Local streets. A street designed to provide access to abutting property from collector and arterial streets.

Collector/frontage streets. Streets which, in addition to serving abutting properties, intercept local streets, connect with community facilities and carry neighborhood traffic to the arterial street systems. Commercial streets serve areas predominately zoned for commercial or industrial uses.

Arterial streets. A street or road of considerable continuity which serves or is intended to serve as a principal traffic way between separated areas or districts and which is the main means of access to the collector street system, highways or expressways.

Methodology of analysis. In determining the amount of storm water runoff resulting from a development and the amount of flow at various points throughout the drainage system, it is important for the designer to relate the methodology to be utilized in his calculations to the proportionate size of the tributary watershed areas. In developments where the area contributing runoff is one hundred (100) acres or less, the Rational Method of calculating the quantity of runoff shall be utilized. Developments where the area contributing runoff exceeds one hundred (100) acres shall be designed using the unit hydrograph method (SCS) or other methodologies approved by the City Engineer.

Criteria for drainage system. All calculations relating to runoff analysis shall be based upon the proposed land use and shall take into consideration any contributing runoff from areas adjacent to the development site. Storm water runoff analysis from adjacent existing developed areas shall be based upon current land usage and topographical features. Property adjacent to the study area that is undeveloped shall be considered as fully developed in accordance with the most probable anticipated future land use. Such land use shall be determined from the City Comprehensive Plan and the City Zoning Map. In the event that the future land use of a specific undeveloped property cannot be adequately projected from available information, the average runoff coefficient © to be used shall not be less than sixty-five hundredths (0.65) for use in the Rational Method or an appropriate equivalent value as approved by the Director of Public Works for any other method. The most likely flow pattern to be utilized for an undeveloped area shall be based upon existing natural topographical features.

Average land slopes in both developed and undeveloped areas may be utilized to calculate runoff rates. The exception to this shall be in areas with existing well-defined drainage patterns and slopes, in which case the actual slope shall be used.

Existing runoff flow rates and velocities at locations of discharge from adjacent upstream developments shall be utilized in the drainage system design. Drainage facilities shall be designed to minimize the velocity of overland flow so as not to cause erosion damage. In areas where excessive velocities exist, adequate dissipating structures shall be provided as required to result in velocities appropriate for the type of erosion control to be utilized or as specified in this criteria.

The primary function of roadways within a development shall be reserved for the conveyance of traffic. The use of these facilities as a storm runoff facility shall be restricted to the requirements established and set forth in these Design Criteria.

The utilization of on-site or on-stream detention and natural drainage ways is recommended and encouraged where feasible. Relocation of existing natural drainage ways will not be approved unless such relocation has been substantiated as a result of a thorough and complete analysis of the resultant consequences.

The designer shall consider all problem areas of his design and analysis to prevent the transfer of these problems from one location to another. All points of drainage outfall shall be designed to preclude creation of downstream flooding problems and hazards to the public. Approval will not be given to any project that involves the construction of any structure or the placement of fill material that will hinder or impair surface or subsurface drainage from surrounding areas.

Open channels. Open channels, natural or improved, may be placed to the rear or side of properties upon approval of the Director of Public Works where the design provides adequate protection to the adjacent property and structures. Such protection shall be through the provision of a 50-year floodplain setback and a minimum clearance from the top of bank to any building of thirty (30) feet.

Enclosed systems. Runoff from drainage areas outside of established or proposed right-of-ways greater than three (3) acres in size shall be collected and transported in an enclosed system. Enclosed systems shall also be utilized within the limits of established or proposed right-of-way for roadways and streets. The drainage system shall remain enclosed until the flow rate is such that the runoff from the design storm for a development can no longer be contained within a seventy-two (72) inch R.C.P. equivalent conduit and an open channel can be entered without negative impact.

At the point of intersection and discharge with the receiving open channel, an energy dissipating structure acceptable to the Director of Public Works shall be provided to limit the discharge velocity from the enclosed system to not more than five (5) fps.

Where storm drainage facilities are located along side property lines, such systems shall be enclosed to a point at least thirty (30) feet beyond the rear corner of adjacent buildings unless otherwise directed or approved by the Director of Public Works. A surface swale shall be designed over this area to contain additional runoff from a 50-year storm.

Complete side and rear drainage systems meeting the criteria established previously shall be provided along the boundaries of new subdivisions or developments by the developer or property owner.

Design storm frequencies. The minimum rainfall event to be utilized in determining the intensity of rainfall for storm flow calculations shall be based on the following land uses:

Storm drainage systems having more than one (1) land use or zoning classification tributary to the system, shall be designed on the basis of the highest runoff producing land use comprising thirty percent (30%) or more of the total tributary area.

Runoff computation. The rational method of calculating storm water quantities, Q=KCiA, shall be used with the following definitions of terms and arbitrary values:

As an alternate to the above coefficients or for areas not specifically listed above, a composite runoff coefficient based on the percentage of the different types of surfaces involved shall be used.

Coefficients with respect to surface type shall not be less than those listed in the following table:

Time of concentration ("TC") equals the overload flow time to the most upstream inlet or other point of entry to the system plus the time of flow in the system upstream from the point under construction. (TC = Ti + Tt)

Antecedent precipitation. "K" represents the frequency factor used to account for antecedent precipitation and shall have the following values. The product of K x C shall not exceed one (1).

Pipe sizing. Pipe sizes in integrated underground systems shall be determined in accordance with the Manning Formula

All storm drainage systems shall be designed so as to maintain a minimum velocity of flow of three (3) feet per second and a maximum velocity of fifteen (15) feet per second when flowing full. All systems discharging at a velocity in excess of five (5) feet per second shall be designed with an acceptable energy dissipating structure.

Because of the potential for street debris to clog inlets and to reflect potential cross section changes due to resurfacing, inlet capacity shall be rated at eighty percent (80%) of the theoretical inlet capacity unless otherwise approved by the Director of Public Works.

Design shall provide that the hydraulic gradient at any opening through which surface water may enter (or backflow from) the system is one-half (0.5) foot or greater below the opening elevation.

Open channels. Unless in a 100-year designated floodplain or a critical area as determined by the Director of Public Works, open channels shall be designed for the 25-year frequency storm. Open channels shall be sized to adequately carry the design rate of flow without damage. Whenever practical, the channel shall be characterized as slow flowing, be wide and shallow and be natural in its appearance and functioning.

Natural channels. Shall conform to the criteria for improved channels except:

Culvert. Culverts under major and minor arterials shall have sufficient capacity to pass the runoff from the appropriate design storm considering twenty percent (20%) of the inlet opening plugged.

Drainage easements shall have minimum widths as described below. A wider easement width may be required at structures or if the easement is shared with other utilities or as determined by the Director of Public Works.