Watersheds Technical Release No. 55 (USDA, 1986). Coefficients for equivalent ground cover conditions shall be used if a runoff method other than the Soil-Cover-Complex Method is used.
Runoff Curve Numbers for Ground Covers
Ground Cover
Hydrologic Soil Group Curve Numbers
A
B
C
D
Woodland
30
55
70
77
Meadow (unmowed)
30
58
71
78
Grass (lawn)
39
61
74
80
Pasture (grazed)
39
61
74
80
Brush
30
48
65
73
(3) 
Impervious cover for the predevelopment condition shall have a runoff curve number of 95, and the impervious cover for the post-development condition shall have a runoff curve number of 98.
(4) 
Gravel pavement shall have a curve number of 89.
(5) 
Average antecedent moisture conditions, or AMC II, shall be used for the Soil-Cover-Complex Method.
(6) 
A Type II distribution storm (for the Soil-Cover-Complex Method only, for example, TR-55, TR-20).
(7) 
For time-of-concentration calculations, sheet flow lengths shall not exceed 100 feet and shallow concentrated flow lengths shall not exceed 1,000 feet.
(8) 
The kinematic "n" value in the sheet flow equation should be applied as per the following table. (Values taken from TR-55.)
Runoff Curve Numbers for Ground Covers
Ground Cover
Kinematic "n" Value
Impervious surfaces
0.011
Agricultural lands
0.17
Grass, lawn or open space
0.24
Wooded areas
0.40
C. 
In all plans and designs for stormwater management systems and facilities submitted to the Municipal Engineer for approval, stormwater peak discharge and runoff shall be determined through the use of the NRCS Soil-Cover-Complex Method as set forth in Urban Hydrology for Small Watersheds, Technical Release No. 55 (USDA, 1986), with specific attention given to antecedent runoff conditions, flood routing, time of concentration, and peak discharge specifications included therein, and in Hydrology National Engineering Handbook, Section 4 (USDA, 1985), both by the United States Department of Agriculture, Natural Resources Conservation Service. Note that, when TR-55 is used for natural system-based approaches and practices encouraged herein, calculations must be performed on a detailed small subarea basis. Use of Technical Release No. 20 and other methods listed in Table 1 are also acceptable. The design professional's selection of a specific method shall be based on the suitability of the method for the given project site conditions with due consideration to the limitations of the method chosen. Table 1 herein summarizes the computational methods available.
Acceptable Computation Methodologies for Stormwater Management Plans
Method
Source
Applicability
TR-20 or commercial package based on TR-20
USDA-NRCS
When use of full model is desirable or necessary
TR-55 or commercial package based on TR-55
USDA-NRCS
Applicable for plans within the model's limitations
HEC-HMS
U.S. Army Corps of Engineers
When full model is desirable or necessary
PSRM
Penn State University
When full model is desirable or necessary
VT/PSUHM
Virginia Polytechnic Institute and Penn State University
When full model is desirable or necessary
Modified Rational Method or commercial package based on this method
Emil Kuiching (1889)
For drainage areas less than or equal to 2 acres
D. 
A Modified Rational Method analysis may be used for drainage areas smaller than two acres when permitted by the Municipal Engineer. The term "Modified Rational Method" used herein refers to a procedure for manipulation of the basic Rational Method techniques to reflect the fact that storms with duration greater than the normal time of concentration for a basin will result in a larger volume of runoff even though the peak discharge is reduced. The methodology and model chosen for use shall be well-documented as being appropriate for use in this region, and all relevant assumptions, methodologies, calculations and data used shall be provided to the Municipal Engineer for review. Information on the Modified Rational Method is presented in the Recommended Hydrologic Procedures for Computing Urban Runoff from Small Watersheds in Pennsylvania (PADEP, 1982).
E. 
Rainfall intensities used for the Modified Rational Method shall be based on the precipitation frequency estimates developed by the National Oceanic and Atmospheric Administration as set forth in NOAA Atlas 14.
F. 
The Rational Method (that is, Q = CIA) shall be used for calculations of the peak rate of runoff for the design of storm sewers and drainage swales but not for the design of stormwater management facilities where a full hydrograph is needed. The equation representing the Rational Method is comprised of the following (in English units):
(1) 
Q = peak flow rate, cubic feet per second (cfs).
(2) 
C = runoff coefficient, dependent on land use/cover.
(3) 
I = design rainfall intensity, inches per hour.
(4) 
A = drainage area, acres.
G. 
Runoff characteristics of off-site areas that drain through a proposed development shall be considered and be based on the existing conditions in the off-site area.
[Added 12-18-2019 by Ord. No. 655-2019]
A. 
Design goals, principles, and standards.
(1) 
Design goals. Applicants shall adhere to a holistic design process incorporating the goals listed below. The objective is to achieve post-development hydrologic conditions that are consistent with the predevelopment ground cover assumption for new development and improve the runoff conditions for redevelopment. The design goals are:
(a) 
Minimize the volume of runoff that must be collected, conveyed, treated and released by stormwater management facilities. Site design should implement runoff reduction techniques such as those described in Chapters 4 and 5 of the Pennsylvania Stormwater BMP Manual, latest revision.
(b) 
Water quality requirements can be met using BMPs to control stormwater impacts from regulated areas. Replication of predevelopment volume and peak runoff levels shall be met to avoid degradation of the physical, chemical and/or biological characteristics of the receiving waters. This will be achieved by:
[1] 
Infiltration;
[2] 
Detention and/or retention;
[3] 
Treatment; and
[4] 
Stream bank and streambed protection (volume and rate control).
(c) 
Maintain the natural infiltration process and rate, and infiltrate runoff at its source when appropriate. Avoid development and/or compaction of soils where infiltration rates are above two inches per hour.
(d) 
Remove and/or treat pollutants at the source or during conveyance.
(e) 
Provide for peak flow attenuation to conform to the Storm Water Management Act[1] and/or this chapter.
[1]
Editor's Note: See 32 P.S. § 680.1 et seq.
(f) 
Attenuate peak volume runoff to protect the in-stream channel of the receiving stream.
(g) 
For these goals to be met, the applicant shall submit approved, original and/or innovative designs. Original/innovative designs will require supporting documentation to verify that their discharge will meet the Clean Water Act.[2] Pennsylvania Stormwater BMP Manual, and this chapter.
[2]
Editor's Note: See 35 P.S. § 691.1 et seq.
(2) 
General principles. The following general principles apply to all applicable activities under this chapter:
(a) 
Incorporate conservation design practices to minimize the amount of stormwater generated on a site, encourage the disconnection of impervious land cover, and maximize the use of pervious areas for stormwater treatment and on-site rainfall infiltration.
(b) 
Infiltration of surface water runoff at its source is to be a mechanism for stormwater management based on hydrologic soil group (or infiltration testing). Selection of infiltration practices can be influenced by those factors referenced in § 178-307B(2)(a) and as outlined in the publications listed in § 178-307B. Infiltration practices shall adhere to the following criteria:
[1] 
The preference in choosing methods of infiltration shall be:
[a] 
Subsurface designs; and
[b] 
Surface designs.
[2] 
Applicants shall first consider minimum disturbance/minimum maintenance techniques combined with site grading that distributes runoff to reduce concentration. Next, applicants shall consider depression areas combined with subsurface infiltration practices followed by other subsurface measures, including, but not limited to, porous paving and perforated pipe storage.
[3] 
The use of multiple infiltration features and facilities that provide for the following is encouraged:
[a] 
Discourage concentration of flows;
[b] 
Encourage disconnection of flows for rooftop runoff;
[c] 
Infiltrate as close to the source of runoff as possible; and
[d] 
Reduce visual impact.
[4] 
The temperature and water quality from subwatersheds within or discharging into receiving waters classified as EV or HQ (PADEP Chapter 93) shall be less than or equal to predevelopment levels.
[5] 
Where high-water tables, subsurface contamination, slope stability concerns, or other site constraints preclude achieving the required infiltration volume, additional conservation design practices and alternative stormwater management practices should be implemented to reduce to the maximum extent practicable the total volume of stormwater released to streams. The applicant shall follow the stormwater runoff hierarchy of § 178-307B(1)(a).
[6] 
Infiltration areas should be designed to maintain any broad and even infiltration pattern which existed prior to development. Such facilities should use the natural topography and vegetation in order to blend in with the site. Infiltration designs which do not provide this may be used if the applicant demonstrates to the municipality's satisfaction that alternative approaches would be more effective, more harmonious with their existing environment and as easily maintained.
[7] 
Aboveground stormwater infiltration facilities should be as shallow as possible while still achieving the requirements of this chapter.
(c) 
Water quality improvement shall be achieved in conjunction with or as part of infiltration practices. Water quality improvements shall also be provided for drainage areas not otherwise addressed by infiltration practices either at the source of runoff and/or during conveyance away from the source of runoff.
(d) 
To reduce the need for large retention and/or detention basins designed to satisfy the peak flow attenuation and extended detention requirements, other innovative stormwater management practices located close to the source of runoff generation shall be considered, including a combination of practices (e.g., rooftop storage, open vegetated channels, bioretention, pervious pavement systems and infiltration trenches).
(e) 
When designing stormwater management facilities to satisfy the peak flow attenuation and extended detention requirements, the effect of structural and nonstructural stormwater management practices implemented as part of the overall site design may be taken into consideration when calculating total storage volume and release rates.
(f) 
Site hydrology and natural infiltration patterns shall guide site design, construction and vegetation decisions. All channels, drainageways, swales, natural streams and other surface water concentrations shall be considered and where possible incorporated into design decisions.
(3) 
Minimum performance criteria.
(a) 
The following minimum performance standards shall apply to all applicable activities, whether they are new development or redevelopment, under this chapter:
[1] 
Water quality treatment of stormwater runoff shall be provided for all discharges prior to release to a receiving water body. If a stormwater management practice does not provide water quality treatment, then water quality best management practices shall be utilized prior to the runoff entering the stormwater management practice.
[2] 
Water quality management shall be provided through the use of structural and/or nonstructural stormwater management practices. Water quality stormwater management practices shall be designed to reduce or eliminate solids, sediment, nutrients and other potential pollutants from the site. It is presumed that a stormwater management practice complies with this requirement if it is:
[a] 
Designed according to the specific performance criteria outlined in the Pennsylvania Stormwater Best Management Practices Manual;
[b] 
Constructed in accordance with all permits and approved plans and specifications; and
[c] 
Maintained per an approved operation and maintenance plan or agreement or, in lieu of that, in accordance with customary practices.
[3] 
Stormwater discharges from land uses or activities with higher potential for pollutant loadings (hot spots) may require the use of specific structural stormwater management practices and pollution prevention practices. In addition, stormwater from a hot spot land use shall be provided with proper pretreatment prior to infiltration. For the purpose of this chapter, the sites/facilities listed in § 178-307A(3)(a)[4] below are considered hot spots.
[4] 
Certain industrial sites may be required to prepare and implement a stormwater pollution prevention plan and file notice of intent as required under the provision of the EPA industrial stormwater NPDES permit requirements. Other industrial sites storing significant quantities of chemicals/wastes should also prepare a prevention plan. Owners of properties keeping or storing significant quantities of hazardous materials shall follow the requirements as specified in the current requirements of the Pennsylvania Construction Code Act[3] and its regulations. Sites that are required by EPA to prepare a plan include, but are not limited to:
[a] 
Vehicle salvage yards and recycling facilities;
[b] 
Vehicle and equipment cleaning facilities;
[c] 
Fleet storage areas for buses, trucks, etc.;
[d] 
Marinas (service and maintenance);
[e] 
Facilities that generate or store hazardous materials.
[3]
Editor's Note: See 35 P.S. § 7210.101 et seq.
[5] 
Conveyance structures/channels shall be designed and adequately sized so as to protect the properties receiving runoff from impacts of flooding and erosion. Where necessary, and to the maximum extent permitted under the Municipalities Planning Code[4] and Act 167, or any amendments thereto, drainage easements from adjoining properties shall be obtained to ensure the drainageway and the property and shall also establish the operation and maintenance requirements for the drainageway. Storm drainage systems shall be designed to convey the 100-year storm event to the stormwater management facility or BMP to which they discharge.
[4]
Editor's Note: See 53 P.S. § 10101 et seq.
[6] 
All stormwater management practices shall have an operation and maintenance plan, and if to be privately owned, an enforceable operations and maintenance agreement per § 178-502 of this chapter to ensure the system functions as designed and to provide remedies for system failure.
[7] 
Stormwater runoff generated from development and discharged directly into a jurisdictional wetland or waters of the United States and their adjacent wetlands shall be treated by an approved stormwater management practice prior to release into a natural wetlands and shall not be used to meet the minimum design requirements for stormwater management or stormwater runoff quality treatment, except when used as part of a treatment train that incorporates a portion of the outer zone (filter strip) of the wetland's riparian buffer as a stormwater outfall. In such instances, the discharge velocity from the terminal end of a pipe or associated energy-dissipation practice shall not exceed two feet per second for the two-year frequency storm event. Where such a management strategy is used, all feasible methods shall be used to convert concentrated flow to uniform, shallow sheet flow before entering the outer zone of the wetland's riparian buffer. In addition, it shall be demonstrated that such an approach will not cause erosion.
(b) 
The following minimum performance standards shall apply to all applicable new development activities under this chapter:
[1] 
Water quality improvement shall be achieved in conjunction with or as part of infiltration practices (if used). Water quality improvements shall also be provided for drainage areas not otherwise addressed by infiltration practices either at the source of runoff and/or during conveyance away from the source of runoff. Stormwater quality management practices shall be designed to capture and treat stormwater runoff generated by the one-inch rainfall event. Refer to § 178-307B(1)(b) for water quality volume design standards and assumptions. Stormwater quality management practice selection, design and implementation shall be based upon appropriate reference materials.
[2] 
The post-development peak discharge rate shall not exceed the predevelopment peak discharge rate multiplied by the subbasin release rate percentage for the two-year, ten-year, twenty-five-year, and 100-year twenty-four-hour storm events pursuant to the predevelopment cover assumption.
[3] 
Facilities capable of attenuating rainfall runoff shall be provided and be designed to attenuate the runoff volume from the one-year, twenty-four-hour storm event for at least 24 hours.
[4] 
Stormwater shall be infiltrated and/or discharged within the same drainage area of the stream receiving the runoff from the development site prior to development.
[5] 
Structural and nonstructural stormwater management practices that make best possible use of infiltration on site shall be considered in all site designs, when appropriate.
(c) 
The following minimum performance standards shall apply to all applicable redevelopment activities:
[1] 
One of the following minimum performance standards shall be accomplished. Selection of the performance standard shall be whichever is most appropriate for the given site conditions:
[a] 
Reduce the total impervious cover on the site (e.g., by using pervious pavement, replacement of pavement with pervious planting areas or green roof systems) by at least 25%, based on a comparison of existing impervious cover to proposed impervious cover; or
[b] 
Provide facilities designed to attenuate the runoff volume from the one-year, twenty-four-hour post-development storm event for at least 24 hours; or
[c] 
Provide facilities to ensure that the post-development peak discharge rate shall not exceed the predevelopment peak discharge rate multiplied by the subbasin release rate percentage for the two-year and ten-year, twenty-four-hour storm events. A predevelopment cover CN of 71 shall be assumed.
[2] 
In addition to the minimum performance standards for redevelopment areas, water quality improvements shall be provided for drainage areas not otherwise addressed by infiltration practices either at the source of runoff and/or during conveyance away from the source of runoff. Stormwater quality management facilities shall be designed to capture and treat 1/4 inch of runoff from all pavement areas (i.e., parking lots, pavements and noncovered sidewalks). Roof area may be excluded from this calculation.
B. 
Standards for stormwater management practices. The Pennsylvania Stormwater Best Management Practices Manual shall serve as a guide for the design of stormwater management practices. Additional design guidance may also be obtained from other related sources, including the 2000 Maryland Stormwater Design Manual, Volumes I and II (MDE, 2000); Design of Stormwater Filtering Systems (CWP, 1996); and the American Society of Civil Engineers Manual and Report on Engineering Practice, No. 87, Urban Runoff Quality Management (ASCE, 1998) for the design of stormwater runoff quality control features for site development. A list of references is provided with this chapter. The water quality volume design measures used herein are partially based on the methodology expressed in the Maryland manual referenced above. Pursuant to the design options recommended in the above documents, the following standards shall be adhered to:
(1) 
Extended detention, water quality volume, infiltration and nonstructural BMP credits criteria. The following sizing criteria shall be followed at all sites required to meet the standards of this chapter.
(a) 
Extended detention.
[1] 
Detain the one-year, twenty-four-hour design storm using the SCS Type II distribution. Provisions shall be made so that the one-year storm takes a minimum of 24 hours to drain from the facility from a point where the maximum volume of water from the one-year storm is captured, (i.e., the maximum water surface elevation is achieved in the facility). Release of water can begin at the start of the storm (i.e., the invert of the water quality orifice is at the invert of the facility). The design of the facility shall consider and minimize the chances of clogging and sedimentation potential.
[2] 
Detention ponds shall detain the one-year storm event and allow it to naturally infiltrate and recharge the groundwater table. All subsequent orifices for the two-, ten-, twenty-five- and 100-year storm events shall be placed above the maximum water surface elevation of the one-year storm.
[3] 
Flow from off-site areas must be considered as pass-through flow if it is conveyed through the BMP and should be modeled as "present condition" for the one-year storm event.
[4] 
The length of overland flow used in time-of-concentration (tc) calculations is limited to no more than 100 feet for post-development conditions.
[5] 
The models TR-55 and TR-20 (or approved equivalent) can be used for determining peak discharge rates.
(b) 
Water quality volume.
[1] 
Treatment of the water quality volume (WQv) of stormwater prior to its release to receiving waters or water bodies shall be provided at all developments where stormwater management is required. The WQv equals the storage volume needed to capture and treat the runoff from storms of one inch or less. Runoff from the first one inch of rainfall transports most of the total pollutant load. The WQv is based on the following equation:
WQv = [(P)(Rv)(A)]/12 (acre-feet)
Where:
P = rainfall depth in inches (set to 1 inch)
Rv = volumetric runoff coefficient, 0.05 + 0.009(I), where I is percent impervious cover (Impervious Area/Total Area x 100%)
A = site area (acres)
[2] 
The formula assumes approximately 5% runoff from pervious surfaces and 90% runoff from impervious surfaces. A minimum of 0.2 inch per acre of runoff volume shall be met at sites or in drainage areas that have less than 15% impervious cover.
[3] 
Drainage areas having no impervious cover and no proposed disturbance during development may be excluded from the WQv calculations. However, designers are encouraged to incorporate water quality treatment practices for these areas.
[4] 
Stormwater quality treatment. The final WQv shall be treated by an acceptable stormwater management practice(s) from those described in this section or as approved by the municipality.
[5] 
For new developments and redevelopments, infiltration is considered an acceptable method of satisfying part or all of the water quality volume.
[6] 
For new developments, the WQv requirements of this section shall be sized and designed in conjunction with the standards under § 178-307B(1)(a).
[7] 
As a basis for design, the following assumptions may be made:
[a] 
Multiple drainage areas. When a project contains or is divided by multiple drainage areas, the WQv volume shall be addressed for each drainage area.
[b] 
Off-site drainage areas. The WQv shall be based on the impervious cover of the proposed site. Off-site existing impervious areas may be excluded from the calculation of the water quality volume requirements.
[c] 
Infiltration volume. Where possible, all of the water quality volume should be treated using infiltration BMPs. The following calculation shall be used to determine the minimum recharge goal for the site:
Recharge volume (Rev), (acre-feet)
Fraction of WQv, depending on soil hydrologic group.
Rev = (S)(Ai); where S = soil specific recharge factor in inches
Ai = the measured impervious cover
Soil Recharge Factors(S) for Hydrologic Soil Groups
Hydrologic Soil Group
Soil-Specific Recharge Factor (S)
A
0.40 inch
B
0.25 inch of runoff
C
0.10 inch of runoff
D
0.05 inch of runoff
[i] 
Infiltrated volume may be subtracted from the total site WQv.
[ii] 
Infiltration should not be considered for sites or areas of sites that have activities that may allow pollution to be infiltrated. For example, the use of infiltration for the runoff of a service station's paved lot would not be appropriate, although roof water from the service station may be infiltrated.
[iii] 
Infiltration should only be used when in the opinion of a professional engineer it will not contribute to slope instability or cause seepage problems into basements or developed downgradient areas.
[iv] 
If more than one hydrologic soil group is present at a site, a composite recharge volume shall be computed based upon the proportion of total site area within each hydrologic soil group.
[v] 
All infiltration facilities shall be set back at least 15 feet from all structures with subgrade elements (e.g., basements, foundation walls).
(c) 
Credits for use of nonstructural BMPs. The developer may obtain credits for the use of nonstructural BMPs, as well as within the Pennsylvania Best Management Practice Manual.
(2) 
Stormwater infiltration practices.
(a) 
In selecting the appropriate infiltration BMPs, the applicant shall consider the following:
[1] 
Permeability and infiltration rate of the site soils.
[2] 
Slope and depth to bedrock.
[3] 
Seasonal high-water table.
[4] 
Proximity to building foundations and wellheads.
[5] 
Erodibility of soils.
[6] 
Land availability and topography.
[7] 
Slope stability.
[8] 
Effects on nearby properties and structures.
(b) 
A detailed soils evaluation of the project site shall be performed to determine the suitability of infiltration BMPs and the extent to which infiltration systems can be used. The evaluation shall be performed by a qualified professional and, at a minimum, address soil types, soil permeability, depth to bedrock, limitations of soil, presence/absence of carbonate geology, susceptibility to subsidence and/or sinkhole formation, and stability of subgrade and slope. The testing and evaluation shall be completed at the preliminary design stage. The general process for designing the infiltration BMP shall be:
[1] 
Analyze hydrologic soil groups as well as natural and man-made features within the watershed to determine general areas of suitability for infiltration BMPs.
[2] 
Provide field-testing data to determine appropriate percolation rate and/or hydraulic connectivity.
[3] 
Design infiltration BMPs for required stormwater volume based on field-determined capacity at the level of the proposed infiltration surface.
[4] 
Infiltration requirements shall be based on the portions of the site that are permeable prior to disturbance and the degree to which development will reduce the permeability of the site. Permeability of the site shall be determined based on the detailed evaluations described herein. Use of stormwater management facilities to retain stormwater for infiltration should be applied to all areas where the soils evaluation indicates favorable conditions. Areas generally not favorable for infiltration shall still be provided with an appropriate water quality practice.
[5] 
Soil infiltration tests shall be performed to a minimum depth or elevation of four feet below the bottom of the proposed infiltration areas. These tests shall follow the procedures of percolation test holes as established by Appendix C of the Pennsylvania Stormwater BMP Manual for on-lot septic systems. The testing shall include a test pit and percolation test holes. The test hole shall be excavated to a depth so that the presence or absence of bedrock and/or seasonal high-water table can be determined. A soil log describing the soils present in each test pit shall be performed. All test holes used for evaluating the percolation rate shall be presoaked in accordance with the procedures established by Appendix C of the Pennsylvania Stormwater BMP Manual. The location and number of test pits and percolation holes shall be determined based on the type(s) of stormwater management facilities being designed. Acceptability of infiltration rates shall be based on sound engineering judgment and recommended design considerations described in the design manuals listed in the references or other source material acceptable to the Municipal Engineer.
(c) 
Soil characteristics, as subject to the specific considerations below:
[1] 
Infiltration BMPs are particularly appropriate in hydrologic soil groups A and B, as described in the Natural Resources Conservation Manual TR-55.
[2] 
Low-erodibility factors ("K" factors) are preferred for the construction of basins.
[3] 
There must be a minimum depth of 48 inches between the bottom of any facility and the seasonal high-water table and/or bedrock (limiting zones); except for infiltration BMPs receiving only roof runoff, which shall be placed in soils having a minimum depth of 24 inches between the bottom of the facility and the limiting zone.
[4] 
There must be an infiltration and/or percolation rate sufficient to accept the additional stormwater load and to drain completely as determined by field tests.
[5] 
The infiltration system shall have positive overflow controls to prevent storage within one foot of the finished surface or grade.
[6] 
Infiltration rates shall not be used in computing the storage volume of the infiltration system.
[7] 
Surface inflows shall be designed to prevent direct discharge of sediment into the infiltration system.
(d) 
The recharge volume provided at the site shall be directed to the most permeable hydrologic soil group available, except where other considerations apply, such as in limestone geology.
(e) 
Any infiltration BMP shall be capable of completely infiltrating the impounded water within 48 hours. The forty-eight-hour period is to be measured from the end of the twenty-four-hour design storm.
(f) 
The municipality may require additional analyses for stormwater management facilities proposed for susceptible areas, such as:
[1] 
Strip mines.
[2] 
Storage areas for salt, chloride, other materials for winter deicing.
[3] 
Unstable slopes.
(g) 
In susceptible areas, the applicant is required to provide:
[1] 
Design(s) addressing these special issues;
[2] 
A verification of the presence or nonpresence of limestone;
[3] 
A detailed geologic report describing the findings and recommendations; and
[4] 
A statement signed and sealed by a licensed geologist affirming: "I certify that the proposed facility is/is not underlain by limestone."
(h) 
During the period of land disturbance, runoff shall be controlled prior to entering any proposed infiltration area. Areas proposed for infiltration BMPs shall be protected from sedimentation and compaction during the construction phase so as to maintain their maximum infiltration capacity.
(i) 
Infiltration BMPs shall not be constructed nor receive runoff until the entire contributory drainage area to the infiltration BMP has received final stabilization.
(j) 
Infiltration facilities shall be selected based on suitability of soils and site conditions. Acceptable infiltration facilities include, but are not limited to: filter strips or stormwater filtering systems (for example, bioretention facilities, sand filters), open vegetated channels (that is, dry swales and wet swales), infiltration trenches, dry wells, infiltration basins, porous paving systems, retention basins, wet extended detention ponds, riparian corridor management, riparian forested buffers, rooftop runoff management systems, and sand filters (closed or open).
(k) 
Where sediment transport in the stormwater runoff is anticipated to reach the infiltration system, appropriate permanent measures to prevent or collect sediment shall be installed prior to discharge to the infiltration system.
(l) 
All infiltration facilities shall be set back at least 15 feet from all structures with subgrade elements (e.g., basements, foundation walls).
(m) 
All infiltration facilities that serve more than one lot and are considered a common facility shall have a drainage easement. The easement shall provide to the municipality the right of access.
(n) 
The following design and construction standards shall be followed when planning and constructing infiltration BMPs:
[1] 
Where roof drains are designed to discharge to infiltration facilities, they shall have appropriate measures to prevent clogging by unwanted debris (for example, silt, leaves and vegetation). Such measures shall include, but are not limited to, leaf traps, gutter guards, cleanouts and pretreatment chambers.
[2] 
All infiltration facilities shall have appropriate positive overflow controls to prevent storage within one foot of the finished surface or grade, unless a specific amount of surface storage away from pedestrian and vehicular traffic is provided and such areas infiltrate the stored volume within 48 hours after the end of the twenty-four-hour design storm.
[3] 
All infiltration facilities shall be designed to infiltrate the stored volume within 48 hours after the end of the twenty-four-hour design storm.
[4] 
All surface inflows shall be treated to prevent the direct discharge of sediment into the infiltration practice; accumulated sediment reduces stormwater storage capacity and ultimately clogs the infiltration mechanism.
[5] 
During site construction, all infiltration practice components shall be protected from compaction due to heavy equipment operation or storage of fill or construction material. Infiltration areas shall also be protected from sedimentation. Areas that are accidentally compacted or graded shall be remediated to restore soil composition and porosity. Adequate documentation to this effect shall be submitted for review by the Municipal Engineer. All areas designated for infiltration shall not receive runoff until the contributory drainage area has achieved final stabilization.
[6] 
The following procedures and materials shall be required during the construction of all subsurface facilities:
[a] 
All excavation should occur from outside of the filtration facility. If not possible to construct from the outside, excavation shall be performed by a light, rubber-tired piece of equipment to avoid compacting the bottom or sides of the seepage bed/trench or like facility. All construction equipment traffic must also be kept to an absolute minimum.
[b] 
The bottom of the bed and/or trench shall be scarified prior to the placement of aggregate.
[c] 
Only clean-washed aggregate with documented porosity, free of fines, shall be allowed.
[d] 
The bottom, top and sides of all seepage beds, trenches or like facilities shall be covered with drainage fabric. Fabric shall meet the specifications of PennDOT Publication 408, Section 735, Construction Class 1.
[e] 
Where perforated pipes are used to distribute stormwater to the infiltration practice, stormwater shall be distributed uniformly throughout the entire seepage bed/trench or like facility. An observation well(s) and cleanout(s) shall be provided.
[f] 
Pretreatment shall be provided upstream of each unit. Vegetation shall not be the only measure provided.
(3) 
Open vegetated channels.
(a) 
Open vegetated channels are conveyance systems that are engineered to also perform as water quality and infiltration facilities. Such systems can be used for the conveyance, retention, infiltration and filtration of stormwater runoff.
(b) 
Open vegetated channels primarily serve a water quality function (WQv), they also have the potential to augment infiltration. Examples of such systems include, but are not limited to: dry swales, wet swales, grass channels, and biofilters. Open vegetated channels are primarily applicable for land uses such as roads, highways, residential developments (dry swales only) and pervious areas.
(c) 
Open vegetated channels shall be designed to meet the following minimum standards:
[1] 
The channel shall be designed to safely convey the ten-year (or design storm) frequency storm event with a freeboard of at least 12 inches. Freeboard is the difference between the elevation of the design flow in the channel and the top elevation of the channel.
[2] 
The peak velocity of the runoff from the ten-year storm (or design storm) shall be nonerosive for the soil and ground cover provided in the channel.
[3] 
The longitudinal slope shall be no greater than 4%.
[4] 
Channels shall be trapezoidal in cross section.
[5] 
Channels shall be designed with moderate side slopes of four horizontal to one vertical. Flatter side slopes may be necessary under certain circumstances.
[6] 
The maximum allowable ponding time in the channel shall be less than 48 hours.
[7] 
Channels (for example, dry swales) may require an underdrain in order to function and dewater.
[8] 
Channels shall be designed to temporarily store the WQv within the system for a maximum period of 48 hours and a minimum period of one hour.
[9] 
Landscape specifications shall address the grass species, wetland plantings (if applicable), soil amendment and hydric conditions present along the channel.
[10] 
Accumulated sediment within the channel bottom shall be removed when 25% of the original WQv volume has been exceeded. The channel shall be provided with a permanent concrete cleanout marker that indicates the 25% loss level.
[11] 
Check dams along the channel length may be warranted.
[12] 
The bottom of dry swales shall be situated at least two feet above the seasonal high-water table.
(d) 
Additional design information for open vegetated channels is available in Design of Roadside Channels with Flexible Linings, HEC 15, FHWA, September 2005.
(4) 
Retention basins.
(a) 
Retention basins (retention ponds) shall be designed to create a healthy ecological community with sufficient circulation of water to prevent the growth of unwanted vegetation and mosquitoes or other vectors. If circulation cannot be provided via natural means, then artificial aeration and circulation shall be provided. Care shall be taken to landscape retention basins. The minimum contributing drainage area to a retention basin without a groundwater source shall be four acres. The area of the basin may be limited by the drainage area size. If the groundwater source and/or drainage area cannot maintain the water surface elevation necessary to sustain the ecological community, clean water from an outside source shall be provided by the responsible organization.
(b) 
The retention basin shall be of sufficient size to allow the appropriate aquatic community needed to maintain healthy pond ecology and avoid mosquitoes capable of carrying West Nile Virus and other diseases. The Allegheny County Health Department, Pennsylvania Fish and Boat Commission, the Natural Resources Conservation Service, Penn State Cooperative Extension, or other qualified professional consultant shall be consulted during the design of these facilities in order to ensure the health of aquatic communities and minimize the risk of creating mosquito-breeding areas.
(c) 
The inflow from the groundwater source shall be estimated by a qualified professional and included in the geologic report.
(d) 
An outlet structure shall be designed to allow complete drainage of the pond for maintenance.
(e) 
The design of a retention basin shall include the determination of the proposed site's ability to support a viable permanent pool. The design shall take into account such factors as the available and required rate and quality of dry weather inflow, the stormwater inflow, seasonal and longer-term variations in groundwater table, and impacts of potential pollutant loadings.
(f) 
Sediment storage volume equal to at least 20% of the volume of the permanent pool shall be provided.
(g) 
A sediment forebay with a hardened bottom shall be provided at each inlet into the retention basin. The forebay storage capacity shall at minimum be 10% of the permanent pool storage. The forebay shall be designed to allow for access by maintenance equipment for periodic cleaning. A permanent concrete cleanout marker shall be installed in the forebay to indicate the level where 25% of the forebay storage has been used.
(h) 
Emergency spillways shall be sized and located to permit the safe passage of stormwater flows from an unattenuated 100-year post-development storm with one foot of freeboard. The maximum velocities in vegetated spillways excavated in otherwise undisturbed soil shall be analyzed based upon the velocity of peak flow in the emergency spillway during an assumed clogged primary outlet condition. Where maximum velocities exceed design standards contained in the Engineering Field Manual for Conservation Practices (USDA, SCS, July 1984), suitable lining shall be provided. All emergency spillways placed on fill materials shall be lined. Lining for emergency spillways shall incorporate native colors and materials where possible including monoslab revetments, grass pavers, riprap and native stone.
(i) 
Basin and pond embankments must be designed by a professional engineer registered in the Commonwealth of Pennsylvania. The design must include an investigation of the subsurface conditions at the proposed embankment location to evaluate settlement potential, groundwater impacts and the need for seepage controls. The submittal of a geotechnical report from a geotechnical engineer for any embankment over 10 feet in effective height or posing a significant hazard to downstream property or life is required. The selection of fill materials must be subject to approval of the design engineer. Fill must be free of frozen soil, rocks over six inches, sod, brush, stumps, tree roots, wood or other perishable materials. Embankment fills less than 10 feet in fill height must be compacted using compaction methods that would reasonably guarantee that the fill density is at least 90% of the maximum density as determined by standard proctor (ASTM-698). All embankment fills more than 10 feet in fill height must be compacted to at least 90% of the maximum density as determined by standard proctor (ASTM-698) and must have their density verified by field density testing. A PADEP dam permit is required for embankments having a maximum depth of water, measured from the upstream toe of the dam to the top of the dam at maximum storage elevation, of greater than 15 feet, and/or for ponds having contributory drainage area of greater than 100 acres, and/or for impoundments of greater than 50 acre-feet.
(j) 
The embankment's interior slope may not be steeper than 3:1 (three horizontal to one vertical). The exterior slope of the embankment may not exceed 2:1 (two horizontal to one vertical).
(k) 
The minimum embankment width shall be four feet for embankments less than six feet in height, six feet if the embankment is between 6.1 feet and 9.9 feet in height, and eight feet if the embankment is between 10 feet and 15 feet in height.
(l) 
Existing ponds or permanent pool basins can be used for stormwater management, provided that it can be demonstrated that the ponds are structurally sound and meet the design requirements herein.
(m) 
Inlet structures and outlet structures shall be separated to the greatest extent possible in order to maximize the flow path through the retention basin.
(n) 
Retention basins shall be designed to provide a length-to-width ratio of at least 3L:1W as measured in plan view (for example, a ratio of 4L:1W is too narrow).
(o) 
The retention basin depth shall average three feet to six feet.
(p) 
Fencing of the facility is not required if the interior slope of the pond is 4H:1V or flatter and the design also includes a five-foot-wide bench around the pond perimeter at an elevation one foot below the permanent water surface elevation.
(q) 
Any side slopes below the permanent water surface level shall not exceed 3H:1V. Interior side slopes above the permanent water surface level shall not exceed 3H:1V.
(r) 
Stabilization. Proper stabilization structures, including stilling basins, energy dissipators, and channel lining shall be constructed at the outlets of all retention basins and emergency spillways. The stabilization structures shall control water to avoid erosion, reduce velocities of released water and direct water so that it does not interfere with downstream activities.
(s) 
Energy dissipators and/or level spreaders shall be installed to prevent erosion and/or initiate sheet flow at points where pipes or drainageways discharge to or from basins. Level spreaders shall be used only where the maximum slope between the discharge point and the waterway does not exceed 5%. Energy dissipators shall comply with criteria in Hydraulic Design of Energy Dissipators for Culverts and Channels, HEC 14, FHWA July, 2006. Such facilities shall be both functional and harmonious with the surrounding environment; for example, native rock shall be used in constructing dissipators where practical.
(t) 
Discharge points. The minimum distance between a proposed basin discharge point (including the energy dissipater, etc.) and a downstream property boundary shall in no case be less than 15 feet. Where there is discharge onto or through adjacent properties prior to release to a stream, designers shall demonstrate how downstream properties are to be protected. The Municipal Engineer may require that the setback distance be increased based upon factors such as topography, soil conditions, the size of structures, the location of structures, and discharge rates. A drainage easement may also be required.
(u) 
Outlet structures. Outlet structures shall meet the following specifications:
[1] 
To minimize clogging and to facilitate cleaning and inspecting, outlet pipes shall have an internal diameter of at least 15 inches and a minimum grade of 1%.
[2] 
Bentonite plugs shall be provided on all outlet pipes within a constructed berm.
[3] 
All principal outlet structures shall be built using reinforced concrete with watertight construction joints.
[4] 
The use of architecturally treated concrete, stucco, painted surface or stone facade treatment shall be considered for enhancing the outlet structure. Such facilities shall be both functional and harmonious in design with the surrounding environment.
[5] 
Outlet pipes shall be constructed of reinforced concrete with rubber gaskets in conformance with AASHTO M170, M198 and M207, or smooth interior HDPE pipe in conformance with AASHTO M252 or M294.
[6] 
Basin outlet structures shall have childproof nonclogging trash racks over all design openings exceeding 12 inches in diameter except those openings designed to carry perennial stream flows. Periodic cleaning of debris from trash racks shall be included in the operation and maintenance plan.
[7] 
Antivortex devices, consisting of a thin vertical plate normal to the basin berm, shall be provided at the top of all circular risers or standpipes.
(5) 
Detention basins.
(a) 
The landscape standards of § 178-307C shall apply.
(b) 
The maximum inside side slopes shall not exceed three horizontal to one vertical (3H:1V). The minimum required slope for the basin bottom is 2%. A level bottom is acceptable, provided the designer demonstrates to the municipality's satisfaction that the basin bottom will be landscaped with appropriate wetland vegetation. In addition, detention basins of sufficient size and slope may serve other functions as well, including recreational uses which do not hinder or conflict with the function of the detention basin.
(c) 
Inlet structures. The inlet pipe invert into a basin shall be six inches above the basin floor or lining so that the pipe can adequately drain after rainstorms. Inlets shall discharge into areas of the basin that slope toward the outlet structure.
(d) 
Inlet structures and outlet structures shall be separated to the greatest extent possible in order to maximize the flow path through the detention basin.
(e) 
Low-flow channels. Low-flow channels constructed of concrete or asphalt are not permitted. Where low-flow channels are necessary, they shall be composed of a natural or bioengineered material. Low-flow channels shall be designed to promote water quality and slow the rate of flow through the basin. Low-flow channels may also be designed to infiltrate where practical.
(f) 
Outlet structures. Outlet structures shall meet the following specifications:
[1] 
To minimize clogging and to facilitate cleaning and inspection, outlet pipes shall have an internal diameter of at least 15 inches and a minimum grade of 1%.
[2] 
Bentonite plugs shall be provided on all outlet pipes within a constructed berm.
[3] 
All principal outlet structures shall be built using reinforced concrete with watertight construction joints.
[4] 
The use of architecturally treated concrete, stucco, painted surface or stone facade treatment shall be considered for enhancing the outlet structure. Such facilities shall be both functional and harmonious in design with the surrounding environment.
[5] 
Outlet pipes shall be constructed of reinforced concrete with rubber gaskets in conformance with AASHTO M170, M198 and M207, or smooth interior HDPE pipe in conformance with AASHTO M252 or M294.
[6] 
Energy-dissipation facilities that convert concentrated flow to uniform shallow sheet flow shall be used where appropriate.
[7] 
Basin outlet structures shall have childproof nonclogging trash racks overall design openings exceeding 12 inches in diameter except those openings designed to carry perennial stream flows.
[8] 
Antivortex devices, consisting of a thin vertical plate normal to the basin berm, shall be provided at the top of all circular risers or standpipes.
(g) 
Emergency spillways shall be sized and located to permit the safe passage of stormwater flows from an unattenuated 100-year post-development storm with one foot of freeboard. The maximum velocities in vegetated spillways excavated in otherwise undisturbed soil shall be analyzed based upon the velocity of peak flow in the emergency spillway during an assumed clogged primary outlet condition. Where maximum velocities exceed design standards contained in the Engineering Field Manual for Conservation Practices (USDA, SCS, July 1984), suitable lining shall be provided. In general, emergency spillways should not be located in fill areas; all such facilities placed on fill materials shall be lined. Lining for emergency spillways shall incorporate native colors and materials where possible, including monoslab revetments, grass pavers, riprap and native stone.
(h) 
Basin and pond embankments must be designed by a professional engineer registered in the State of Pennsylvania. The design must include an investigation of the subsurface conditions at the proposed embankment location to evaluate settlement potential, groundwater impacts, and the need for seepage controls. The submittal of a geotechnical report from a geotechnical engineer for any embankment over 10 feet in effective height or posing a significant hazard to downstream property or life is required. The selection of fill materials must be subject to the approval of the design engineer. Fill must be free of frozen soil, rocks over six inches, sod, brush, stumps, tree roots, wood or other perishable materials. Embankment fills less than 10 feet in fill height must be compacted using compaction methods that would reasonably guarantee that the fill density is at least 90% of the maximum density as determined by standard proctor (ASTM-698). All embankment fills more than 10 feet in fill height must be compacted to at least 90% of the maximum density as determined by standard proctor (ASTM-698) and must have their density verified by field density testing. A PADEP dam permit is required for embankments having a maximum depth of water, measured from the upstream toe of the dam to the top of the dam at maximum storage elevation, of greater than 15 feet, and/or for ponds having contributory drainage area of greater than 100 acres, and/or for impoundments of greater than 50 acre-feet.
(i) 
The embankment's interior slope may not be steeper than 3:1 (three horizontal to one vertical). The exterior slope of the embankment may not exceed 2:1 (two horizontal to one vertical).
(j) 
The minimum embankment width shall be four feet for embankments less than six feet in height, six feet if the embankment is between 6.1 feet and 9.9 feet in height and eight feet if the embankment is between 10 feet and 15 feet in height.
(k) 
Fencing of the facility is not required if the interior slope of the pond is 4:1 or flatter.
(l) 
Freeboard. Freeboard is the difference between the elevation of the design flow in the emergency spillway (usually the 100-year peak elevation) and the top elevation of the settled basin embankment (that is, top of berm). The minimum freeboard shall be one foot.
(m) 
Energy dissipators and/or level spreaders shall be installed to prevent erosion and/or initiate sheet flow at points where pipes or drainageways discharge to or from basins. Level spreaders shall be used only where the maximum slope between the discharge point and the waterway does not exceed 5%. Energy dissipators shall comply with criteria in Hydraulic Design of Energy Dissipators for Culverts and Channels, HEC 14, FHWA, July 2006. Such facilities shall be both functional and attractive; for example, native rock shall be used in constructing dissipators where practical.
(n) 
Stabilization. Proper stabilization structures, including stilling basins, energy dissipators and channel linings, shall be constructed at the outlets of all basins and emergency spillways. The stabilization structures shall control water to avoid erosion, reduce velocities of released water and direct water so that it does not interfere with downstream activities.
(o) 
Discharge points. The minimum distance between a proposed basin discharge point (including the energy dissipator, etc.) and a downstream property boundary shall in no case be less than 15 feet. Where there is discharge onto or through adjacent properties prior to release to a stream, designers shall demonstrate how downstream properties are to be protected. The Municipal Engineer may require that the setback distance be increased based upon factors such as topography, soil conditions, the size of structures, the location of structures, and discharge rates. A drainage easement may also be required.
(p) 
A sediment forebay with a hardened bottom shall be provided at each inlet into the detention basin. The forebay storage capacity shall, at a minimum, be 10% of the permanent pool storage. The forebay shall be designed to allow for access by maintenance equipment for periodic cleaning.
(q) 
All detention facilities shall be provided with an access road for maintenance purposes. Such roads shall be a minimum of 10 feet in width and have a maximum grade of 15%.
(6) 
Conveyance systems (open channels, drainageways, and storm sewers).
(a) 
Applicants are encouraged to design conveyance systems that encourage infiltration and improve water quality wherever practicable.
(b) 
Wherever conveyance channels are necessary, drainage shall be maintained by an open channel with landscaped banks designed to carry the ten-year, twenty-four-hour stormwater runoff from upstream contributory areas. The Municipal Engineer may increase the design storm, as conditions require. All open channels shall be designed with one foot of freeboard above the design water surface elevation of the design runoff condition.
(c) 
Flood relief channels shall be provided and designed to convey the runoff from the 100-year, twenty-four-hour storm, such that a positive discharge of this runoff to an adequate receiving stream or conveyance system occurs without allowing this runoff to encroach upon other properties.
(d) 
Manholes and/or inlets shall not be spaced more than 300 feet apart for pipe sizes up to 24 inches in diameter and not more than 450 feet apart for larger pipe sizes.
(e) 
Where drainage swales are used in lieu of or in addition to storm sewers, they shall be designed to carry the required runoff without erosion and in a manner not detrimental to the properties they cross. Drainage swales shall provide a minimum grade of 2% but shall not exceed a grade of 9%. Drainage swales used strictly for conveyance are not the same as open vegetated channels. Design standards for open vegetated channels are provided under § 178-307C(3) of this chapter.
(f) 
Street curbing for the purpose of stormwater conveyance in rural areas is discouraged. On streets that must contain curbing, storm sewers shall be placed in front of the curbing. To the greatest extent possible, storm sewers shall not be placed directly under curbing. At curbed street intersections, storm inlets shall be placed in the tangent section of the road.
(g) 
Use of grassed swales or open vegetated swales in lieu of curbing to convey, infiltrate and/or treat stormwater runoff from roadways is encouraged. Inlets shall be placed at the center of the shoulder swale draining the street and shall be located no closer than four feet from the edge of the cartway.
(h) 
The developers shall obtain or grant a minimum twenty-foot-wide drainage easement over all storm sewers, drainage swales, channels, etc., that are a component of the stormwater management system when located within undedicated land. All permanent detention basins and/or other stormwater management facilities providing stormwater control for other than a single residential lot shall be located within a defined drainage easement that allows proper legal access and maintenance vehicle access.
(i) 
No property owner shall obstruct or alter the flow, location or carrying capacity of a stream, channel or drainage swale to the detriment of any other property owner, whether upstream or downstream. All subdivision and/or land development plans containing streams, channels, drainage swales, storm sewers or other conveyance systems that cross property boundaries, existing or proposed, or whose discharge crosses such boundaries shall contain a note stating the above.
(j) 
Water quality inlets. Storm drainage systems that collect runoff from parking areas and/or loading areas exceeding 10,000 square feet of impervious coverage and discharge to stormwater management systems, including surface or subsurface infiltration systems, shall have a minimum of one water quality inlet per each acre of drainage area. The purpose of water quality inlets is to remove oil, grease and heavy particulates or total suspended solids, hydrocarbons and other floating substances from stormwater runoff. Methods other than water quality inlets may be permitted if the applicant demonstrates to the municipality's satisfaction that any such alternative will be as effective and as easily maintained. Periodic cleaning of these systems shall be addressed in the operation and maintenance plan submitted to the municipality.[5]
[5]
Editor's Note: Former Subsection B(6)(k), regarding other best management practices, which immediately followed, was repealed 10-18-2023 by Ord. No. 682-2023.
(7) 
Underground detention facilities.
[Added 10-18-2023 by Ord. No. 682-2023]
(a) 
Underground detention tanks shall utilize the largest practicable pipe diameter in order to provide ease of access and maintenance.
(b) 
Design measures must be implemented to prevent pipe flotation and allow for visual inspection capabilities, adequate pipe ventilation, and access maintenance.
(c) 
Underground facilities shall be designed parallel to existing and/or proposed contours.
(d) 
The underground facilities shall be designed to include overflow controls able to pass the unattenuated 100-year-peak storm without overtopping the access point.
(e) 
A minimum forty-eight-inch diameter manhole with steps must be provided at either end of the facility and at all terminal ends and junctions for maintenance purposes. A minimum of two accesses must be provided.
(f) 
Maximum life expectancy of the underground system shall also be a design consideration for pipe material specifications. The use of corrugated metal pipe (CMP) for underground facilities proposed for ownership and maintenance by the Borough is prohibited.
(g) 
For underground rock sumps, refer to Appendix E of this chapter.[6]
[6]
Editor's Note: Appendix E is included as an attachment to this chapter.
(8) 
Other best management practices that appear within the Pennsylvania Best Management Practice Manual may be utilized within the Borough. However, use of BMPs not described within this chapter will be subject to a thorough review by the Borough Engineer and approval from the Borough prior to implementation. This would include, but is not limited to, such practices as bioretention, rain barrels, sand filters, etc.
[Added 10-18-2023 by Ord. No. 682-2023]
C. 
Landscaping of stormwater management facilities. Stormwater management facilities shall be landscaped in accordance with the following standards:
(1) 
Landscaping shall be required in and around all constructed stormwater management facilities with a minimum surface area of 1,000 square feet for the purposes of:
(a) 
Assisting in the management of stormwater;
(b) 
Stabilizing the soil within such facilities to minimize and control erosion;
(c) 
Enhancing the visual appearance of such facilities; and
(d) 
Mitigating maintenance problems commonly associated with the creation of such facilities.
(2) 
A planting plan and planting schedule shall be submitted in accordance with the following:
(a) 
Wet meadows, including floors of stormwater management facilities.
[1] 
Wet meadows and floors of stormwater management facilities shall be planted with noninvasive plants native to western Pennsylvania, such as wildflowers and noninvasive grasses, the intent being to create a mixed meadow of such plantings where appropriate. Selection of plantings shall be based on whether the area in question is usually well drained or permanently wet and whether the area will be used for recreation purposes. No woody plants shall be planted within the saturated zone (phreatic line) of a stormwater management practice or on a berm constructed for impounded water.
[2] 
Seeding by drills, corrugated rollers, cyclone or drop seeders or hand seeding of such areas is preferred; however, hydroseeding followed by hydromulching can be used on wet ground and steep slopes.
[3] 
Fertilizers, as a nutrient supplement, shall not be used unless it is documented that soil conditions warrant such use and nutrient applied does not exceed plant uptake. Soil for planting of wildflowers shall contain not less than 3% or more than 10% organic matter, as determined by an agricultural chemist, with certification of the test before planting.
[4] 
Seeding shall take place either between April 1 and May 15 or between September 1 and October 15. Planting areas shall be soaked to maintain a consistent level of moisture for at least four to six weeks after planting. For seeding recommendations, reference the DEP's E&S Pollution Control Program Manual.
[5] 
Once established, a single annual mowing when plants are dormant should be sufficient to maintain a wet meadow and/or floor of a stormwater management practice.
(b) 
Wet edges that remain wet all or most of the year shall be planted with wildflowers, grasses and shrubs. Plants to be located on rims or banks, which remain dry most of the year, shall be planted with species tolerant of dry soil conditions.
(c) 
Wooded areas.
[1] 
Where stormwater management facilities adjoin wooded areas, trees and shrubs shall be selected and planted outside the practice so as to blend with existing surroundings.
[2] 
Plantings in such areas shall be of sufficient density to eliminate the need for mowing.
[3] 
It is recommended that clusters of trees and shrubs be planted around stormwater management facilities but well away from outfalls and any constructed berms, where applicable, to provide for wildlife habitat, wind control and buffering and screening.
[4] 
Vegetation shall be planted during appropriate times of the year, predominantly between late March and mid-May or from early October until evidence of ground freezing, depending upon the species selected. Most deciduous trees and shrubs can be planted in either spring or fall. Evergreens are best planted in late summer or early fall.
(d) 
Slopes.
[1] 
Where slopes are gentle, a mixture of meadow grasses and wildflowers (for wet meadows) shall be planted.
[2] 
On steep slopes as defined by the municipality's Code of Ordinances, dense spreading shrubs (shrubs tolerant of dry soils) shall be planted. Heavy mat mulch shall be used during the period of establishment.
[3] 
No woody plant materials or trees shall be located on a constructed or natural berm acting as the impoundment structure of a stormwater management practice. Trees shall be located downstream of an impoundment berm a sufficient distance from the toe of the constructed slope to assure that the toe of the slope is outside the dripline of the species planted at maturity but in no case less than 15 feet.
(e) 
In cases where stormwater management facilities are to be located in proximity to wetlands or waterways, the applicant's planting plan and schedule shall consider the sensitive conditions existing therein and be modified accordingly to reflect existing flora.
(f) 
Stormwater management facilities shall be screened in a manner which complements the existing landscape and provides sufficient access for maintenance.
(g) 
All landscaping plans must be sealed by a professional landscape architect (PLA) registered in the Commonwealth of Pennsylvania.
D. 
Stream buffer requirements. Stream buffers shall be provided for new development sites as per the following requirements:
(1) 
A minimum stream buffer width of 50 feet landward in each direction from the top of stream banks is required for all waterways having both a defined bank and a contributing watershed area of greater than 100 acres.
(2) 
A minimum stream buffer width of 15 feet landward in each direction from the center line of the waterway is required for smaller waterways having a contributing watershed area of less than 100 acres and greater than 10 acres.
(3) 
The stream buffer area should be maintained in a natural state.
(4) 
When wetland(s) extend beyond the edge of the required buffer width, the buffer shall be adjusted so that the buffer consists of the extent of the wetland plus a twenty-five-foot zone extending beyond the wetland edge.
(5) 
Stream buffer averaging may be applied to account for encroachments such as road crossings. The following criteria must be met in order to utilize buffer averaging on a development site:
(a) 
Buffer averaging is required for water quality buffers that have stream crossings.
(b) 
An overall average buffer width of at least 50 feet must be achieved within the boundaries of the property to be developed. Stream buffer corridors on adjoining properties cannot be included with buffer averaging on a separate property, even if owned by the same property owner.
(c) 
The average width must be calculated based upon the entire length of stream bank that is located within the boundaries of the property to be developed. When calculating the buffer length, the natural stream channel should be followed.
(d) 
Stream buffer averaging shall be applied to each side of a stream independently. If the property being developed encompasses both sides of a stream, buffer averaging can be applied to both sides of the stream but must be applied to both sides of the stream independently.
(e) 
On each stream bank, the total width of the buffer shall not be less than 25 feet at any location, except at approved stream crossings. Those areas of the buffer having a minimum width of 25 feet (or less at approved stream crossings) can comprise no more than 50% of the buffer length.
(6) 
Stream buffer locations and widths should be illustrated on all subdivision plans with notations requiring that they be maintained in a natural state.
(7) 
Stream buffers should be illustrated on all grading and erosion and sedimentation control plans. The defined stream buffer location should be properly recorded. The recording should provide a plan illustrating the stream buffer location, width and the requirement that it be maintained in a natural state.