A.
Applicants proposing regulated activities in the municipality that do not fall under the exemption criteria shown in § 228-6 shall submit a drainage plan consistent with this chapter and the respective Act 167 Stormwater Management Plan to the municipality for review. The stormwater management criteria of this chapter shall apply to the total proposed development even if development is to take place in stages.
B.
The applicant is required to find practicable alternatives
to the surface discharge of stormwater, the creation of impervious
surfaces, and the degradation of waters of the commonwealth and must
maintain as much as possible the natural hydrologic regime.
C.
The drainage plan must be designed consistent with the sequencing provisions of § 228-19 to ensure maintenance of the natural hydrologic regime, to promote groundwater recharge, and to protect groundwater and surface water quality and quantity. The drainage plan designer must proceed sequentially in accordance with Article IV of this chapter.
D.
Stormwater drainage systems shall be designed in order
to permit unimpeded flow along natural watercourses, except as modified
by stormwater management facilities or open channels consistent with
this chapter.
E.
Existing points of concentrated drainage that discharge
onto adjacent property shall not be altered in any manner which could
cause property damage without permission of the affected property
owner(s) and shall be subject to any applicable discharge criteria
specified in this chapter.
F.
Areas of existing diffused drainage discharge, whether
proposed to be concentrated or maintained as diffused drainage areas,
shall be subject to any applicable discharge criteria in the general
direction of existing discharge, except as otherwise provided by this
chapter. If diffused drainage discharge is proposed to be concentrated
and discharged onto adjacent property, the applicant must document
that adequate downstream conveyance facilities exist to safely transport
the concentrated discharge or otherwise prove that no erosion, sedimentation,
flooding, or other impacts will result from the concentrated discharge.
G.
Where a development site is traversed by existing streams, drainage easements shall be provided conforming to the line of such streams. The terms of the easement shall conform to the stream buffer requirements contained in § 228-21G of this chapter.
H.
Any stormwater management facilities regulated by
this chapter that would be located in or adjacent to waters of the
commonwealth or delineated wetlands shall be subject to approval by
DEP through the joint permit application or the environmental assessment
approval process, or where deemed appropriate, by the DEP general
permit process. When there is a question as to whether wetlands may
be involved, it is the responsibility of the applicant or his agent
to show that the land in question cannot be classified as wetlands;
otherwise, approval to work in the area must be obtained from DEP.
I.
Any proposed stormwater management facilities regulated
by this chapter that would be located on state highway rights-of-way
shall be subject to approval by PennDOT.
J.
Minimization of impervious surfaces and infiltration
of runoff through seepage beds, infiltration trenches, etc., is encouraged
where soil conditions permit in order to reduce the size or eliminate
the need for detention facilities or other structural BMPs.
K.
All stormwater runoff shall be pretreated for water
quality prior to discharge to surface or ground water.
L.
All regulated activities within the municipality shall
be designed, implemented, operated, and maintained to meet the purposes
of this chapter, through these two elements:
M.
No regulated earth disturbance activities within the
municipality shall commence until the requirements of this chapter
are met.
O.
Operations and maintenance of permanent stormwater BMPs shall be addressed as required by Article VII.
P.
All BMPs used to meet the requirements of this chapter
shall conform to the state water quality requirements and any more
stringent requirements as set forth by the municipality.
Q.
Techniques described in Appendix D, Low Impact Development
Practices, of this chapter[1] shall be considered because they reduce the costs of complying
with the requirements of this chapter and the state water quality
requirements.
[1]
Editor's Note: Appendix D is included at the
end of this chapter.
R.
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's soils.
(3)
Slope and depth to bedrock.
(4)
Seasonal high water table.
(5)
Proximity to building foundations and wellheads.
(6)
Erodibility of soils.
(7)
Land availability and configuration of the topography.
(8)
Peak discharge and required volume control.
(9)
Stream bank erosion.
(10)
Effectiveness 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.
(15)
Recreational value.
The following permit requirements may apply
to certain regulated earth disturbance activities and must be met
prior to commencement of regulated earth disturbance activities, as
applicable:
A.
All regulated earth disturbance activities subject
to permit requirements by DEP under regulations at 25 Pennsylvania
Code Chapter 102.
B.
Work within natural drainageways subject to permit
by DEP under 25 Pennsylvania Code Chapter 105.
C.
Any stormwater management facility that would be located
in or adjacent to surface waters of the commonwealth, including wetlands,
subject to permit by DEP under 25 Pennsylvania Code Chapter 105.
D.
Any stormwater management facility that would be located
on a state highway right-of-way or require access from a state highway
shall be subject to approval by PennDOT.
E.
Culverts, bridges, storm sewers, or any other facilities
which must pass or convey flows from the tributary area and any facility
which may constitute a dam subject to permit by DEP under 25 Pennsylvania
Code Chapter 105.
A.
No regulated earth disturbance activities within the
municipality shall commence until the municipality receives an approval
from the Conservation District of an erosion and sediment control
plan for construction activities.
B.
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 Pennsylvania Code § 102.4(b).
C.
In addition, under 25 Pennsylvania Code Chapter 92,
a DEP permit for stormwater discharges associated with construction
activities is required for land disturbances greater than one acre.
D.
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.
E.
A copy of the erosion and sediment control plan and
any required permit, as required by DEP regulations, shall be available
on the project site at all times.
F.
Additional erosion and sediment control design standards
and criteria are recommended to be applied where infiltration BMPs
are proposed. They shall include the following:
(1)
Areas proposed for infiltration BMPs shall be protected
from sedimentation and compaction during the construction phase to
maintain maximum infiltration capacity. Additional measures, such
as placement of orange construction fencing around proposed infiltration
BMPs during construction to minimize or eliminate traffic overtop
of these areas, and temporary sealing off of pipes and inlet connections
to infiltration BMPs to prevent sediment clogging should be given
consideration.
(2)
Infiltration BMPs shall not be constructed nor receive
runoff until the entire drainage area contributory to the infiltration
BMP has achieved final stabilization.
A.
The design of all regulated activities shall include
the following to minimize stormwater impacts:
(1)
The applicant shall find practicable alternatives
to the surface discharge of stormwater, such as those listed in Appendix
E, Table E-4,[1] the creation of impervious surfaces, and the degradation
of waters of the commonwealth and must maintain as much as possible
the natural hydrologic regime of the site.
[1]
Editor's Note: Appendix E is included at the
end of this chapter.
(2)
An alternative is practicable if it is available and
capable of implementation after taking into consideration existing
technology and logistics in light of overall project purposes and
other municipal requirements.
(3)
All practicable alternatives to the discharge of stormwater
are presumed to have less adverse impact on quantity and quality of
waters of the commonwealth unless otherwise demonstrated.
B.
The applicant shall demonstrate that the regulated
activities were designed in the following sequence. The goal of the
sequence is to minimize the increases in stormwater runoff and impacts
to water quality resulting from the proposed regulated activity:
(1)
Prepare an existing resource and site analysis map
(ERSAM) showing environmentally sensitive areas, including, but not
limited to, steep slopes, ponds, lakes, streams, wetlands, hydric
soils, vernal pools, stream buffers, hydrologic soil groups, wooded
areas, and potential infiltration areas. Land development, any existing
recharge areas, and other requirements outlined in the municipal SALDO
shall also be included.
(3)
Prepare a draft project layout avoiding sensitive areas identified in § 228-19B(1).
(4)
Identify site-specific existing conditions drainage
areas, discharge points, recharge areas, and hydrologic soil groups
A and B (areas conducive to infiltration). Infiltration should still
be considered in well draining soils listed as hydrologic soil group
C, but additional soils testing should be performed to verify onsite
conditions and placement of these BMPs.
(6)
Satisfy the groundwater recharge (infiltration) objective (§ 228-20) and provide for stormwater pretreatment prior to infiltration.
(8)
Provide stream bank erosion protection in accordance with § 228-22, Stream bank erosion requirements.
(9)
Conduct an existing conditions runoff analysis.
(10)
Prepare final project design to maintain existing
conditions drainage areas and discharge points, to minimize earth
disturbance and impervious surfaces, and, to the maximum extent possible,
to ensure that the remaining site development has no surface or point
discharge.
(11)
Conduct a proposed conditions runoff analysis based on the final design that meets the management district requirements (§ 228-23).
(12)
Manage any remaining runoff prior to discharge
through detention, bioretention, direct discharge, or other structural
control.
Maximizing the groundwater recharge capacity of the area being developed is required. Design of the infiltration facilities shall consider groundwater recharge to compensate for the reduction in the recharge that occurs when the ground surface is disturbed or impervious surface is created. It is recommended that roof runoff be directed to infiltration BMPs that may be designed to compensate for the runoff from parking areas. These measures are required to be consistent with § 228-3 and to take advantage of utilizing any existing recharge areas. Infiltration may not be feasible on every site due to site-specific limitations such as soil type. If it cannot be physically accomplished, then the design professional shall be responsible to show that this cannot be physically accomplished, to the satisfaction of the Municipal Engineer. Appropriate soils testing and/or geotechnical evaluation should be included as part of any documentation for infiltration BMPs. If it can be physically accomplished, the volume of runoff to be infiltrated shall be determined from § 228-20A(2).
A.
Infiltration BMPs shall meet the following minimum
requirements:
(1)
Infiltration BMPs intended to receive runoff from
developed areas shall be selected based on suitability of soils and
site conditions and shall be constructed on soils that have the following
characteristics:
(a)
A minimum depth of 24 inches, between the bottom
of the BMP and the top of the limiting zone (e.g., SHWT, groundwater,
bedrock, etc.).
(b)
An infiltration rate sufficient to accept the
additional stormwater load and dewater completely as determined by
field tests conducted by the applicant's design professional.
(c)
The infiltration facility shall be capable of
completely infiltrating the recharge (infiltration) volume (Rev) within three days (72 hours) or less.
(d)
Pretreatment shall be provided prior to infiltration.
(2)
The size of the infiltration facility shall be based
upon the net two-year volume approach, where the recharge (infiltration)
volume (Rev) to be captured and infiltrated
shall be the volume difference between the pre-development two-year,
twenty-four-hour storm event and post-development two-year, twenty-four-hour
storm event. The recharge volume calculated using this section is
the minimum volume the applicant must control through an infiltration
BMP facility. However, if a site has areas of soils where additional
volume of recharge can be achieved, the applicant is encouraged to
infiltrate as much of the stormwater runoff from the site as possible.
B.
Soil testing. If on-lot infiltration is proposed as
part of a project, the applicant's design professional must demonstrate
to the satisfaction of the municipality that the soils are conducive
to infiltration at the proposed location of the infiltration facilities.
Soil testing shall be completed as follows:
(1)
Soil testing must be conducted by a qualified design
professional and at a minimum shall address depth to limiting zone,
soil permeability, and subgrade stability. Soil testing must be observed
by the Municipal Engineer or a municipal representative. The Municipal
Engineer shall be provided a minimum of 48 hours' notice prior to
the start of soil testing to arrange for proper inspection.
(2)
Analyze hydrologic soil groups as well as natural
and man-made features within the site to determine general areas of
suitability for infiltration practices. In areas where development
on fill material is under consideration, conduct geotechnical investigations
of subgrade stability; infiltration may not be ruled out without conducting
these tests.
(3)
Conduct field testing, including test pits to determine
soil horizons and depth to limiting zone and permeability tests, at
the elevation of the proposed infiltration facility surface, to determine
the appropriate hydraulic conductivity rate. Double ring infiltrometer
or hydraulic conductivity tests should be used to determine soil permeability
(percolation tests are not permitted for design purposes). Site evaluation
and soils testing should be conducted in accordance with Appendix
C of the Pennsylvania Stormwater Best Management Practices Manual.
(4)
The proposed infiltration facilities shall be designed
for the required recharge (Rev) volume based
on the field determined capacity at the surface elevation of the proposed
infiltration facility. The applicant should incorporate design guidelines
from the Pennsylvania Stormwater Best Management Practices Manual
as required by the Municipal Engineer.
C.
Stormwater hotspots. Below is a list of examples of
designated hotspots. If a site is designated as a hotspot, it has
important implications for how stormwater is managed. First and foremost,
untreated stormwater runoff from hotspots shall not be allowed to
recharge into groundwater where it may contaminate water supplies.
Therefore, the Rev requirement shall NOT be
applied to development sites that fit into the hotspot category (the
entire WQv must still be treated). Second,
a greater level of stormwater treatment shall be considered at hotspot
sites to prevent pollutant washoff after construction. The Environmental
Protection Agency's (EPA) NPDES stormwater program requires some industrial
sites to prepare and implement a stormwater pollution prevention plan.
(1)
Examples of hotspots:
(a)
Vehicle salvage yards and recycling facilities.
(b)
Vehicle fueling stations.
(c)
Vehicle service and maintenance facilities.
(d)
Vehicle and equipment cleaning facilities.
(e)
Fleet storage areas (bus, truck, etc.)
(f)
Industrial sites based on Standard Industrial
Codes.
(g)
Marinas (service and maintenance).
(h)
Outdoor liquid container storage.
(i)
Outdoor loading/unloading facilities.
(j)
Public works storage areas.
(k)
Facilities that generate or store hazardous
materials.
(l)
Commercial container nursery.
(m)
Other land uses and activities as designated
by an appropriate review authority.
(2)
The following land uses and activities are not normally
considered hotspots:
(3)
While large highways [average daily traffic volume
(ADT) greater than 30,000] are not designated as stormwater hotspots,
it is important to ensure that highway stormwater management plans
adequately protect groundwater.
D.
Extreme caution shall be exercised where infiltration
is proposed in SWPAs as defined by the local municipality or water
authority.
E.
Infiltration facilities shall be used in conjunction
with other innovative or traditional BMPs, stormwater control facilities,
and nonstructural stormwater management alternatives.
F.
Extreme caution shall be exercised where salt or chloride
(municipal salt storage) would be a pollutant since soils do little
to filter this pollutant, and it may contaminate the groundwater.
The qualified design professional shall evaluate the possibility of
groundwater contamination from the proposed infiltration facility
and perform a hydrogeologic justification study if necessary. Specific
consideration should be given to the particular type of salt or deicing
material to be used within this watershed in regards to its potential
long-term effects on the soils, especially in areas that contain clay
soil.
G.
The infiltration requirement in HQ or EV waters shall
be subject to the Department's Chapter 93 Antidegradation Regulations.
H.
An impermeable liner will be required in detention
basins where the possibility of groundwater contamination exists.
A detailed hydrogeologic investigation may be required by the municipality.
I.
The municipality shall require the applicant to provide
safeguards against groundwater contamination for land uses that may
cause groundwater contamination should there be a mishap or spill.
J.
Infiltration design criteria.
(1)
All infiltration systems shall have appropriate positive
overflow controls to prevent storage within one foot of the finished
surface or grade.
(2)
All infiltration systems shall have a minimum setback
of 20 feet from principal structures, 10 feet from property lines,
100 feet from wells, and 50 feet from septic system drain fields.
Care should be taken to prevent any seepage into subgrade structures.
(3)
Surface inflows shall be treated to prevent the direct
discharge of sediment and pollutants into the infiltration system;
accumulated sediment reduces stormwater storage capacity and ultimately
clogs the infiltration mechanism.
(4)
During site construction, all recharge system components
shall be protected from compaction due to heavy equipment operation
or storage of fill or construction material. Recharge areas shall
be protected from sedimentation. All areas designated for recharge
shall not receive runoff until the contributory drainage area has
achieved final stabilization. Construction fencing shall be installed
around recharge areas during construction activities.
(5)
The following procedures and materials shall be required
during the construction of all subsurface facilities:
(a)
Excavation for the infiltration facility shall
be performed with equipment which will not compact the bottom of the
seepage bed/trench, or like facility.
(b)
The bottom of the bed and/or trench shall be
scarified prior to the placement of aggregate.
(c)
Only clean aggregate, free of fines, shall be
allowed.
(d)
The top and sides of all seepage beds, trenches,
or like facilities shall be covered with drainage filtration fabric.
Fabric shall meet the specifications of PennDOT Publication 408, Section
735 Construction Class 1.
(e)
Perforated distribution pipes connected to centralized
catch basins and/or manholes with provision for the collection of
debris shall be provided in all facilities. The perforated pipes shall
distribute stormwater throughout the entire seepage bed/trench, or
like facility.
(6)
All infiltration facilities which service more than
one lot and are considered a common facility shall have an easement
provided to the Township for future access if necessary.
(7)
No more than 50% of the required infiltration volume
may be provided in detention basin bottoms. The remaining 50% of infiltration
volumes shall be provided at or near the proposed impervious coverage.
The applicant shall comply with the following
water quality requirements of this article:
A.
No regulated earth disturbance activities within the
municipality shall commence until approval by the municipality of
a plan that demonstrates compliance with post-construction state water
quality requirements.
B.
The BMPs shall be designed, implemented, and maintained
to meet state water quality requirements and any other more stringent
requirements as determined by the municipality.
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 pre-construction stormwater infiltration and runoff conditions
so that post-construction 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 pre-construction stormwater
infiltration conditions;
(2)
Treatment: use of water quality treatment BMPs to
ensure filtering out of the chemical and physical pollutants from
the stormwater runoff; and
(3)
Stream bank and stream bed protection: management
of volume and rate of post-construction stormwater discharges to prevent
physical degradation of receiving waters (e.g., from scouring).
D.
Developed areas shall provide adequate storage and treatment facilities necessary to capture and treat stormwater runoff. If site conditions allow for infiltration, the water quality volume and the recharge volume are the same volume and may be managed in a single facility. If infiltration cannot be physically accomplished, the water quality volume should be calculated using the net two-year volume approach described in § 228-20A(2). In this case, the water quality volume may be captured and treated by methods other than infiltration BMPs.
(1)
This volume requirement can be accomplished by the
detained volume of wet basins and other BMPs. Only the detained volume
of water above the permanent pool elevation in a wet basin can be
utilized. Where appropriate, wet basins shall be utilized for water
quality control and shall follow the guidelines of the BMP manuals
referenced in Appendix F.[1]
[1]
Editor's Note: Appendix F is included at the
end of this chapter.
(2)
The water quality volume shall take a minimum of 24
hours to be discharged from a BMP facility. Release of the water quality
volume 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 provide for protection from clogging and unwanted
sedimentation.
E.
For areas within defined special protection subwatersheds
that include EV and HQ waters, the temperature and quality of water
and streams shall be maintained through the use of temperature sensitive
BMPs and stormwater conveyance systems.
F.
To accomplish the above, the applicant shall submit
original and innovative designs to the Municipal Engineer for review
and approval. Such designs may achieve the water quality objectives
through a combination of different BMPs.
G.
If a perennial or intermittent stream passes through
the site, the applicant shall create a stream buffer extending a minimum
of 50 feet to either side of the top-of-bank of the channel. The buffer
area shall be maintained with and encouraged to use appropriate native
vegetation (refer to Appendix B of the Pennsylvania Stormwater Best
Management Practices Manual, latest version, for plant lists). If
an existing buffer is legally prescribed (i.e., deed, covenant, easement,
etc.) and it exceeds the requirements of this chapter, the existing
buffer shall be maintained. This does not include lakes or wetlands.
H.
Evidence of any necessary permit(s) for regulated earth disturbance activities from the appropriate DEP regional office must be provided to the municipality. The issuance of an NPDES construction permit [or permit coverage under the statewide general permit (PAG-2)] satisfies the requirements of § 228-21A.
A.
In addition to the control of water quality volume
(in order to minimize the impact of stormwater runoff on downstream
stream bank erosion), the primary requirement is to design a BMP to
detain the proposed conditions two-year, twenty-four-hour design storm
to the existing conditions one-year flow using the SCS Type II distribution.
Additionally, provisions shall be made (such as adding a small orifice
at the bottom of the outlet structure) so that the proposed conditions
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).
B.
The minimum orifice size in the outlet structure to
the BMP shall be three inches in diameter where possible, and a trash
rack shall be installed to prevent clogging. On sites with small drainage
areas contributing to this BMP that do not provide enough runoff volume
to allow a twenty-four-hour attenuation with the three-inch orifice,
the calculations shall be submitted showing this condition. Orifice
sizes less than three inches can be utilized, provided that the design
will prevent clogging of the intake.
A.
Peak runoff control shall be designed to reduce the
post-development peak flow to 50% of the pre-development peak flow.
Development sites must control proposed conditions runoff rates to
50% of the existing conditions runoff rates for the two- , five- ,
ten- , twenty-five- , fifty- and one-hundred-year storm
events.
B.
The calculated peak discharges shall apply regardless
of whether the grading plan changes the drainage area by subarea.
C.
Off-site areas. Off-site areas that drain through
a proposed development site are not subject to release rate criteria
when determining allowable peak runoff rates. However, on-site drainage
facilities shall be designed to safely convey off-site flows through
the development site.
D.
Site areas. Where the site area to be impacted by
a proposed development activity is less than 50% of the total site
area, only the proposed impact area utilizing stormwater management
measures shall be subject to the peak rate control standards noted
above.
E.
Alternate criteria for redevelopment sites. For redevelopment
sites, one of the following minimum design parameters shall be accomplished,
whichever is most appropriate for the given site conditions as determined
by the municipality:
A.
Stormwater runoff from all development sites with
a drainage area of greater than five acres shall be calculated using
a generally accepted calculation technique that is based on the NRCS
Soil Cover Complex Method. Table 2 summarizes acceptable computation
methods, and the method selected by the design professional shall
be based on the individual limitations and suitability of each method
for a particular site. The municipality may allow the use of the Rational
Method to estimate peak discharges from drainage areas that contain
less than five acres.
|
Table 2
| |||
|---|---|---|---|
|
Acceptable Computation Methodologies for
Stormwater Management Plans
| |||
|
Method
|
Developed By
|
Applicability
| |
|
TR-55 (or commercial computer package based
on TR-55)
|
USDA NRCS
|
Applicable for land development plans within
limitations described in TR-55
| |
|
Rational Method (or commercial computer package
based on Rational Method)
|
Emil Kuichling (1889)
|
For sites less than 5 acres, or as approved
by the municipality and/or Municipal Engineer
| |
|
Other methods
|
Varies
|
Other computation methodologies approved by
the municipality and/or Municipal Engineer
| |
B.
All calculations consistent with this chapter using
the Soil Cover Complex Method shall use the appropriate design rainfall
depths for the various return period storms according to the region
in which they are located as presented in Table E-1 in Appendix E
of this chapter.[1]
[1]
Editor's Note: Appendix E is included at the
end of this chapter.
C.
The following criteria shall be used for runoff calculations:
(1)
For development sites not considered redevelopment,
the ground cover used in determining the existing conditions flow
rates shall be as follows:
(a)
Wooded sites shall use a ground cover of "woods
in good condition." A site shall be considered to be a wooded site
where a biological community dominated by trees and other woody plants
exists that covers an area of 10,000 square feet or more, and contains
at least 100 trees with at least 50% of those trees having a dbh of
two inches or greater. (Duerksen, Christopher J., with Suzanne Richman,
Tree Conservation Ordinances, Planning Advisory Service Report Number
446, American Planning Association, Chicago, Illinois, and Scenic
America, Washington, D.C., August, 1993.)
(b)
The undeveloped portion of the site, including
agriculture, bare earth, and fallow ground, shall be considered as
"meadow in good condition," unless the natural ground cover generates
a lower curve (CN) number or Rational "c" value (i.e., woods) as listed
in Tables E-2 or E-3 in Appendix E of this chapter.[2]
[2]
Editor's Note: Appendix E is included at the
end of this chapter.
(c)
Offsite land use conditions used to determine
storm flows for designing storm facilities shall be based on existing
land uses assuming winter or poor land cover conditions.
(2)
For development considered redevelopment sites, the
ground cover used in determining the existing conditions flow rates
for the developed portion of the site shall be based upon actual land
cover conditions.
D.
All calculations using the Rational Method shall use
rainfall intensities consistent with appropriate times-of-concentration
for overland flow and return periods presented in the appropriate
curves from the PennDOT Storm-Duration-Frequency Chart (Region 4 is
included as Figure E-3-A. The user should refer to the Atlas 14, Volume
2, Storm-Duration-Frequency Chart). Times-of-concentration for overland
flow shall be calculated using the methodology presented in Chapter
3 of Urban Hydrology for Small Watersheds, NRCS, TR-55 (as amended
or replaced from time to time by NRCS). Times-of-concentration for
channel and pipe flow shall be computed using Manning's equation.
E.
Runoff curve numbers (CN) for both existing and proposed
conditions to be used in the Soil Cover Complex Method shall be obtained
from Table E-2 in Appendix E of this chapter.
F.
Runoff coefficients (c) for both existing and proposed
conditions for use in the Rational Method shall be obtained from Table
E-3 in Appendix E of this chapter.
G.
Where uniform flow is anticipated, the Manning equation
shall be used for hydraulic computations and to determine the capacity
of open channels, pipes, and storm sewers. Values for Manning's roughness
coefficient (n) shall be in accordance with Table E-5 in Appendix
E.
H.
Outlet structures for stormwater management facilities
shall be designed to meet the performance standards of this chapter
using any generally accepted hydraulic analysis technique or method.
I.
The design of any stormwater detention facilities
intended to meet the performance standards of this chapter shall be
verified by routing the design storm hydrograph through these facilities.
The design storm hydrograph shall be computed using a calculation
method that produces a full hydrograph. The municipality may approve
the use of any generally accepted full hydrograph approximation technique
that shall use a total runoff volume that is consistent with the volume
from a method that produces a full hydrograph.
B.
Any stormwater management facility (i.e., detention
basin) required or regulated by this chapter designed to store runoff
and requiring a berm or earthen embankment shall be designed to provide
an emergency spillway to handle flow up to and including the one-hundred-year
proposed conditions. The emergency spillway shall be designed assuming
no storage volume is available below the emergency spillway crest
elevation. The height of embankment must provide a minimum one foot
of freeboard above the maximum elevation computed when the flow is
passing over the emergency spillway. Should any stormwater management
facility require a dam safety permit under DEP Chapter 105, the facility
shall be designed in accordance with Chapter 105 and meet the regulations
of Chapter 105 concerning dam safety. Chapter 105 may be required
to pass storms larger than the one-hundred-year event.
C.
Any facilities that constitute water obstructions
(e.g., culverts, bridges, outfalls, or stream enclosures) and any
work involving wetlands governed by DEP Chapter 105 regulations (as
amended or replaced from time to time by DEP) shall be designed in
accordance with Chapter 105 and will require a permit from DEP.
D.
Any other drainage conveyance facility that does not
fall under Chapter 105 regulations must be able to convey, without
damage to the drainage structure or roadway, runoff from the one-hundred-year
design storm with a minimum one foot of freeboard measured below the
lowest point along the top of the roadway. Any facility that constitutes
a dam as defined in DEP Chapter 105 regulations may require a permit
under dam safety regulations. Any facility located within a PennDOT
right-of-way must meet PennDOT minimum design standards and permit
submission requirements.
E.
Any drainage conveyance facility and/or channel not
governed by Chapter 105 regulations must be able to convey, without
damage to the drainage structure or roadway, runoff from the one-hundred-year
design storm. Conveyance facilities to or exiting from stormwater
management facilities (i.e., detention basins) shall be designed to
convey the design flow to or from that structure. Roadway crossings
must be able to convey runoff from a one-hundred-year design storm,
while providing a minimum one foot of freeboard measured below the
lowest point along the top of the roadway. Any facility located within
a PennDOT right-of-way must meet PennDOT minimum design standards
and permit submission requirements.
F.
Storm sewers must be able to convey proposed conditions
runoff from a one-hundred-year design storm without surcharging inlets.
G.
Adequate erosion protection shall be provided along
all open channels and at all points of discharge.
H.
The design of all stormwater management facilities
shall incorporate sound engineering principles and practices. The
municipality reserves the right to disapprove any design that would
result in construction in or continuation of a stormwater problem
area.
The following criteria shall be used for the
design of detention and wet basins. Any reference to a "detention
basin" shall also include a "wet basin."
A.
Basin setback. Basin setback is to be measured from
the elevation of the one-hundred-year routed water surface elevation.
The following basin setbacks are to be considered minimums. Any basin
setback criteria outlined in other sections and considered to be more
restrictive than the information mentioned below shall govern. The
following setbacks are required for stormwater management facilities:
(1)
Stormwater retention or detention basins shall be
located at least 50 feet from any structure, whether existing or proposed.
(2)
Stormwater retention or detention basins shall be
located at least 50 feet from any property line or right-of-way.
(3)
Stormwater retention or detention basins shall be
located at least 50 feet from existing wetlands, or the banks of existing
streams.
B.
Outlet structure. An outlet structure shall be utilized
to regulate water flow at all detention basin locations. The outlet
structure shall be constructed of precast or poured in place concrete
with controlled orifices. The outlet structure shall be constructed
to provide a minimum of two feet between the top of the outlet structure
and the crest elevation of the emergency spillway. The height of the
outlet structure shall be designed such that no flow enters the top
of the structure for the one-hundred-year storm event. A trash rack
shall be provided to prevent debris from entering the outlet structure.
All outlet structures shall have a concrete base attached with a watertight
connection. The base shall extend three feet below the bottom of the
basin elevation. All outlet structure connections are to be watertight.
All outlet structures are to be one-piece units with low-flow channels
installed.
C.
Emergency spillway. Whenever possible, the emergency
spillway for detention basins shall be constructed on undisturbed
ground. Emergency spillways shall be constructed of reinforced concrete
checker blocks or other permanent material, if approved by the Township
Engineer. All emergency spillways shall be constructed so that the
detention basin berm is protected against erosion. Emergency spillway
erosion protection shall extend along the upstream and downstream
berm embankment slopes. The protection for the upstream edge of the
emergency spillway shall be installed a minimum of two feet below
the spillway crest elevation. The protection for the downstream edge
of the spillway shall, at a minimum, extend to the toe of the berm
embankment slope. The emergency spillway shall not discharge over
earthen fill and/or easily erodible material. The design depth across
the emergency spillway shall not exceed six inches. The minimum capacity
of the emergency spillway shall be designed to equal the peak flow
rate from the one-hundred-year basin captured design storm. The capacity
of the emergency spillway must consider the outlet structure to be
blocked as well as no volume being available below the emergency spillway
crest elevation.
D.
Antiseep collars. Antiseep collars shall be installed
around the basin outfall pipe barrel within the normal saturation
zone of the detention basin berm. The antiseep collars and their connections
to the pipe barrel shall be watertight. The antiseep collars shall
extend a minimum of two feet beyond the outside of the basin outfall
pipe barrel. The maximum spacing between collars shall be 14 times
the minimum projection of the collar measured perpendicular to the
pipe. A minimum of two antiseep collars shall be installed on each
pipe outlet. The antiseep collars shall be a minimum of eight inches
in thickness.
E.
Freeboard. Freeboard is the difference between the
design flow elevation over top of the emergency spillway and the top
of the detention basin berm. The minimum freeboard shall be one foot.
F.
Width of berm. The minimum top width of detention
basin berms shall be 10 feet.
G.
Slope of basin bottom. In order to insure proper drainage
of the detention basin, a minimum grade of 2% shall be maintained
for all sheet flow. A minimum grade of 1% shall be maintained for
all channel flow. Under certain circumstances, such as continuous
seasonal flow, the Township may require a low flow channel to be constructed.
These standards do not apply, if approved by the Township Engineer,
if the basin is to be utilized for infiltration or as a biofiltration
device.
H.
Energy dissipaters. Energy dissipating devices (rip-rap
aprons, impact stilling basins, etc.) shall be placed at all basin
outlet locations. Any pipe or other component which discharges directly
into the basin shall be equipped with an energy dissipating device
and shall outlet into the bottom of the basin. Impact stilling basins
shall be utilized in all applicable areas unless approved otherwise
by the Township Engineer.
I.
Landscaping and grading of detention basins. All landscaping
and grading standards shall be as follows:
(1)
Cuts. No excavation shall be made with a cut face
steeper than three horizontal to one vertical. Retaining walls are
permitted in basin cut areas. Retaining wall designs must be approved
by the Township Engineer. The top of the slope or headwall of any
cut must be located a minimum of 25 feet from property lines.
(2)
Fills. No fills shall be made which create any exposed
surfaces steeper in slope than three horizontal to one vertical. Retaining
walls are not permitted in basin fill areas. The top of any fill or
toe of the slope of any fill shall be located 25 feet from any property
line with the exception of a downstream property line where the toe
of the embankment shall be placed a sufficient distance, as determined
by the Township Engineer, to allow for energy dissipating devices,
but in no case less than 25 feet.
(3)
Planting requirements. All areas proposed for recreational
use, whether active or passive, shall be planted to effectively naturalize
the areas to become an integral and harmonious element in the natural
landscape. Whenever possible, the side slopes and basin shape shall
be amendable to the natural topography. Straight side slopes and rectangular
basins shall be avoided. The planting of trees in basin embankment
areas is prohibited.
(4)
Drainage channels and retention areas. All storm drainage
channels and retention areas, whether existing or proposed, shall
be graded and planted to effectively naturalize areas so as to become
an integral and harmonious part of the landscape by contour and type
of plant material employed.
(5)
Fence or screening. A fence or suitable vegetation
screen shall be provided around all detention basins as required by
the Township. Fencing and gates shall be a type approved by the Township,
a minimum of four feet in height with locking gates. Each basin shall
be provided with a minimum of two gates, one wide enough for maintenance
vehicles and a second gate for pedestrian access. All vegetative screening
shall be at least 3 1/2 feet in height and shall be composed
of the following shrubs: Barberry (Barberis species); Eleagnus (Eleagnus
species); Firethorn (Pyracantha species); or Rose (Rose species).
All vegetative screening shall provide a barrier to prevent entrance
to the detention basin area and planted in such a way as to gain the
approval of the Township. The fencing or vegetative screening requirement
shall be waived only upon Township approval.
J.
Basin location.
(1)
Whenever a basin will be located in an area underlain
by limestone, a geological evaluation of the proposed location shall
be conducted to determine susceptibility to sinkhole formations. The
design of all facilities over limestone formations shall include measures
to prevent groundwater contamination and, where necessary, sinkhole
formation. The Township may require the installation of an impermeable
liner in detention basins. The Township may require a detailed hydrogeologic
investigation.
(2)
The municipality may require the developer to provide
safeguards against groundwater contamination for uses, which may cause
groundwater contamination, should there be a mishap or spill.
(3)
It shall be the developer's responsibility to verify
if the site is underlain by limestone. The following note shall be
attached to all drainage plans and signed and sealed by the developer's
engineer/surveyor/landscape architect/geologist:
|
______________________, represents that the
proposed detention basin is/is not (circle one) underlain by limestone.
|
K.
Basin outfall pipe. All basin outfall pipes shall
contain rubber-gasketed-style joints as utilized and meeting the requirements
of the Pennsylvania Department of Transportation.
L.
Embankment placement. All detention basin embankments
shall be placed at a maximum of eight-inch lifts to a minimum of 95%
of maximum dry density as established by ASTM D-1557. Prior to proceeding
to the next lift, the compaction shall be checked by the Township
Engineer or the Soils Engineer. The developer's contractor shall obtain
the services of a qualified laboratory technician to conduct compaction
tests on the leading and the trailing edge of the berm along with
the top of berm. All tests shall be furnished to the Township for
review.
M.
Key trench. A key trench (cutoff trench) of impervious
material shall be provided under all embankments that require fill
material. The key trench shall be a minimum of eight feet wide, two
feet below existing grade, a minimum of two feet above the top of
the pipe and have side slopes of 1:1. The key trench must be constructed
with soils suitable for this application and found to be acceptable
by the Township Engineer. Proper compaction techniques acceptable
to the Township Engineer are to be utilized during construction.
N.
Trash rack. A trash rack shall be installed on all
outlet structures. Trash racks are to be constructed of #5 rebar with
a 3/8 inch by 1.5 inch flat steel anchoring frame. The rebar is to
be constructed at six inches on center in either direction. All rebar
crossings are to be welded. The trash rack is to be mounted to the
outlet structure using four-inch bolts with concrete anchors at a
maximum of twelve-inch spacing. The trash rack is to be triple coated
with a rust-prohibitive coating. All hardware is to be stainless steel.
The trash rack is to be sized to allow a minimum of six inches of
clearance around any orifice located on the outlet structure. Trash
racks are to be a minimum of 18 inches in depth.
O.
Wet basins. Permanent plantings for wet ponds shall
be designed by a wetland biologist to have a mixture of plants that
thrive in wet areas.
P.
Easements. Easements for all basins and storm pipes
not located within the public street right-of-way shall be provided.
Q.
Miscellaneous. The following items listed below shall
be submitted to the Township for review. Any reference to a "detention
basin" shall also include a "wet basin."
(1)
Design computations for the sizing of the outlet structure.
(2)
A stage-storage discharge curve for the detention/wet
basin.
(3)
Flood routing and/or storage requirement calculations.
(4)
A cross-section through the basin embankment berm.
The detail shall indicate top of berm elevations, top of berm width,
emergency spillway and lining, side slopes, outlet structure, trash
rack, routed one-hundred-year water surface elevation, outfall pipe,
key trench, antiseep collars, energy dissipater, basin bottom and
other information found to be necessary by the Township Engineer.
(5)
A separate detail illustrating all necessary outlet
structure information.
(6)
A separate detail illustrating all necessary emergency
spillway information.
(7)
A separate detail illustrating all necessary trash
rack information.
(8)
Any other calculations or details determined to be
necessary by the Township Engineer.
The following criteria shall be used for the
design of stormwater drainage systems:
A.
Design flow rate. The storm drain system as well as
sump conditions shall be designed to carry a one-hundred-year peak
flow rate without surcharging the structure. The design one-hundred-year
peak flow rate for each inlet shall be indicated on the stormwater
management plan. The flow rate shall be determined by the rational
formula:
|
Q = CIA
|
|
Where:
| ||||
|---|---|---|---|---|
|
Q
|
=
|
Peak runoff rate, cubic feet per second (cfs)
| ||
|
C
|
=
|
Runoff coefficient equal to the ratio of the
runoff rate to the average rate of rainfall over a time period equal
to the time of concentration
| ||
|
I
|
=
|
Average rainfall intensity to inches per hour
for a time equivalent to the time of concentration
| ||
|
A
|
=
|
Drainage area in acres
| ||
|
Appropriate values for runoff coefficients and
rainfall intensities are found in Appendix E, Table E-3 entitled "Rational
Runoff Coefficients."[1]
| ||||
[1]
Editor's Note: Appendix E is included at the
end of this chapter.
B.
Overflow system. An overflow system shall be provided
to carry flow to the detention basin when the capacity of the storm
drainpipe system is exceeded or structures become blocked. The overflow
system shall be of sufficient capacity to carry the one-hundred-year
peak flow rates.
C.
Inlet capacity. All inlets must be designed to accommodate
the one-hundred-year peak flow rate. Inlets shall be spaced to limit
the gutter spread to no more than 1/2 of the width of the travel lane
during the ten-year storm. Inlets shall be sumped no more than one
inch in depth at gutter face. The capacity of all C, M, or S type
inlets shall be determined from the following source:
|
Commonwealth of Pennsylvania
Department of Transportation
Design Manual, Part 2
Highway Design
|
D.
Straight pipe selections. Wherever possible, all storm
drainpipes shall be designed to follow straight courses. No angular
deflections of stormwater pipe sections shall be permitted. No vertical
curves shall be permitted in the storm drainpipe system.
E.
Minimum grade and size. All storm drainpipes shall
be designed to maintain a minimum grade of 1/2%. All storm pipes shall
have a minimum inside diameter of 15 inches, except that pipes under
a twenty-five-foot or greater fill shall not be less than 24 inches.
F.
Pipe material. All storm sewers shall be a Class III
reinforced concrete pipe material with rubber-gasketed joints, which
meets the one-hundred-year life expectancy criteria as defined by
the Pennsylvania Department of Transportation.
G.
Pipe capacity. The capacity of all pipe culverts shall
be calculated as outlined by the following source:
|
United States Department of Commerce
Bureau of Public Roads
Hydraulic Engineering Circular No. 5
Hydraulic Charts for the Selection of Highway
Culverts
|
H.
Elliptical pipe/pipe arches. Where headroom is restricted,
elliptical pipe or equivalent pipe arches may be used in lieu of circular
pipes. If elliptical pipe or pipe arches are chosen, appropriate structural
information and/or calculations must be submitted to the Township
Engineer to gain approval.
I.
Allowable headwater depth. At all inlets or manholes,
the maximum allowable headwater depth shall be six inches below the
top of the inlet grate or manhole cover.
J.
Horizontal pipe deflections. A manhole or inlet shall
be provided at all horizontal deflections in the storm pipe system.
In order to maximize hydraulic efficiency in inlets, the angle between
inflow and out flow pipes shall not be less than 90°, unless approved
by the Township Engineer.
K.
Minimum and maximum cover. A minimum of 24 inches
of cover shall be maintained over all storm drainpipes. The top of
storm drainpipes shall be at least six inches below subgrade elevation.
L.
Pipe discharge into basins. Storm pipe systems shall
be designed to discharge at the basin's bottom or at the permanent
pool elevation for wet basins. No discharge at the top or side of
basin embankments is permitted.
M.
Energy dissipaters. Energy dissipating devices (rip-rap
aprons, impact stilling basins, etc.) shall be placed at all pipe
end treatments. Impact stilling basins shall be utilized in all applicable
areas unless approved otherwise by the Township Engineer.
N.
Drainage easements. Drainage easements shall be provided
to accommodate all storm drainage systems and shall be a minimum of
20 feet in width. Easements shall be provided for all watercourses
and storm drainage piping that are not located within street rights-of-way.
Storm drainage pipes are not permitted under buildings or structures.
O.
Culverts and drainage channels.
(1)
Design flow standards. All culverts and drainage channels
shall be designed to carry a flow rate equal to a one-hundred-year,
twenty-four-hour storm (NRCS, Soil Conservation Service, Technical
Release No. 55).
(2)
Erosion prevention.
(a)
All drainage channels shall be designed to prevent
the erosion of the bed and bank areas. The flow velocity in all vegetated
drainage channels shall not exceed three feet per second to prevent
erosion unless special provisions are made to protect banks and channel
bottoms against erosion. Suitable bank stabilization shall be provided
where required to prevent erosion of the drainage channels.
(b)
Where storm sewers discharge into existing drainage
channels at an angle greater than 30° from parallel with the downstream
channel flow, the far side bank shall be stabilized by the use of
rip-rap, masonry and/or concrete walls. The stabilization shall be
designed to prevent erosion and frost heave under and behind the stabilizing
media.
(3)
Maximum side slope. Any vegetated drainage channel
requiring mowing of the vegetation shall have a maximum grade of three
horizontal to one vertical of those areas to be mowed.
(4)
Design standard. Because of the critical nature of
the vegetated drainage channels, the design of all vegetated channels
shall, at a minimum, conform to the design procedures outlines in
the PADEP manuals. Several acceptable sources outline procedures for
nonvegetated drainage channels, including the following:
(5)
Reference to publications and source documents in
this section shall be deemed to include any amendments and revisions
thereof.
P.
Manholes, inlets and endwalls. Manholes, inlets, and
endwalls shall be constructed to the requirements of PennDOT Specifications,
Publication 408, Section 605 and the latest details of the PennDOT
standards for roadway construction, these specifications and the Township
Standard Construction Details. All stormwater management structures
must be supplied by a PaDOT Bulletin 15 approved supplier. These requirements
must be stated on the approved plans.
(1)
Concrete structures.
(a)
Manholes, inlets and endwalls shall be constructed
of concrete, built on prepared foundations, conforming to the dimensions
and form indicated on the plans. The construction shall conform to
the methods, forms, mixture, placement, and curing, as specified in
PennDOT Specifications, Publication 408, Section 704, unless Township
procedures are provided. Any reinforcement required shall be of the
kind, type, and size, and shall be furnished, located, spaced, bent,
and fastened as indicated on the plans or mentioned in Publication
408, and shall be reviewed by the Engineer before the concrete is
poured. Inlet tops shall contain a warning that no dumping is permitted,
and that the structure drains to a waterway, in accordance with applicable
NPDES Stormwater Permit requirements. Type "C" inlet tops must contain
a thirty-six-inch by five-inch cast aluminum plate containing the
following language "NO DUMPING . . . DRAINS TO
WATERWAY". The text is to be black with the entire plate being clear-coated
for protection. The plate should be attached to the inlet hood with
an appropriate epoxy.
(b)
All low-flow channels shall be installed and
shaped accurately so as to be smooth, uniform, and cause minimum resistance
to flow. The sides of the low-flow channel shall extend up the side
of the inlet a minimum of 12 inches. The surface of the bottom slab
shall be sloped downward toward the outlet.
(2)
Manholes.
(a)
All manholes, which are less than seven feet
from top of manhole to invert, shall be constructed with "flat slab"
top sections in lieu of the standard conical-shaped top sections.
(b)
The base slab shall consist of reinforced concrete
mixed prepared, and placed in accordance with the requirements of
the PennDOT Specifications as set forth in Publication 408, unless
Township procedures are provided. It shall be built to the correct
elevation, and shall be finished to cause the least possible resistance
to flow. The invert may be formed directly in the concrete of the
manhole base, or be constructed by laying half sections of pipe through
the manhole and casting the concrete base around the pipe. The base
slab shall be a minimum of 12 inches thick below the pipe.
(c)
All castings shall be true to form and dimensions,
and shall be free from inclusions of foreign material, casting faults,
injurious blow holes, cracks, sponginess, and other defects rendering
them unsuitable.
(d)
The finished frame and cover or grate shall
have the surfaces machined or ground so that there will be no variation
that will permit rocking or rattling, and the diameter of the cover
or grate shall be such as to fit the frame without wedging: All castings
shall be thoroughly cleaned and given one coat of Hydrocide 648 or
equal. The words "UPPER FREDERICK TOWNSHIP" and the word "STORM" in
two-inch letters shall be cast into the manhole cover. Manhole covers
shall also contain a warning in one-inch (minimum) lettering that
no dumping is permitted, and that the structure drains to waterways,
in accordance with applicable NPDES Stormwater Permit requirements.
The following language shall be used: "NO DUMPING . . . DRAINS
TO WATERWAY".
(e)
Manhole castings shall have a lid with a diameter
of 24 3/4 inches placed in a frame opening diameter of 25 inches.
(f)
Grates for inlets shall be bicycle safe as detailed
in PennDOT Standard for Roadway Construction Steel Grate - Bicycle
Safe.
(3)
Inlets. At street intersections, inlets shall be placed
to prevent the flow of water across intersections. When there is a
change in pipe size in the inlet, the elevation of the top of pipes
shall be the same or the smaller pipe higher. A minimum drop of 0.2
of one foot shall be provided between the inlet pipe invert elevation
and the outlet pipe invert elevation.
(4)
Endwalls. Pipe end sections and/or headwalls shall
be utilized at all terminated pipe segments.
(5)
Manhole, inlet and endwall spacing. When proposed,
manholes, inlets and endwalls shall not be spaced more than 400 feet
apart for pipes of less than or equal to 24 inches in diameter and
500 feet apart for pipes of greater than 24 inches in diameter. Additionally,
manholes or inlets shall be placed at all changes in alignment, grade
or pipe size, and at all points of convergence of two or more influent
storm sewer lines. Inlets may be substituted for manholes where they
will serve a useful purpose.
(6)
Steps. All manholes and inlets greater than four feet
in depth shall be provided with steps. Steps shall conform to PennDOT
Publication 408, Section 605 and be made of aluminum, nondeterioration
material, or galvanized steel. Steps of aluminum shall be protected
from galvanic reaction between the aluminum and the concrete.
Q.
Swales. Properly designed, graded and lined drainage
swales may be permitted in lieu of storm sewers in commercial, industrial
and residential areas where approved by the Township. Swales are to
be designed to carry the one-hundred-year peak flow rate. Swale lining
must meet the County Soil Conservation design standards. All drainage
channels shall have a maximum side slope grade of three horizontal
to one vertical. All drainage swales shall be provided with a minimum
of 12 inches of freeboard, measured from the top of the design storm
flow to the top of the swale.
R.
Pavement base drain. Pavement base drains shall be
provided in areas delineated as having a "seasonal high water table"
or in areas deemed necessary by the Township Engineer during the design
or construction phase of the project. The installation of the underdrain
system shall be approved by the Township Engineer and paid for by
the developer. Pavement base drains shall be constructed in accordance
with PennDOT Pub. 408, Section 610, as amended. Appropriate construction
details must be provided on the construction detail sheet to gain
Township Engineer approval.
S.
PennDOT right-of-way. All drainage structures located
within a state highway right-of-way shall be reviewed and approved
by the Pennsylvania Department of Transportation (PennDOT). A letter
from PennDOT indicating such approval shall be submitted to the Township
prior to municipal approval.
T.
Other requirements. At the direction of the Township,
in situations where the design standards or ordinance requirements
contained within this section do not adequately address stormwater
management concerns for the given site conditions, the Township may
require the applicant provide additional and/or alternative design
methods to meet the objectives of this chapter as determined by the
Township.
