Locations, sizes, flow line elevations and grades, type of pipe, channels, boxes, manholes, and other structures drawn on standard plan-profile sheets;

Existing and proposed ground line profiles along centerline of the drainage improvement;

A list of the kind and quantity of material;

Typical sections and reinforcement of all boxes and channels;

Location of property lines, street paving, sanitary sewers, and other utilities, both public and private.

All bridges shall be designed to accommodate a one hundred (100) year frequency rain. Box culverts, pipe culverts, channels, and ditches shall be designed to accommodate a one hundred (100) year frequency rain at all locations having a drainage area in excess of 1.00 square mile. Locations having a drainage area of less than or equal to 1.0 square mile shall be designed to accommodate a twenty-five (25) year frequency rain.

Channel improvement types shall be as follows:

Bridges and culverts. Bridges, box culverts, or concrete pipe culverts shall be provided where continuous streets or alleys cross watercourses. The structure shall be designed in accordance with City specifications for materials and to carry HS-20 loadings in all cases.

Closed storm sewers. Closed storm sewers shall either be reinforced concrete box or pipe of approved type designed for HS-20 loadings. Reinforced concrete pipe or reinforced concrete boxes must be used within two (2) feet of the back of the street curb and under paved areas.

All storm sewers having trench walls within two (2) feet of the back of the street curb shall be backfilled with granular material. The use of corrugated steel, zinc-coated pipe and extra strength clay pipe, will not be permitted within two (2) feet of the curb or under pavement areas. All pipe materials shall meet the requirements of the latest revision of the City of Monett Standard General Conditions and Technical Specifications for Public Works Construction.

Grades for closed storm sewers shall be designed so that the velocity shall not be less than three (3) feet per second nor exceed twelve (12) feet per second. All other structures such as junction boxes or inlets shall be in accordance with the Standard Drawings adopted by the City of Monett.

Closed storm sewers shall extend to the furthest downstream point of development with consideration given to velocities and to providing discharge energy dissipators to prevent erosion and scouring along downstream properties.

Open paved concrete channels. Grades for open paved channels shall be designed so that the velocity shall not be less than three (3) feet per second nor exceed twelve (12) feet per second. Such concrete channels may be of different shapes according to existing conditions; however, a channel with a flat bottom and 4:1 to 5:1 side slopes is the most desirable type and shall be used whenever possible. The thickness of channel paving shall depend on conditions at site and size of channel; however, a minimum thickness of six (6) inches is required. A six (6) inch freeboard must be provided. An eighteen (18) inch toe wall is required at both the outlet and inlet ends of the channel.

Open ditches (earth channels). Ditches shall have a gradient that limits the velocity within 1.5 to 5.0 feet per second depending on existing soil conditions. Such ditches shall have a minimum side slope ratio of 3:1. The designer's attention is directed to the fact that the Subdivision Regulations prohibit encroachment of buildings and improvements on natural or designated drainage channels or the channel's flood plains. Such flood plains are areas of land adjacent to an open paved channel or an open sodded ditch that may receive a flood condition from a one hundred (100) year frequency rain. The limits of such flood plains shall be indicated on drainage improvement plan.

Runoff coefficient. The runoff coefficient "C" is the variable in the Rational Formula least susceptible to precise determination and the one that requires the greatest exercise of engineering judgment because of the many area characteristics which affect the coefficient. Among the factors to be considered in influencing the runoff coefficients are the following: present and future zoning; terrain; local ponding or depressions; the amount of pavement; roofs, turf, and other areas having different degrees of imperviousness.

The selection of a coefficient should take into consideration the probable ultimate development of presently undeveloped areas. Suggested values of runoff coefficients are included in the following table:

Rainfall intensity. The average frequency of rainfall occurrence used for design determines the degree of protection afforded by a drainage system.

Maximum intensity of rainfall of a given expectancy is greater for a short period of time than for longer periods. Therefore, it is assumed that the maximum runoff will occur as soon as all parts of the drainage area under consideration are contributing. The length of time from the beginning of rainfall until runoff from the most remote point in the drainage area reaches the point under consideration is called the time of concentration. This may include overland flow time and channel or gutter flow time. Nomographs which may be used for determining time of concentration are reproduced at the end of this Chapter. Once the time of concentration is known, the design intensity rainfall may be determined from the rainfall intensity curves developed from U.S. Weather Bureau data.