Alternative standard. Applicants may request to use Alternative Standard 1A where a portion of the Standard 1 volume requirement is excused but at least 50% of the total volume is provided (i.e., volume control is achieved for a lesser storm such as the one-year storm). Applicants may also request Alternative Standard 1B where less than 50% of the entire Standard 1 volume requirement is set aside. The need for alternative standards of any type must be based on demonstration by the applicant that, due to the existing soil, bedrock, water table, or other natural conditions and limitations at the site, the Standard 1 volume requirement cannot be satisfied through use of reasonable best management practices, as defined in this chapter. Alternative standards are discouraged by the Township and will be authorized only after thorough scrutiny has been directed toward all possible stormwater management options at all possible locations at the site.

Criteria for alternative standards. Alternative Standard 1A or 1B may be used in those situations where natural site conditions indicate that infiltration is not occurring substantially in the predevelopment condition, resulting in greater runoff volumes. Such natural site factors include presence of bedrock at or near the surface (defined as less than two feet in depth), and/or presence of seasonal high-water table (SHWT, typically defined as at less than two feet), and/or presence of "heavy" soils with extremely low permeability (generally less than 0.5 inch per hour; in some cases 0.25 inch per hour). Alternative Standard 1A or 1B is to be authorized in only those cases where the applicant has demonstrated that one or all of these conditions exist throughout the majority of the site such that no reasonable building program can be undertaken which includes feasible infiltration BMPs. As site size increases, all else being equal, obtaining the use of an alternative standard becomes more difficult because there is greater ability to accommodate both the building program and stormwater management systems. Finally, Alternative Standard 1A or 1B is not to be issued simply because a building program preferred by the applicant precludes otherwise feasible site areas from being utilized for stormwater management BMPs.

Specifically, determining feasibility for infiltration BMPs is a function of:

After installation of impervious cover and all improvements, and assuming full compliance with Standard 1, the peak rate of stormwater discharges from the site for all design storms up to and including a one-hundred-year-frequency storm, postdevelopment, shall not exceed the peak discharges from the site from the same storms before disturbance. Design storms include:

If Alternative Standard 1A has been authorized and at least 50% of the volume requirement specified under Standard 1 is being met, these Standard 2 provisions for peak rate also apply.

If the requirements set forth in Standards 1 and 2 above are not achieved and Alternative Standard 1B is authorized, then an additional water quality requirement must be met in order to guarantee that significant water quality impacts will not result from the proposed development action. Water-quality-oriented best management practices (BMPs) designed to capture and treat stormwater generated for up to the one-inch rainfall event for all site areas being disturbed must be employed. These BMPs include but are not limited to:

In cases of Alternative Standard 1B, the applicant must demonstrate that, for stormwater generated up to the one-inch rainfall event for all site areas being disturbed, two BMPs from the above list are employed to treat stormwater runoff. This dual treatment is required because research findings relating to pollutant-removal effectiveness has demonstrated that infiltration BMPs are substantially more effective at pollutant removal (nonsoluble pollutants) than the primarily noninfiltration BMPs listed above. BMP selection, design, and implementation shall be based upon appropriate reference materials such as the Pennsylvania Handbook of Best Management Practices for Developing Areas, Design of Stormwater Filtering Systems, and other manuals.

Water quality requirements in addition to those contained in Standard 4 above may be imposed by the Township Engineer for projects involving land uses considered to be high pollutant producers or hotspots.

Hotspots include but are not limited to:

Sample pretreatment requirements are listed below:

Peak discharge may be further restricted when it can be shown that a probable risk to downstream structures or unique natural areas exists or that existing severe flooding problems could be further aggravated.

Measures shall be imposed to protect against groundwater or surface water pollution where the type of business activity may result in significant nonpoint-source pollution (so-called "hotspots") or the nature of the soils or bedrock underlying a stormwater management structure constitutes substantial risk of contamination, such as might be the case in limestone formations. Special provisions to be followed in these cases will be provided by the Township Engineer.

Where groundwater yields are very low or where a groundwater supply already is heavily used, the Township may require that the entire volume of the two-year-frequency rainfall (3.2 inches in 24 hours) be retained and infiltrated. If substantial irrigation needs are anticipated, a portion of stored stormwater may be reused for irrigation purposes.

Definition. Natural areas include woodland areas, buffers of wetlands and riparian zones, steep slopes, wellhead protection areas, carbonate/sinkhole zones, and others.

Credit. Subtract these natural areas from the total site area when calculating the one-inch design volume requirement pursuant to Standard 4 above (assumes use of Standard 1B); if Standards 1 and 2 are otherwise being satisfied, these natural areas may be subtracted from Standards 1 and 2 calculations as well.

Requirements. Natural areas must not be disturbed during construction; limits of disturbance must be delineated on construction drawings and flagged in the field; the natural area must be protected in perpetuity, either through viable conservation easement or through enforceable regulation of some type; it must be properly inspected and managed.

Definition. Disconnection of runoff relates to all rooftop areas or other impervious ground surface areas which are directed into pervious areas where it is either infiltrated into the soil or filtered through vegetation, accomplished typically by grading; these areas must either have adequate size and permeability for adequate infiltration and/or extended detention with filtering; vegetated rooftops with storage also may be used.

Credit. Disconnected areas may be subtracted from other areas on the site requiring water quality treatment pursuant to Standard 4 above; at the discretion of the Township Engineer, disconnected areas may also be subtracted from peak rate calculations pertaining to Standard 2 (not Standard 3).

Requirements. Runoff must not be generated from hotspot uses (see above) to receive this credit; the maximum contributing flow length shall be 100 feet; the flow length of disconnection shall not be less than 1.5 times the contributing flow length; the disconnection shall drain continuously through a vegetated channel, swale, forest buffer, or other filter strip to the property line or BMP; and the disconnection shall consist of at least 50% of Hydrologic Soil Groups A and/or B with average slope not exceeding 5% (undisturbed Group C with shrub or woodland vegetation may be counted as B with Township approval). Also, all disconnected flows must be broadly and evenly distributed into vegetated areas in a manner such as through level spreading devices or other techniques which will maintain sheet flow characteristics, avoiding channelization.

Definition. When site design techniques from Credits 1 and 2 are grouped and applied to residential developments, this credit is granted automatically, or when all of the design specifications listed below in Subsection C(3)(c) are utilized.

Credit. This eliminates the need for additional BMPs to satisfy Standard 4 (assuming use of Standard 1B); and it eliminates additional peak rate requirements of Standard 3 regardless of Standard 1 satisfaction.

Requirements. Where total site impervious areas is less than 15%, where clustering is used, where roof and ground surface impervious areas are disconnected as per Credit 2, where grass swales are used rather than conventional curbing with gutter, where at least 30% of the site is protected in natural areas as per Credit 1, and where all runoff from the site is directed as sheet flow to filter strips or riparian buffers, the design is deemed to be environmentally sensitive.

Rational Method runoff coefficients (C) for both existing and proposed conditions shall be obtained from Appendix B-2 of this chapter. If the actual land use is not listed in these appendixes, runoff coefficients shall be chosen from other published documentation, and a copy of said documentation shall be submitted with the stormwater management report.

All calculations using the Rational Method shall use rainfall intensities consistent with appropriate times-of-concentration for overland flow and return periods from NOAA's National Weather Service Precipitation Frequency Data Server (PFDS) or NOAA Atlas 14.

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. Sheet flow shall be determined using Manning's kinematic solution described in Chapter 3 of TR-55, Urban Hydrology for Small Watersheds.

Shallow concentrated flow. Travel time for shallow concentrated flow shall be determined using Figure 3-1 from TR-55, Urban Hydrology for Small Watersheds.

Open channel flows. At points where sheet and shallow concentrated flows concentrate in field depressions, swales, gutters, curbs, or pipe collection systems, the travel times and downstream end 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.

Average antecedent moisture conditions.

An SCS Type II distribution storm (when using TR-55 methodology).

Pennsylvania Region 4 storm intensity-duration-frequency curves (when using Rational Methodology).

Woodland shall be used as the prior condition for those portions of the site having trees of greater than six inches' caliper DBH or where such trees existed within three years of application.

If the initial condition of the site is undeveloped land, the land use shall be considered as "meadow," unless the natural land cover is proven to generate lower CNs or Cs, such as forested lands.

In performing the TR-55 calculations, all those areas to be disturbed during construction shall be assumed to be reduced one hydrologic soil group category level during postdevelopment runoff calculations (e.g., HSG B is reduced to HSG C, and so forth).

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 is not permitted to be ruled out without conducting these tests.

Provide field tests such as double-ring infiltrometer or hydraulic conductivity tests (at the level of the proposed infiltration surface) to determine the appropriate hydraulic conductivity rate. Percolation tests are not recommended for design purposes.

Design the infiltration structure for the required retention (Re_v) volume based on field determined capacity at the level of the proposed infiltration surface.

If on-lot infiltration structures are proposed by the applicant's design professional, it must be demonstrated to Union Township that the soils are conducive to infiltrate on the lots identified.

Excavation for the infiltration facility shall be performed with equipment which will not compact the bottom of the infiltration bed/trench or like facility.

The bottom of the bed and/or trench shall be scarified prior to the placement of filter fabric and aggregate.

Only double-washed, clean aggregate, free of fines, shall be allowed. A stone slip is required to document washing, and the Township Engineer may reject any stone deemed unsuitable for infiltration/recharge facilities.

The top, bottom, and sides of all infiltration beds, trenches, or like facilities shall be covered with drainage filtration fabric in order to prevent sediment and soil from migrating into the infiltration system.

Perforated distribution pipes connected to centralized catch basins and/or manholes with provisions for the collection of debris shall be provided in all facilities. The perforated pipes shall distribute stormwater throughout the entire infiltration bed/trench or like facility.

A positive outlet drainpipe placed at the top of the infiltration bed and/or trench or like facility shall be provided to safely convey larger storm events, as needed. Provision for positive outlet drains also may be made at lower elevations in the infiltration facility in those cases where permeability of the soil is near the lower acceptable limit and concern exists that water may remain in the infiltration facility for extended periods.

Capacities and velocities shall be computed using the Manning Equation. Stabilization (i.e., linings, etc.) shall be as specified in the PADEP Erosion and Sediment Pollution Control Manual, as amended.

All vegetated swales shall have a minimum slope of 1%, unless approved by the municipality.

"n" factors shall be based upon accepted engineering design practices as approved by the municipality.

All swales shall be designed to concentrate low flows to minimize siltation and meandering.

All roadside swales along Township streets, or streets to be dedicated to the Township, are to be lined with appropriate erosion-control blanket or turf reinforcement mats for permanent stabilization.

V-shaped (triangular) swale sections are not permitted.