A.
General requirements.
(1)
The developer of any project within the Township, with the exception of those projects exempted from the requirements of this chapter in § 428-10, shall submit an application for and obtain approval of a stormwater management permit or stormwater management plan, as applicable.
(2)
All stormwater management plans and reports prepared in accordance
with this article shall be designed, signed, and sealed by individuals
registered in the Commonwealth of Pennsylvania and qualified to perform
such duties.
(3)
When a project is proposed to be developed in phases or sections
and the developer submits stormwater management plan for each section
or phase, all proposed temporary facilities required for construction
of a section or phase shall be included in the submitted stormwater
management plan for that section.
(4)
Where applicable, stormwater management facilities shall comply with
the requirements of Chapter 105. These requirements apply to the construction,
modification, operation or maintenance of both existing and proposed
water obstructions and encroachments throughout the watershed, including
work in wetlands.
(5)
Stormwater management facilities that involve a state highway shall
also be subject to the approval of PennDOT.
(6)
Stormwater management facilities located within or affecting the floodplain or any watercourse shall also be subject to the requirements of § 428-17D of this chapter, Chapter 450, Zoning, any ordinance which regulates construction and development within areas of the Township subject to flooding, and any other applicable requirements of Act 166, the Pennsylvania Flood Plain Management Act.[1]
[1]
Editor's Note: See 32 P.S. § 679.101 et seq.
(7)
Runoff from impervious surface areas shall be drained to pervious
areas of the project site.
(8)
Roof drains shall not be connected to sanitary or storm sewers, roadside
ditches, or to streets or gutters through the curbing.
(9)
Stormwater runoff from a project site shall flow directly into a
natural watercourse or into an existing storm sewer system, or onto
adjacent properties in an approved manner similar to the runoff characteristics
of the predevelopment flow.
(10)
Stormwater runoff shall not be transferred from one watershed
to another unless the watersheds are subwatersheds of a common watershed
which join together within the perimeter of the project site, or the
effect of the transfer does not alter the peak discharge onto downstream
lands, or drainage easements from the affected landowners are provided.
(11)
All stormwater runoff flowing over the project site shall be
considered in the design of the stormwater management facilities.
This includes existing points of concentrated drainage that discharge
onto adjacent property. Existing concentrated drainage shall not be
relocated and shall be subject to any applicable discharge criteria
specified in this chapter.
(12)
Where a project site is traversed by watercourses other than
permanent streams, the developer shall provide a drainage easement
conforming substantially to the line of such watercourses. The terms
of the easement shall prohibit excavation, the placing of fill or
structures, and any alterations that may affect adversely the flow
of stormwater within any portion of the easement. Requirements of
the easement shall also conform to the riparian buffer area standards.
(13)
Where watercourses traverse a site and are eroded, or have been
channelized or "armored," the project shall include natural stream
channel design techniques to stabilize and recreate natural habitat.
Natural products and native species shall be used. The design and
construction shall comply with the principles and requirements of
"Stream Corridor Restoration: Principles, Processes, and Practices,"
by the Federal Interagency Stream Restoration Working Group.
(14)
Stormwater drainage systems shall be provided in order to permit
unimpeded flow along natural watercourses.
(15)
Other innovative methods for the management of stormwater runoff
rates and volumes may also be approved by the Township. Various combinations
of methods should be tailored to suit the particular requirements
of the type of development and the topographic features of the project
site. The following is a partial listing of control methods which
can be utilized in stormwater management systems where appropriate
and when approved by the Township Engineer.
(a)
Infiltration pits, infiltration trenches or other infiltration
structures.
(b)
Concrete lattice-block surfaces.
(c)
Grassed channels and vegetated strips.
(d)
Cisterns and underground reservoirs.
(e)
Routed flow over grass.
(f)
Decreased impervious surface coverage.
(g)
Constructed wetlands.
(h)
Retention basins subject to prior Township approval.
(i)
Rooftop storage.
(j)
Detention basins (extended or conventional).
(k)
Other best management practices.
(16)
Predevelopment and post-development drainage area maps including
time of concentration (Tc) segmental flow path information, existing
and proposed features, and acreages.
B.
Permanent stormwater management standards. The developer shall demonstrate
by substantial evidence that the stormwater management facilities
for the project will meet or exceed all of the following standards
independently:
(1)
Standard 1: Water volume controls shall be implemented using the design storm method in Subsection A(1) or the simplified method in Subsection B(1)(a) below. For regulated activity areas equal or less than one acre that do not require hydrologic routing to design the stormwater facilities, this chapter establishes no preference for either methodology; therefore, the applicant may select either methodology on the basis of economic considerations, the intrinsic limitations on applicability of the analytical procedures associated with each methodology, and other factors.
(a)
The Design Storm Method (CG-1 in the BMP Manual) is applicable
to any size of regulated activity. This method requires detailed modeling
based on site conditions.
[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.
(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 all new impervious surfaces.
[2]
At least the first one inch of runoff from new 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 for the first one inch of runoff include reuse, evaporation,
transpiration, and infiltration.
[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 stormwater runoff shall be infiltrated.
[4]
This method is exempt from the requirements of § 428-17C(2) for rate controls.
[Amended at time of adoption of Code (see Ch. 1, General
Provisions, Art. I)]
(2)
Standard 2. After installation of impervious or semi-impervious surfaces
or other construction, the post-development peak rate of stormwater
discharges from the project site for all design storms up to and including
a one-hundred-year frequency rainfall shall not exceed the predevelopment
peak rate discharges from the site of the same design storms before
disturbance. Design storms include:
|
1-year, 24-hour storm
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|
2-year, 24-hour storm
|
|
5-year, 24-hour storm
|
|
10-year, 24-hour storm
|
|
25-year, 24-hour storm
|
|
50-year, 24-hour storm
|
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100-year, 24-hour storm
|
(3)
Standard 3. The volume and rate of any stormwater discharges allowed
by this chapter must be managed to prevent the physical degradation
of receiving waters, such as by stream bank scour and erosion. If
a detention facility is proposed that is part of the BMPs approved
for a project, the facility(ies) must be designed to provide for a
twenty-four-hour extended detention of the one-year, twenty-four-hour
storm event (i.e., the stormwater runoff will be released over a minimum
of 24 hours for the one-year, twenty-four-hour storm event). This
shall be calculated incrementally with the smallest allowable vertical
increment of 0.25 feet unless otherwise approved by the Township Engineer.
(4)
Standard 4. The Township shall impose the following additional restrictions
on the stormwater discharges:
(a)
When probable risk to downstream structure(s) or unique natural
area(s) exists or previous (historical) flooding problems could be
further aggravated, the Township shall require the developer to further
restrict peak discharge for each design storm. Restricted peak discharge
shall be 75% of predevelopment peak discharge for the ten-, twenty-five-,
fifty-, and one-hundred-year storm events, and 50% of predevelopment
peak discharge for the one-, two-, and five-year storm events.
(b)
The Township shall impose measures to protect against ground
or surface water pollution from significant pollution producing sources
(so-called "hot spots," including but not limited to industrial uses,
gas stations, fast-food and other commercial uses generating large
numbers of vehicle trips, and other uses at the determination of the
Township) or where the nature of the soils or bedrock underlying a
stormwater management structure constitutes substantial risk of contamination,
such as carbonate areas. The developer shall install special provisions
that act to remove pollutant loadings (including but not limited to
filtration devices like sand peat filters, multiple chamber catch
basins and inlets, oil separators, and others).
(c)
Where groundwater yields are very low or where a groundwater
supply already is heavily used or where maintenance of downstream
wetlands is of special concern, the Township shall require that the
entire volume of the two-year frequency rainfall (3.1 inches in 24
hours) from the project site be retained and infiltrated. If substantial
irrigation needs are anticipated, portion of stored stormwater may
be reused for irrigation purposes.
C.
Stormwater management calculation methods.
(1)
For computation of predevelopment peak discharge rates, 20% existing
impervious area of a project site, when present, shall be considered
meadow.
(2)
The peak discharge of the calculated post-development runoff to an
adjacent property shall be designed so that the peak discharge of
the calculated post-development runoff to an adjacent property does
not exceed the peak discharge of the calculated predevelopment runoff
for a Type II storm event. Runoff calculates for the pre- and post-development
comparison shall be based upon the peak flow from a one-, two-, five-,
ten-, twenty-five-, fifty-, and one-hundred-year storm frequency.
The peak discharges and volumes of runoff shall be determined by using
the latest version of Technical Release No. 55, Urban Hydrology for
Small Watersheds. Other methods of analyzing will be considered on
a case-by-case basis, subject to Township Engineer approval. Runoff
coefficients must consider slope and soil type.
(3)
Soil-Cover-Complex Method.
(a)
If the Soil-Cover-Complex Method is used, stormwater runoff
shall be based on the following Type II twenty-four-hour storm events:
|
Storm Event
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Inches of Rainfall
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|---|---|
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1-year
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2.5
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2-year
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3.2
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5-year
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4.2
|
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10-year
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5.0
|
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25-year
|
5.6
|
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50-year
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6.3
|
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100-year
|
7.1
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(b)
In establishing the antecedent conditions for calculating runoff
prior to land disturbance, the following assumptions shall apply:
[1]
Antecedent moisture condition II (AMC II);
[2]
A type II distribution storm;
[3]
Woodland shall be used as the prior condition for those portions
of the site having trees of greater than six-inch caliper DBH or where
such trees existed within three years of application;
[4]
Lawn shall be used for all other areas, including areas of existing
cultivation or Impervious Surface; unless actual condition will result
in a lower CN value. All cover conditions shall be assumed to be in
"good" condition.
[5]
Woodland Manning's "n" shall assume heavy underbrush.
(4)
Runoff calculations shall include a hydrologic and hydraulic analysis
indicating volume and velocities of flow and the grades, sizes, and
capacities of water-carrying structures, sediment basins, retention
and detention structures and sufficient design information to construct
such stormwater management facilities. Runoff calculations shall also
indicate both predevelopment and post-development peak discharge rates
and volumes of stormwater runoff from the project site.
(5)
For post-development computations, all runoff coefficients within
the project site shall be based on actual or proposed land use assuming
winter or poor land cover conditions. Off-project site land use conditions
used to determine storm flows for designing stormwater management
facilities shall be based on existing land uses assuming winter or
poor land cover conditions.
(6)
Criteria and assumptions to be used in the determination of stormwater
runoff and design of management facilities are as follows:
(a)
Runoff coefficients shall be based on the information contained
in Appendix B[2] if the actual land use is listed in that appendix or shall
be based on an acceptable engineering design method, subject to Township
Engineer approval. If the actual land use in not listed in that appendix,
runoff coefficients shall be chosen from other published documentation,
and a copy of said documentation shall be submitted with this stormwater
management report.
[2]
Editor's Note: Appendix B is included as an attachment to this chapter.
(b)
Appropriate values of rainfall intensity shall be from the latest
edition of the commonwealth of Pennsylvania, Department of Transportation
Design Manual, Part 2, Highway Design, Chapter 10. See Appendix D
for chart.[3]
[3]
Editor's Note: Appendix D is included as an attachment to this chapter.
(c)
Times of concentration shall be based on the following segmental
design parameters:
[1]
Sheet flow. The maximum length for each reach of sheet or overland
flow before shallow concentrated or open-channel flow develops is
150 feet. Flow lengths greater than 100 feet shall be justifiable
based on the actual conditions at each development site.
[2]
Shallow concentrated flow. Travel time for shallow concentrated
flow shall be determined using Figure 3-1 from TR-55, Urban Hydrology
for Small Watersheds, as shown in Appendix G.[4]
[4]
Editor's Note: Appendix G is included as an attachment to this chapter.
[3]
Open channel flow. At points where sheet and shallow concentrated
flows concentrate in field depressions, swales, gutters, curbs, or
pipe collection systems, the travel times and downstream send of the
development site between these design points shall be based upon Manning's
Equation and/or acceptable engineering design standards as determined
by the municipal engineer.
(7)
In calculating runoff after development, those areas covered by concrete
lattice blocks on an appropriate base, porous pavement areas on an
appropriate base, and roof areas which drain to properly designed
and installed storage/groundwater infiltration beds, shall be considered
adequate to infiltrate any increased runoff from a two-year storm
for those areas.
D.
Floodplain methodology. All submittals shall comply with the methodology
set forth below:
(1)
The developer shall delineate the existing and proposed one-hundred-year
floodplains and floodplain elevations on the stormwater management
plan for all watercourses. When the drainage area to the watercourse
is greater than 75 acres, the one-hundred-year floodplain should be
defined as described in latest edition of FEMA Flood Insurance Rate
Maps and Flood Insurance Study. For watercourses with drainage areas
less than 75 acres, the one-hundred-year floodplain shall be defined
as a zone extending 15 feet outward from the top of the bank(s) of
the watercourse. In the event existing flood-prone areas or suspected
flood-prone areas as a result of development where the drainage area
to these locations is less than 75 acres, the Township may require
the developer to perform flood study.
[Amended at time of adoption of Code (see Ch. 1, General
Provisions, Art. I)]
(2)
The developer may use one-hundred-year floodplain and floodplain
elevations as mapped by FEMA as part of the National Flood Insurance
Program for the Township, as last revised, where the following conditions
are met:
(a)
FEMA one-hundred-year flow values do not differ by more than 10% from flow values established by a study performed by an engineer. Methods utilized to determine one-hundred-year flood values for this study shall be based on the methods set forth in § 428-17D(3).
(b)
Sufficient FEMA floodplain cross-sections are located within
and adjacent to the proposed project site, as determined by the Township
Engineer.
(3)
If the floodplains are not mapped by FEMA as part of the National Flood Insurance Program, the horizontal and vertical limits of the floodplains shall be determined utilizing the standard step method (i.e., HEC-RAS or similar approved computer model). The developer shall submit a computer disc containing all input files for the calculations to expedite the floodplain review. The one-hundred-year peak flow values used in the flood study should be calculated in accordance with calculation methodology described in § 428-17C of this chapter. Where available, one-hundred-year peak flow values from approved Act 167 plans should be used.
E.
Design standards for infiltration systems for stormwater management
plans.
(1)
The developer shall select Infiltration structures based on suitability
of soils, slope and depth to bedrock, depth to seasonal high water
table, proximity to building foundations and wellheads, and site conditions.
Measures may include porous pavement with underground infiltration
beds, vegetated infiltration beds, swales and trenches, or other infiltration
structures as proposed in the most recent edition of the Pennsylvania
Handbook of Best Management Practices for Developing Areas and related
references prepared by the EPA, the NRCS, DEP, or other guidance documents.
(2)
A detailed soils evaluation of the project site shall be performed
to determine the suitability of infiltration BMPs. The evaluation
shall be performed by a geologist, and at a minimum, address soil
permeability, depth to bedrock, susceptibility to sinkhole formation,
and subgrade stability. The general process for designing the infiltration
BMP shall be:
(a)
Analyze hydrologic soil groups as well as natural and man-made
features within the watershed to determine general areas of suitability
for infiltration BMPs.
(b)
Provide field testing data to determine appropriate percolation
rate and/or hydraulic conductivity.
(c)
Design infiltration BMPs for required stormwater volume based
on field-determined capacity at the level of the proposed infiltration
surface.
(3)
The lowest elevation of the infiltration area shall be at least two
feet above the seasonal high water table (SHWT) and bedrock, except
in the case of carbonate geology formations, in which case the use
of infiltration systems will be determined on a case-by-case basis.
The Carroll Township Comprehensive Plan may be referenced for further
information on carbonate geology.
(4)
Roof drains shall discharge to infiltration systems, with appropriate
measures, such as leaf traps and clean-outs, taken to prevent clogging
by vegetation.
(5)
All infiltration systems shall have appropriate positive overflow
controls.
(6)
All infiltration systems shall have a minimum setback of 20 feet
from all residential structures. The developer shall prevent any seepage
into subgrade structures.
(7)
All infiltration systems shall be designed to infiltrate the stored
volume within 48 hours.
(8)
All surface inflows shall be treated to prevent the direct discharge
of sediment into the infiltration system. Site design should consider
directing runoff from pervious surfaces (i.e., landscaped areas) away
from infiltration structures to prevent clogging.
(9)
The developer shall employ special provisions when using infiltration
BMPs in carbonate areas or mined areas to avoid groundwater contamination
and solution channel/sinkhole formation.
(a)
The developer shall submit a detailed geological evaluation
of the project site to determine the suitability of infiltration facilities,
including the potential for groundwater contamination and sinkhole
formation. The evaluation shall be conducted by a geologist and, at
a minimum, address soil permeability, depth to bedrock, depth to bedrock,
seasonal high water table, susceptibility for sinkhole formation,
suitability of stormwater management facilities, subgrade stability
and maximum infiltration capacity in depth of water per unit area.
(b)
In carbonate areas, BMPs that disperse stormwater over the largest
feasible area should be used (e.g., subtle berms and level spreaders)
so as not to significantly modify the natural hydrologic regime. Use
of infiltration BMPs that result in significant increases (more than
a 100% increase) in the predevelopment rate of infiltration per unit
area should be avoided in carbonate areas, unless a detailed geologic
evaluation demonstrated that the potential for sinkhole formation
is minimal.
(c)
Stormwater runoff from significant pollutant-producing sources
(so called "hot spots," including but not limited to industrial uses,
gas stations, fast food restaurants, other commercial uses generating
large numbers of vehicle trips, and other uses at the determination
of the Township) shall be filtered and/or pretreated using a water
quality BMP before being discharged in carbonate areas.
(10)
The developer shall construct infiltration facilities at various
locations throughout the project site to promote even distribution
of infiltrated runoff.
(11)
The developer shall construct all underground infiltration facilities
in accordance with the following requirements:
(a)
The developer shall use the Township's standard infiltration
pit detail, unless alternate designs are approved by the Township
Engineer.
(b)
The developer shall use geotextile fabric at all soil interfaces.
(c)
A minimum of one foot of cover shall be maintained over all
underground facilities.
(d)
Underground infiltration facilities shall be constructed using
AASHTO #1 stone.
(e)
All piping shall be made of reinforced concrete or plastic.
(f)
Piping within the infiltration area shall be perforated, with
perforations to be located around the full circumference and the full
length of the pipe within the infiltration pit.
(g)
A PVC observation port, having a minimum diameter of four inches
and connected to an open tee located at the bottom of the infiltration
pit, shall be installed in the underground infiltration facility.
(h)
A minimum distance of 20 feet shall be maintained from all existing
or proposed wells both on the project site and off the project site.
(i)
A minimum distance of 20 feet shall be maintained from all existing
and proposed on-lot sanitary sewer systems both on the project site
and off the project site.
(j)
Infiltration facilities shall be constructed a minimum distance
of 20 feet from all structures and streets, or street right-of-way.
(k)
Methods of excavation for infiltration facilities should be
noted on the plans. Construction equipment shall not be allowed on
the bottom of the infiltration facility.
(l)
The developer shall provide a method of directing overflow from
infiltration structures away from structures and streets and must
safely bypass the one-hundred-year storm event without flooding.
(12)
The developer shall construct all aboveground infiltration facilities
in accordance with the following requirements:
(a)
The infiltration volume shall be stored to a depth of no more
than 18 inches.
(b)
The developer shall provide a method of directing overflow away
from structures and streets and must safely convey the one-hundred-year
storm event without flooding.
(c)
A minimum distance of 100 feet shall be maintained from all
existing or proposed wells both on the project site and off the project
site.
(d)
A minimum distance of 20 feet shall be maintained from all existing
and proposed on-lot sanitary sewer systems both on the project site
and off the project site.
(e)
Infiltration facilities shall be constructed a minimum distance
of 20 feet from all structures and streets or street right-of-way.
F.
Design standards for water-carrying facilities.
(1)
The developer shall design all storm sewer pipes, culverts and bridges
(excluding detention and retention basin outfall structures) conveying
water originating only from within the boundaries of the project site
for a twenty-five-year storm event without surcharging. All structures
shall be designed to convey the one-hundred-year flood without roadway
overtopping. Drainage easements shall be provided to contain and convey
the one-hundred-year frequency flood throughout the project site.
Easements shall begin at the farthest upstream property line of the
proposed development in a watershed.
(2)
Inlets shall be along the curbline and are not permitted along the
curb radius at an intersection. Inlets shall be located to avoid conflicts
with driveways and crosswalks. In no case shall inlets be spaced more
than 600 feet apart and shall be designed in accordance with the PennDOT
Design Manual. All inlets shall have concrete flow channels.
(3)
Minimum floor elevations for all structures that would be affected
by a basin, other temporary impoundments, or open conveyance systems
where ponding may occur, shall be two feet above the one-hundred-year
water surface.
(4)
A concentrated discharge of stormwater to an adjacent property shall
be contained within an existing watercourse or the developer shall
obtain an easement.
(5)
All proposed stormwater pipe shall have a minimum diameter of 15
inches and maintain a minimum cover of two feet in nonpaved areas
or one foot below the pavement structure. Corrugated smooth-lined
polyethylene pipe is allowed with proper bedding. Class IV reinforced
cement concrete pipe is also allowed. Corrugated metal pipe is not
allowed. The Township, through its engineer, reserves the right to
require design and installation of slotted storm pipe with geotechnical
fabric, to act as a combination drain.
(6)
Storm sewer pipes and culverts shall be installed on sufficient slopes
to provide a minimum velocity of three feet per second when flowing
full.
(7)
If pipes are less than 48 inches in diameter, curves in pipes or
box culverts without an inlet or manhole are prohibited. Tee joints,
elbows, and wyes are always prohibited.
(8)
Manholes, inlets, headwalls and endwalls shall conform to the requirements
of PennDOT Publication 408 in effect at the time the developer submits
the stormwater management plan.
(9)
Concrete headwalls and endwalls shall be used where stormwater runoff
enters or leaves the storm sewer horizontally from a natural or man-made
channel. Headwalls and endwalls more than five feet in height shall
be designed by a professional engineer considering actual soil conditions
and loadings, and in accordance with American Concrete Institute Specifications.
(10)
Inlets shall be placed on both sides of the street at low spots,
at a maximum of 600 feet apart along a storm sewer pipe or culvert,
at points of abrupt changes in the horizontal or vertical directions
of storm sewers, and at points where the flow in gutters exceeds three
inches for the twenty-five-year storm event. Inlets shall normally
be along the curbline at, or beyond the curb radius points. For the
purpose of inlet location at corners, the depth of flow shall be considered
for each gutter. At intersections, the depth of flow across the through
streets (proposed and existing) shall not exceed one inch for the
twenty-five-year storm event. Inlets shall be depressed two inches
below the grade of the gutter or ground surface. Manholes may be substituted
for inlets at locations where inlets are not required to handle surface
runoff. Inlets shall not be placed in areas other than streets and
parking lots, unless otherwise approved by the Township.
(11)
Water-carrying facilities, roof drains, and sump pump discharges
shall not directly discharge water into a street right-of-way or sanitary
sewer.
(12)
All existing and natural watercourses, channels, drainage systems
and areas of surface water concentration shall be maintained in their
existing condition unless an alteration such as stream restoration
is approved by the Township.
(13)
Flow velocities from any storm sewer may not result in erosion
of the receiving channel.
(14)
Energy dissipaters shall be placed at the outlets of all storm
sewer pipes, culverts, swales, and bridges where flow velocities exceed
maximum permitted channel velocities, as specified below:
(15)
Developer shall meet or exceed the following conditions for
all swales:
(a)
Capacities and velocities shall be computed using the Manning
equation. The minimum design parameters shall be as follows:
[1]
For vegetated swales, two design considerations shall be met:
[a]
The first shall consider channel velocity and stability
based upon a low degree of retardance ("n" of .03);
[b]
The second shall consider channel capacity based
upon a high degree of retardance (.05). All vegetated swales shall
have a minimum slope of 1% unless otherwise approved by the Township.
[2]
The "n" factors to be used for paved or riprap swales or gutters
shall be based upon accepted engineering design practices as approved
by the Township Engineer.
(b)
All swales shall be designed to concentrate low flows to minimize
siltation and meandering.
(c)
Swales must be designed and constructed with a uniform slope
to avoid ponding water within the swale. Swales designed or constructed
at less than 1.5% slope may be required to include an underdrain at
the swale bottom.
(16)
The capacities of the pipes, inlets, culverts, outlet structures,
and swales shall be designed to consider all possible hydraulic conditions.
(a)
Inlets, culverts and basin discharge systems shall be designed
for the worst case condition. Inlet capacity shall be based on design
standards provided by latest edition of the Pennsylvania Department
of Transportation's Design Manual, Part 2, Highway Design, Chapter
10. If acceptable information is not available, inlets in non-ponding
areas shall be designed for a maximum capacity of four cubic feet
per second. Stormwater conveyance facilities must be designed so that
the hydraulic grade line of the system shows that no surcharging will
exist.
(17)
Developer shall use the chart of Manning "n" values for design
of closed conduits as included as Appendix C.[5]
[5]
Editor's Note: Appendix C is included as an attachment to this chapter.
(18)
Culvert and bridge materials shall be concrete.
(19)
All storm sewer crossings of streets shall be perpendicular
to the street center line.
(20)
All stormwater structures inlets and outlets smaller than 48
inches equivalent diameter which convey stormwater from residential
lots to a street or from a street to residential lots shall extend
from the street right-of-way a minimum distance of 2/3 the length
of the longest adjacent lot dimension.
(21)
Prior to dedication of any areas for public use, the developer
shall submit record topographic surveys of all drainage easements
and basins to all of the boundaries of their respective easements.
(22)
Capacity improvements. If the developer can demonstrate that
it would be feasible to provide capacity improvements to relieve the
capacity deficiency in the existing drainage network, such adequate
capacity improvements could be provided by the developer in lieu of
stormwater management facilities on the project site where approved
by the Township. Developer shall design all capacity improvements
based on development of all areas tributary to the improvements and
the capacity criteria specified in this chapter. The type and amount
of development that the developer must consider shall be based on
the current zoning. It shall be assumed that all new development upstream
of a proposed capacity improvement would implement applicable stormwater
management techniques, consistent with this chapter.
(23)
All directly connected pipes shall discharge to a pipe of equal
to or larger cross-sectional area.
(24)
Stormwater management facilities not located within a public
right-of-way shall be contained in and centered within an easement.
(25)
The developer shall provide adequate erosion protection along
all open channels and at all points of discharge.
(26)
Driveways must be paved to full width within the road right-of-way
and maintain stormwater flow along the gutter or adjacent shoulder
or swale.
(27)
Storm sewer trench within six feet of street pavement, or in
existing or proposed pavement, must be compacted to 98% SSD in twelve-inch
lifts within 2% of optimum moisture content per ASTM D-1557 and tested
with a nuclear density gauge.
(28)
Vegetated swales (including temporary swales for erosion control
purposes) may traverse landscape buffers, but shall not be located
longitudinally within landscape buffers. Stormwater pipes and vegetated
swales may traverse a landscape screen provided their direction can
be varied within the landscape screen in order to not interrupt the
visual separation of the landscape screen. Nonvegetated drainage swales,
ditches, and channels shall not be located within landscape buffers
or screens.
G.
Design standards for detention and retention basins.
(1)
The developer shall design and install all permanent detention and
retention basins (where approved) to meet or exceed the following
standards:
(a)
The maximum water depth shall not exceed six feet.
(b)
The minimum top width of all berms shall be eight feet.
(c)
Detention basins shall be designed with a minimum one foot freeboard
above the design elevation of the one-hundred-year water surface at
the emergency spillway.
(d)
The side slopes shall not be less than three horizontal to one
vertical for nonresidential zones, and four horizontal to one vertical
for residential zones.
(e)
All basins shall be structurally sound and shall be constructed
of sound and durable materials. The completed structure and the foundation
of all basins shall be stable under all probable conditions of operation.
The developer shall provide an emergency spillway for the basin which
shall be capable of discharging the one-hundred-year peak rate of
runoff which enters the basin after development in a manner which
will not damage the integrity of the basin and will not create a downstream
hazard. Spillways shall not be used for nonemergency operations. Where
practical, the developer shall construct the emergency spillway in
undisturbed ground.
(f)
Stormwater runoff from a basin shall flow directly into a natural
watercourse or into an existing storm sewer system, or onto adjacent
properties in an approved manner similar to the runoff characteristics
of predevelopment flow.
(g)
Normally dry, open-top storage facilities, designed as such,
shall completely drain both the volume control and rate control capacities
over a period of time not less than 24 hours and not more than 72
hours from the end of the design storm. However, any designed infiltration
at such facilities is exempt from the minimum twenty-four-hour standard.
(Inordinately rapid infiltration rates may indicate the presence of
large fractures or other conditions for which an additional soil buffer
may be required.)
[Amended at time of adoption of Code (see Ch. 1, General
Provisions, Art. I)]
(h)
The developer shall provide a cutoff trench of impervious material
within all basin embankments.
(i)
All structures passing through basin embankments shall have
properly spaced concrete cutoff collars and "O-ring" rubber gaskets.
(j)
All discharge control devices and piping with appurtenances
shall be made of reinforced concrete and stainless steel.
(k)
Minimum slope within a basin shall be one-percent positive grade
from the low-flow channel.
(l)
Low-flow channels shall be provided from each water-carrying
facility to the outlet structure. Low-flow channels shall be one-percent
minimum slope.
(m)
The developer shall incorporate standard outlet structures into
the basin design.
(n)
Design storms for the computation of detention basin volumes
shall be of a duration sufficient to maximize the required volumes,
up to a maximum twenty-four-hour storm.
(o)
Design storms for the computation of retention basins (where
approved) volumes shall be based upon a twenty-four-hour storm.
(p)
Whenever a basin will be located in a carbonate area, a detailed
geological evaluation of the proposed location shall be conducted
to determine the suitability for recharge, including both the potential
for groundwater contamination and potential for sinkhole formation.
The evaluation shall be performed by a geologist, and at a minimum,
address soil permeability, depth to bedrock, susceptibility to sinkhole
formation, suitability of stormwater management facilities, and subgrade
stability. The design and installation of all stormwater management
facilities over carbonate geology formations shall include measures
to prevent ground water contamination and, where necessary, sinkhole
formation. Soils used for the construction of basins shall have lower
erodibility factors ("K factors"). The Township may require an impermeable
liner to be installed up to the one-hundred-year design water surface
elevation.
(q)
The volume of retention basins shall be determined based upon
an assumption of zero percolation.
(r)
Stormwater basins located in known sinkhole-prone areas must
retain a minimum cover of four feet of undisturbed soil, in order
to help prevent migration of groundwater that would create sinkholes.
If cover cannot be retained, then the basin must be lined. Discharge
structures shall have stainless steel trash racks. Basins that are
not designed to release all stormwater shall be specifically identified
as retention basins or permanent pond basins. Unless specifically
designed as a best management practice basin, all other basins shall
have provisions for dewatering, particularly the bottom, and shall
not create swamp and/or any other condition that is not maintainable.
Low-flow channels shall be used to de-water the bottom of a basin.
Discharge structures shall be designed to minimize the possibility
of blockage during operation.
(s)
Stormwater shall not be discharged into sinkholes.
(t)
Basins shall not be located over any existing or proposed utility
line.
(u)
The toe of slope for the exterior berm, or in the case of a
berm excavated into the earth, the outside edge of the berm shall
not be closer than 30 feet from existing or proposed Township or private
right-of-way.
(v)
Emergency spillways that discharge to or towards a public or
private right-of-way shall be designed as grass, or interlocking concrete
pavers.
(w)
Stormwater outfall structures and berms must be designed to
be accessible to construction equipment via a path with a maximum
slope of 20% and a level width of eight feet.
(x)
Detention pond, swale bottom, and site elevations shall not
be excavated lower than any wetland or natural watercourse.
(y)
The lowest elevation of detention ponds must be a minimum of
two feet above the seasonal high water table.
(z)
Provide a cross section through the berm showing outlet structure(s)
set three feet below grade, orifice elevations, concrete cutoff collar(s),
outfall pipe, endwalls, and water surface elevations for all design
storms.
(aa)
Detention pond berms constructed in a fill condition shall be
compacted to 95% saturated surface dry condition per ASTM D1557 within
2% of optimum moisture content. Compaction and moisture content shall
be verified with use of a nuclear density gauge.
(bb)
Pond outfall structures shall be reinforced concrete box with
a Type M top unit, and precast staged orifices.
(cc)
Impervious clay cores shall run the length of all berms in fill,
and be keyed into existing grade.
(dd)
Stormwater and basin outfall pipes and drainage structures shall
not be located longitudinally within detention pond berms.
(ee)
Outside berms of stormwater basins, tops of stormwater basin
berms, and inside side slopes of stormwater basins may be located
within landscape buffers and screens, provided the maximum depth of
the basin from basin bottom to top of berm at any single point is
limited to four feet, and the maximum slope of the landscape buffer
or screen is not exceeded as required elsewhere by ordinance, and
the basin bottom is located outside of the landscape buffer or screen.
Temporary basins and traps for erosion control purposes shall not
be located within landscape buffers or screens.
(2)
The developer shall consider the effect on downstream areas if the
basin embankment fails in the design of all basins. Where possible,
the basin shall be designed to minimize the potential damage caused
by such failure of the embankment.
(3)
All developments shall be designed to convey the post-development
one-hundred-year peak flows through the site.
(4)
All outlet structures and emergency spillways shall include a satisfactory
means of dissipating the energy of flow at its outlet to assure conveyance
of flow without endangering the safety and integrity of the basin
and the downstream drainage area.
(5)
All outlets discharging onto adjacent property owner's properties
must have adjacent property owner's written permission.
H.
Erosion and sedimentation control during land development.
(1)
Earth disturbances of 5,000 square feet or greater require design,
implementation and maintenance of erosion and sediment control BMPs
that control erosion and prevent sediment pollution during earth disturbance
activities.
(2)
The BMPs shall be identified on the plan, and a permit if applicable,
as required by PADEP regulations at 25 Pa. Code Chapter 102.
(3)
The York County Conservation District is frequently delegated the
authority to issue permits and other approvals by PADEP. Evidence
of any necessary permits for the earth disturbance activities from
the appropriate PADEP regional office, or the York County Conservation
District, if delegated by DEP, must be provided to the municipality.
(4)
A copy of the erosion and sediment control plan and any required
permit, under 25 Pa. Code Chapter 102, shall be available at the project
site at all times.
(5)
All land disturbance facilities shall conform to the requirements
of the Pennsylvania Department of Environmental Protection Soil Erosion
and Sedimentation Control Manual and must have an approved erosion
control plan (and NPDES permit for discharge of stormwater if necessary)
prior to final plan approval.
I.
Various other project site development requirements.
(1)
The developer shall establish procedures for protecting soils or
geologic structures with water supply potential from contamination
by surface water or other disruption by construction activity in consultation
with the Township, and such areas shall include, at minimum, those
underlain by carbonate geology formations. The Township may require
pollution control facilities to be provided on existing or proposed
stormwater management systems within or adjacent to the project site.
(2)
The developer shall implement provisions for protecting existing
wells or other water supplies.
(3)
Graded slopes shall not be steeper than three horizontal units to
one vertical unit.
(4)
The developer shall obtain all approvals required for construction
within steep slope areas prior to earthmoving or stripping of vegetation.
(5)
The developer shall provide a minimum of four inches of topsoil on
all disturbed areas prior to final seeding and mulching.
(6)
The developer shall retain and protect mature healthy trees of at least six inches DBH and other significant existing vegetation within the limits of earth disturbance, which shall be located in the field and on the stormwater management plan. Developer shall remove only such trees as shall be provided on the approved stormwater management plan. The filling of soil over the roots of trees to be preserved is prohibited (roots are presumed to extend from the tree as far as the tree's branches extend outward). The developer shall comply with all Chapter 450, Zoning, requirements.
(7)
Easements shall be provided where stormwater or surface water drainage
facilities are existing or proposed, whether located within or beyond
the boundaries of the property. Easements for maintenance of pipes
and culverts shall run from outlet to inlet. Easements shall have
a minimum width of 20 feet and shall be adequately designed to provide
area for: (a) the collection and discharge of water; (b) the maintenance,
repair, and reconstruction of the drainage facilities; and (c) the
passage of machinery for such work. Easements shall include a description
of an ownership and maintenance program in an appropriate form for
recording with the York County Recorder of Deeds that clearly sets
forth responsibility for all temporary and permanent stormwater management
facilities.
(8)
In order to ensure the facilities will operate as designed, as-built
plans prepared by a licensed surveyor are required. These shall show
the topography of the basin, critical elevations, and locations of
all stormwater facilities. If the as-built survey reveals that the
plan was not constructed in accordance with the design, the developer's
engineer may submit revised calculations showing the constructed facilities
will comply with this chapter, or reconstruct the facilities to the
original design specifications.
A.
The developer shall, during the period of land disturbance, when
significant sediment can be contained in runoff, control runoff prior
and prevent runoff from entering any proposed infiltration area.
B.
Peak discharges and discharge volumes from the project site shall
comply with the appropriate sections above as well as with guidance
provided by the Conservation District. In situations of special sensitivity,
the Township Engineer may increase requirements, such as requiring
that the entire volume of all storms up to a two-year storm from the
disturbed areas be retained on site and that special sediment trapping
facilities (including, but not limited to, check dams, etc.) be installed.
C.
Construction standards of stormwater management and erosion control
facilities shall be in accordance with the approved plans and accompanying
specifications. The construction details and standards of the following
publications in their most recent revision shall control, or as modified
by the Township Engineer.
A.
Areas immediately adjacent to the Township's perennial streams,
areas of springs, watercourses, and areas deemed by the Township to
possess environmental value shall be defined as the riparian buffer
area (RBA). In the RBA, special requirements as set forth in this
section shall apply in order to maintain important natural functions.
These RBA requirements are based on both the heightened sensitivity
of the RBA and the potential to negatively impact the stream system
when this RBA is disturbed, as well as the potential of this RBA to
mitigate to the maximum extents the negative effects of development
in areas adjacent to the stream system. The RBA shall include three
subzones, Zones 1 through 3, extending landward from the top of the
stream bank where different requirements are imposed. These RBAs are
to be established and protected, as defined below:
(1)
Area 1, a fifteen-foot setback zone, measured from the top of the
bank of the watercourse, where no disturbance of vegetation and soil
except for restoration shall occur, in order to shade the stream with
natural vegetation, to provide a source of numerous other organic
inputs to the aquatic system, to anchor the stream bank and floodplain
area, and to consume and otherwise remove nitrogen, sediment, and
other substances which can adversely affect stream systems.
(2)
Area 2, a managed buffer zone, extending a distance equal to 35 feet
outward from Zone 1 or to the one-hundred-year floodplain boundary,
whichever is larger, where disturbance of natural vegetative cover
shall be limited to selective logging and other similar activities
which minimally disrupt existing tree cover, and soil mantle, in order
to maximize filtering and overall physical removal of particulate-form
pollutants from runoff generated upgradient and to promote subsurface
vegetative uptake of nitrogen and other nonparticulate elements from
stormwater-generated upgradient.
(3)
Area 3, a zone of 50 feet extending outward from Area 2; Area 3 is
defined in those cases where upslope areas adjacent to the RBA are
being disturbed during the land development process and where direct
discharge of stormwater would otherwise occur; Area 3 must include
level-spreading devices as necessary to ensure that any directly discharged
stormwater flows are properly distributed as sheet flow. Channelization
and point source discharges are prohibited.
(4)
An RBA adjacent to "high quality waters" and "exceptional value waters"
designated by the DEP shall be subject to the provisions of the most
recent edition of DEP Special Protection Waters Implementation Handbook
and its amendments. To the extent that the Township and DEP requirements
are not consistent, the more restrictive requirements shall apply.
(5)
Subsurface utilities shall be allowed to cross the RBA, watercourses
and wetlands, provided the crossing is at or approximates a right
angle or is otherwise situated to minimize the constructed length
through the RBA, watercourse or wetland, and said utilities are installed
using subsurface installation techniques (boring, directional drilling,
etc.), both in order to minimize disruption to the soil mantle. Subsurface
utilities shall not be installed longitudinally within the watercourse,
Area 1 or Area 2.
B.
For areas immediately adjacent to the Township's intermittent
streams and wetlands, the RBA shall be defined as a zone extending
15 feet outward from the top of the bank(s) of the wetland. Within
this area, no disturbance of vegetation and soil except for the construction
of roadway structures or conveyance systems in accordance with the
design standards of this chapter and restoration shall occur. All
discharges to this RBA shall be sheet flow.
A.
No regulated earth disturbance activities within the municipality
shall commence until approval by the municipality of a plan which
demonstrates compliance with state water quality requirements after
construction is complete.
B.
The BMPs must be designed to protect and maintain existing uses (e.g.,
drinking water use; cold water fishery use) and maintain the level
of water quality necessary to protect those uses in all streams, and
to protect and maintain water quality in "special protection" streams,
as required by statewide regulations at 25 Pa. Code Chapter 93 (collectively
referred to herein as "state water quality requirements").
C.
To control post-construction stormwater impacts from regulated earth
disturbance activities, state water quality requirements can be met
by BMPs, including site design, which provide for replication of preconstruction
stormwater infiltration and runoff conditions, so that postconstruction
stormwater discharges do not degrade the physical, chemical or biological
characteristics of the receiving waters. As described in the DEP Comprehensive
Stormwater Management Policy (#392-0300-002, September 28, 2002),
this may be achieved by the following:
(1)
Infiltration. Replication of preconstruction stormwater infiltration
conditions;
(2)
Treatment. Use of water quality treatment BMPs to ensure filtering
out of chemical and physical pollutants from the stormwater runoff;
and
(3)
Stream bank and streambed protection: management of volume and rate
of postconstruction stormwater discharges to prevent physical degradation
of receiving waters (e.g., from scouring and erosion).
D.
DEP has regulations that require municipalities to ensure design,
implementation and maintenance of best management practices (BMPs)
that control runoff from new development and redevelopment (hereinafter
"development") after regulated earth disturbance activities are complete.
These requirements include the need to implement post-construction
stormwater BMPs with assurance of long-term operations and maintenance
of those BMPs.
A.
For the purposes of the Act 167 Storm Water Management (Plan) elements,
contained within the York County Integrated Water Resources Plan and
this chapter, design policy pertaining to stormwater management facilities
for Pennsylvania Department of Transportation (PennDOT) and Pennsylvania
Turnpike Commission (PTC) roadways and associated facilities is provided
in § 13.7 (Antidegradation and Post Construction Stormwater
Management Policy) of PennDOT Publication No. 13M, Design Manual Part
2 (August 2009), as developed, updated, and amended in consultation
with the Pennsylvania Department of Environmental Protection (DEP).
As stated in DM-2.13.7.D (Act 167 and municipal ordinances), PennDOT
and PTC roadways and associated facilities shall be consistent with
Act 167 Plans. Dm-2.13.7.B (Policy on Antidegradation and Post Construction
Stormwater Management) was developed as a cooperative effort between
PennDOT and DEP. DM-2.13.7.C (Project Categories) discusses the anticipated
impact on the quality, volume, and rate of stormwater runoff.
B.
Where standards in the Act 167 elements of the IWRP and this chapter
are impractical, PennDOT or the PTC may request assistance from DEP,
in consultation with the county, to develop an alternative strategy
for meeting state water quality requirements and the goals and objectives
of the Act 167 elements within the IWRP.
