Only public-type facilities (mains that will be maintained by the public utility) can be placed within these easements. No private service lines or laterals can utilize these easements, unless otherwise approved by the City Engineer or their designee.

The owners of the property where the existing off-site easements reside should be notified in writing and at a minimum of forty-eight (48) hours in advance of the anticipated work, of any impacts to that property (either physical alterations of the property or losses of some service of the property). Any concerns shall be addressed with the property owner. Failure to reasonably restore the property to its prior condition may result in withholding of escrow releases or issuances of related permits until these issues are addressed. The Engineering Department shall be provided copies of any and all agreements, notifications and correspondences with the property owner prior to construction plan approval.

If the adjacent property owner is a common ground or private property (with no apparent off-site easements providing rights), then the developer of the project shall be required to obtain new off-site easements prior to plan and/or permit approval.

The City is not responsible for the acquisition of these off-site easements.

Extended Foundation. An extended foundation will be required when any of the said utilities are installed along the side yard. Foundations will be extended such that the foundation is outside of the 1:1 shear plan along the utility.

Standard drawing numbers: C203.66-C203.70, C604, C614, and C725-C732 drawings are not adopted.

All references to "St. Louis County" in any form shall be replaced with "City of O'Fallon" where appropriate.

All references to "department" shall mean the "Department of Engineering of the City of O'Fallon" where appropriate.

The standard details for construction of pavements shall follow those standards established by the ordinances of the City. The ordinances of the City of O'Fallon supersede and take precedence over the St. Louis County Standard Specifications for Highway Construction and standard details.

Construction Staking. All construction staking shall be provided by the contractor unless otherwise indicated by the City Engineer.

All concrete used for public infrastructure (streets, sidewalks, trails and curbs) in the City of O'Fallon shall be approved by the Eastern Missouri Pavement Consortium (EMPC) and meet requirements specified in City Ordinance No. 6335[1] approved on April 13, 2017. This includes roadways that are being developed and intended to become public roadways upon dedication and acceptance by the City.

Per City Ordinance No. 6335[2] approved on April 13, 2017, underdrains shall be required and installed per Exhibit A in Appendix D[3] of the O'Fallon City Municipal Code [Section 405.390(A)(5)]. Underdrains are required to be installed at all inlets. If a roadway has an open-type drainage system, underdrains are to be installed every five hundred (500) feet.

A representative sample of proposed limestone, calcitic dolomite or other mineral referred to as "limestone" that is used for coarse aggregate for concrete shall undergo appropriate testing, by an independent third-party testing agency to determine and verify that the coarse aggregate to be utilized does not exhibit, and is not susceptible to, alkali-carbonate reaction (ACR). Said third-party testing agency or agencies will need to be a City-approved agency that is experienced in performing the necessary tests.

For ACR testing, the testing performed shall include ASTM C295, ASTM C586 and ASTM C1105. The agency performing these tests must be informed prior to testing to look specifically for the potential of ACR, and the reports generated from the testing shall specifically address the potential of ACR in the text. This testing shall be performed for each ledge within a quarry that is planned to be used for concrete pavement within the City of O'Fallon.

The following requirements pertain to the ASTM C295 test. For the first two (2) years of this requirement, the tests shall be made within six (6) months of the planned use in concrete. After the first two (2) years of testing within a quarry, the City Engineer may allow the interval between tests to go up to one (1) year if there is convincing evidence to show this is warranted. The petrograph test shall be performed by a petrographer experienced in identifying ACR-prone dolomitic limestone or calcitic dolomite. The reports of the testing noted herein shall be submitted to the City with the concrete mix design submittal.

The following requirements pertain to the ASTM C586 and ASTM C1105 tests. These test reports shall be required to be submitted to the City beginning on August 1, 2017. The period of time from approval of this Chapter to when the reporting is required to be submitted allows time for the tests to be completed. For the first two (2) years of this requirement being in place, these tests shall be made within twelve (12) months of the planned use in concrete pavement. After the first three (3) years of testing within a quarry, the City Engineer may allow the interval between tests to go up to two (2) years if there is convincing evidence to show this is warranted.

In lieu of performing the above testing, Meramec gravel can be utilized for coarse aggregate in Portland cement concrete pavement. The coarse aggregate shall be Meramec gravel meeting Missouri Department of Transportation current "Missouri Standard Specifications for Highway Construction," Section 100.5.1.5, Gradation "D."

All coarse and fine aggregate material utilized for Portland cement concrete pavement shall have been inspected and approved by the Missouri Department of Transportation (MoDOT) for said use. If MoDOT inspection is not available, a third-party testing agency that is experienced in performing the necessary test will need to be approved by the City. The delivery ticket shall be marked to indicate that the rock has been tested and meets MoDOT specifications.

Coarse aggregate utilized for Portland cement concrete pavement shall only be used from rock ledges that have been inspected and accepted by MoDOT for said use. If MoDOT inspection is not available, a third-party testing agency that is experienced in performing the necessary test will need to be approved by the City.

A complete copy of the results of the above-referenced testing, as well as mix design submittal information, MoDOT certifications and other associated certifications required per this Chapter and per the St. Louis County Standard Specifications for Road and Bridge Construction shall be submitted to the City a minimum of seven (7) days prior to the placement of the concrete. The City must be in agreement with said test results, mix designs and certifications prior to the placement of any concrete.

For all granular base material deliveries, the delivery ticket must be annotated or signed by the rock supplier to indicate that the granular base material meets the Missouri Department of Transportation (MoDOT) requirements for Type 5 aggregate for base. This ticket must be submitted to the City for recordkeeping purposes at the time of delivery. Any deliveries made without the proper delivery tickets, including signature, will not be accepted for use. In lieu of a signature on the delivery ticket a separate product certification sheet with a signature of the company's quality control manager may be provided to go with the delivery tickets. The product certification sheet must be current, dated to within four (4) weeks of the date of delivery and also list the project name or job site location.

More than one (1) crack in a slab shall require a full slab replacement. However, if there is one (1) crack in the slab and there is deflection in the crack or other structural concern, then the full slab shall be replaced.

Depth. Trench backfill less than eight (8) feet in depth shall be probed to a depth extending to half the depth of the trench backfill, but not less than three (3) feet. Trench backfill greater than eight (8) feet in depth shall be probed to half the depth of the trench backfill but not greater than eight (8) feet.

Equipment. The jetting probe shall be a metal pipe with an exterior diameter of one and one-half (1.5) to two (2) inches.

Method. Jetting shall be performed from the low surface topographic point and proceed toward the high point, and from the bottom of the trench backfill towards the surface. The flooding of each jetting probe shall be started slowly allowing slow saturation of the soil. Water is not allowed to flow away from the ditch without first saturating the trench.

Surface Bridging. The contractor shall identify the locations of the surface bridging (the tendency for the upper backfill crust to arch over the trench rather than collapse and consolidate during the jetting process). The contractor shall break down the bridged areas using an appropriate method such as wheels or bucket of a backhoe. When the surface crust is collapsed, the void shall be backfilled with the same material used as trench backfill and rejetted. Compaction of the materials within the sunken/jetted area shall be compacted such that no further surface subsidence occurs.

Cylinders/Compressive Strength. One (1) set of four (4) cylinders within the first fifty (50) cubic yards and one (1) set per one hundred (100) cubic yards thereafter. One (1) cylinder must be tested at seven (7) days, one (1) at fourteen (14) days and two (2) at twenty-eight (28) days. If the first cylinder does not meet specifications at twenty-eight (28) days, then the second cylinder must be held and tested at day fifty-six (56).

Percent Air And Temperature. First truck batch each day and two (2) thereafter until a consistency is encountered. Once a consistency is encountered, then tests will be performed in conjunction with the concrete cylinders.

Slump. First truck batch each day and two (2) thereafter until a consistency is encountered. Once a consistency is encountered, then tests will be performed in conjunction with the concrete cylinders.

If concrete is batched from more than one (1) plant, then the aforementioned guidelines will be applicable to each plant.

Proof roll as described in Section 405.210(B).

One (1) compaction test per two hundred fifty (250) feet of mainline paving, three (3) tests per intersection, five (5) tests within culs-de-sac and one (1) test per repair slab.

Gradation test for subbase material.

One (1) set of compaction tests per two hundred fifty (250) feet of mainline. One (1) set includes three (3) tests across the paved lane at the same station.

One (1) bulk density test per paving operation.

Within City Right-Of-Way. Material is to be placed in eight-inch to twelve-inch loose lifts and compacted per the approved compaction requirements. One (1) compaction test will be performed every two hundred fifty (250) feet along the center line for each lift.

Outside Of City Right-Of-Way. Material is to be placed in eight-inch to twelve-inch loose lifts and compacted per the approved compaction requirements. One (1) compaction test will be performed at two-foot vertical intervals and approximately every one thousand (1,000) cubic yards.

Daily. Descriptive daily reports are required for each day a representative is present on-site from the quality control company (soil testing firm). At a minimum, the daily report should include representative on-site, date, materials observed, activities performed, weather, recommendations or concerns made and to whom.

Proctor Reports. Must have a valid Proctor value prior to testing on-site. At a minimum, the Proctor curve provided must include sample location and must have five (5) density points (values) and moisture (values) listed on the document, optimum moisture content, maximum dry density, zero air voids curve and assumed specific gravity, natural moisture content, Proctor type and procedure, liquid limit, plastic limit.

Compaction Report. At a minimum, the compaction reports will include elevation of test and rod depth, station/specific location, Proctor type, optimum moisture content, maximum lab dry density, in place moisture content, in place dry density, percent compaction, does/does not comply with specification requirements, specification requirements, material type, weather, date. If a drawing is needed to show location of the tests, the drawing must be professionally done or at least on sheet copy of the plans. No hand drawings will be accepted.

Concrete Report. At a minimum, the field concrete report will include location of concrete placed, representative on-site, date, weather, concrete supplier, ticket and truck number, time truck arrived on-site, time concrete poured, air temperature, concrete temperature, mix type, strength requirement, water added, slump (actual and required), air content (actual and required), number of cylinders cast, overnight temperature, overnight storage temperature, date received at lab. At a minimum, the laboratory concrete field report will include age (days) of test, test date, cylinder diameter, cylinder area, load (pounds), compressive strength (psi), does/does not comply with specification requirements.

Air meter: weekly.

Cylinder compression: annually by independent calibration service.

Batch scales: monthly.

Nuclear testing devices: every six (6) months.

Proctor equipment: every six (6) months.

Slump cone: monthly.

Existing entrances that are already closer than two (2) feet from the property line.

Multi-family dwellings.

City staff may allow minor alterations in special circumstances.

For commercial driveways, for new concrete entrances at existing pavement and curbing, saw cut at one (1) foot and install tie bars, five-eighths-inch diameter, eighteen (18) inches long, at twelve-inch centers along all saw-cut edges. New tie bars shall be placed in drilled holes with non-shrink grout or epoxy. The bars, where existing, shall be cleaned and straightened for incorporation in the new concrete.

For commercial driveways, the new driveway edge up against existing street pavement shall match the street pavement thickness. All street pavement removed and replaced shall be the same thickness. After the gutter line or the edge of street pavement line, it shall then flare back to the seven-inch minimum depth within a two-foot length.

If the existing sidewalk adjacent to the driveway is over one and one-half percent (1.5%) in cross slope, then the first panel of sidewalk immediately adjacent to the driveway shall be removed and replaced as a transition section.

An exception to this requirement is when a sidewalk does not exist nor is not planned to be built.

Guardrail shall be provided for protection of traffic adjacent to creeks and lakes, at bridge ends, piers, large signs (with no breakaway base) and headwalls, and as street barricades, as directed by the Engineering Department. Refer to the St. Louis County Standard Drawings C606.01 through C606.23.

Crossroad culverts, not at low points, shall be designed on a storm frequency of fifteen (15) years with entrance control and two (2) feet of freeboard at the shoulder line.

Culverts, at or near low points in floodplains, shall be designed on a storm frequency of one hundred (100) years with entrance control and two (2) feet of freeboard at the shoulder line.

Culverts, at or near low points not in floodplains, shall be designed on a storm frequency of fifty (50) years with entrance control and two (2) feet of freeboard at the shoulder line.

Pipes within the public right-of-way or easement shall be reinforced concrete pipe (RCP) ASTM C-76, Class III, and a minimum of twelve (12) inches diameter. Design calculations may be submitted allowing a lower class of RCP.

The use of high-density polyethylene (HDPE) shall not be allowed.

The use of polypropylene (PP) shall not be allowed.

The use of corrugated steel pipe should only be considered when all options for reinforced concrete pipe are deemed not feasible. Corrugated steel shall be M-36, minimum sixteen-gauge asphalt polymer, or aluminized coating, a minimum of eighteen (18) CSP, will be allowed with these conditions. This pipe material may be used for private driveway culverts or private road culverts, as the maintenance shall be with the property owner, even though the pipe is in the right-of-way.

Additional general pipe requirements.

The required stormwater hydraulics shall be submitted with all types of pipes.

Pipe reduction will not be allowed.

In situations where storm pipe cover is less than three (3) feet, calculations will be required to determine the class or gauge of pipe.

All new concrete pipe shall be installed with O-ring rubber-type gaskets per MSD Standard Construction Specifications. Connections at all existing structures are to be made with rubber, watertight A-lock joints or approved equals, as determined in the preconstruction meeting or prior to construction. Broken and/or unsuitable connections shall be removed and replaced.

Pipes normally should be sized using the partial flow design; however, under special circumstances, full flow design will be allowed, provided hydraulic grade line information is shown indicating adequate freeboard. This additional information will be supplied for the fifteen-year and 100-year storms.

Freeboard requirements will be two (2) feet from the inlet sill or manhole top.

Starting Hydraulic Grade Line.

If existing storm sewers are located near a proposed development, where proposed storm sewers are planned, then they shall all be connected, at the direction of the City Engineer. No new flared-end pipe sections shall be allowed to be placed within one hundred (100) feet of an existing flared-end pipe section, nor will a rip-rap area connection between pipes be allowed to be installed, unless the discharge separately into a creek. Instead, an enclosed connection shall be made between the two (2) pipe sections, the existing flared-end section shall be removed, area inlets or other means of drainage capture shall be installed as required, and the area shall be covered and regraded as needed to ensure that proper drainage for the area continues unabated. The developer responsible for the new connection shall be responsible for obtaining all required easements, performing piping installation, performing grading operations and any/all other work necessary to achieve this connection.

Site Drainage Map. A drainage map is required and should be developed from a base reproduction of the site plan or grading plan. Plans and calculation shall be prepared in accordance to the checklist pertinent for the type of development (See Title IV Notes: Notes and Appendixes, Appendix C[2] for application and checklist for compliance with this Section).

Supplemental Drainage Map. A supplemental map may be required and should be developed from a portion of U.S.G.S. Quadrangie Map. This map must include the site boundary and the watershed tributary to the project area.

Surface Drainage. The following information shall be provided by the developer:

Location Of Drainage Structures. The lateral location of all drainage structures shall be shown by street center line stationing and perpendicular offset distance, and in large lot subdivisions, by referencing to rear lot line, in addition to the following requirements:

The City retains the right to require detention storage in all cases in which the proposed development will generate excess runoff that adversely affects the carrying capacity of the receiving watercourse.

Developments less than one (1) acre with less than thirty percent (30%) of the area paved and developments generating less than one (1) cubic foot per second per acre (cfs/acre) increased runoff shall not be required to provide detention storage unless the condition in Subsection (B)(1)(a) above is applicable.

This Section shall apply for all newly platted areas and new developments proposed after August 17, 1987. All developments that have an approved preliminary plan by the Planning and Zoning Commission at the time of the approval of this Section will not have to conform to this Section.

The time of concentration;

A one-hour storm; and

A twenty-four-hour storm.

The highwater elevations for all of the above-mentioned storm events shall be provided on the plans.

The maximum ponding elevation shall be calculated based on a routing of the design storm (100-year, twenty-minute) assuming the lowest outlet is blocked with the water ponded to its maximum elevation. A minimum of one (1) foot of freeboard shall be provided from the top of the basin to the maximum ponding elevation.

Any existing development that was approved and accounted for detention under previous City codes, shall continue to maintain detention requirements that were applicable at the time, and those former requirements will continue to be allowed, even if the property use expands (for example, a building addition, a parking lot addition).

Any redevelopment of a tract of land shall have the current standards applied to the complete site.

Any undeveloped lot(s) within an existing development (residential or commercial) that is already covered with detention, under previous City requirements or as may have been accepted by the City with annexations, may continue being developed under the previous requirements, unless:

FEMA. Floodplain regulations and implementing ordinances adopted by municipalities. Drainage systems designed within the limits of the designated 100-year floodplain on the principal stream shall be designed to convey the flood as defined by applicable published floodplain information studies. For areas located in FIRM Zone "A" outside the detailed study, the developer shall prepare studies and calculations establishing the floodplain, elevation and width. These calculations shall be submitted to the reviewing agencies for approval.

Missouri Department Of Natural Resources. Rules and regulations of the Dam and Reservoir Safety Council shall apply to those Missouri structures classified as dams thereunder.

Principal spillways shall be designed to meet the following requirements:

Emergency Spillways. The emergency spillway shall be provided to pass a 100-year storm without damaging any property and, where applicable, designed to DNR dam safety requirements. Overland flow route will be required to be depicted on the plan for emergency spillways.

Outlet Works. Detention facilities shall have an outlet works consisting of valves, gates, pipes and other devices as necessary to completely drain the facility in seventy-two (72) hours or less when required for maintenance or inspection on normally wet basins.

Sediment Storage. Public detention facilities shall be designed to provide for five (5) years of sediment accumulation calculated by using Figure 1 in Appendix D.[1] All other detention facilities shall provide storage for two (2) years of sediment accumulation by using Figure 1, except for those using roofs of buildings, paved parking areas or other facilities designed to preclude the deposition or accumulation of sediment. Sediment storage volume shall be in addition to the volume required for temporary storage of stormwater to properly size the detention facility on normally wet basins.

Erosion and Sediment Control. A SWPPP shall be developed to prevent erosion in principal spillways and prevent the flow or runoff of mud, silt, dirt, debris and other materials onto streets, sidewalks and other public rights-of-way, in accordance with the guidelines and requirements as set forth in Section 405.245 of the City Code. Special measures shall be taken by the developer to not permit sediment from filling the proposed detention basin during all construction of the proposed development unless a design is provided and approved to use the detention basin as a temporary silt basin until such time as the stormwater improvements are completed and the site vegetated.

Public Detention Facilities. As a general rule, detention facilities shall be private facilities. When determined that a facility shall be a public facility, the owner shall dedicate the detention facility and easements with the recording of the record plat, except:

Private Detention Facilities. Shall be designed requiring the same criteria as the public detention facilities. The amount of easement shall be equal to the land occupied by the facility, plus a twenty (20) foot wide strip around the perimeter of the highest elevation attained by the design storage volume, plus an access easement twenty (20) feet in width between the facility and the public street. This easement shall be shown as common ground and be dedicated to the trustees of the subdivision or owner of the multi-family, commercial or industrial property for the purpose of maintenance of the stormwater detention facility and shall not be part of a residential lot. The easements as described above shall also be dedicated to the City for emergency access or periodic inspection. The following items shall be addressed:

Plan Requirements. The plan requirements shall be the same as set out in Section 405.230 of this Chapter with the following additions:

Width shall be six (6) feet, starting at where the normal pool elevation intersects the bank.

Slope of the safety bench shall not exceed 6:1.

The 3:1 slope of the basin banks shall then start at the back of the safety bench.

Any aquatic bench (defined as a stormwater BMP) being considered shall be a separate entity from the safety bench.

On-site detention will be required whenever increased runoff from the proposed development creates a hazard downstream.

Supplemental detention may be provided by means of modifications to the off-site or regional basin if feasible. If it is not feasible, then supplemental detention on-site shall be provided.

If the off-site/regional detention facility is existing at the time of development, then the developer of the subject property shall provide approval for use of the detention facility (that also addresses maintenance responsibility) for said facility, prior to approval.

For underground detention facilities, the owner(s) shall be required to submit an annual maintenance report to the City Engineer verifying its condition and that it is operating and functioning per the approved plans. Said inspection shall be performed by a competent professional who is experienced in this type of work.

No modifications shall be made to any privately owned stormwater system and/or detention facility, without a permit or other approval from the City.

Conversion examples include, but are not limited to, native grasses, wildflowers, removal of concrete swales, or alteration of outfall structures.

If approved, the owner(s) shall prepare and submit a maintenance schedule for the conversion. Modifications will be subject to inspection during conversion and continue after acceptance.

If approved, converted areas shall be excluded from mowing requirements as stated in Section 220.100, Weeds, but an alternative mowing/maintenance schedule shall be submitted and followed.

Maintenance of such systems will continue to be the responsibility of the property owner(s) as stated in Subsection (E)(2) through (7).

Under no circumstances does the altercation from a detention facility to a native vegetation area waive the requirements for detention.

All erosion and sediment control measures shall be fully installed and implemented prior to any work necessitating major land disturbance so as to prevent the flow or runoff of mud, silt, dirt, debris and other materials onto streets, sidewalks and other public rights-of-way. Additionally, positive steps shall be exercised to prevent mud, silt, dirt, debris and other materials from damaging adjacent property and silting up all storm drainage systems whether on- or off-site.

No land disturbance activity shall result in the impounding of surface water on property other than the permittee's unless the permittee obtains easements or licenses for that purpose.

Runoff into receiving streams from any area undergoing land disturbance activities that is greater than three (3) acres shall not exceed the two (2) year twenty-four (24) hour peak runoff rate for that area in its pre-developed state.

Temporary discharges into receiving streams from any area undergoing land disturbance activities shall not result in the accelerated erosion of those streams' channels at the point of discharge.

If temporary facilities and erosion and sediment controls installed pursuant to approved plans fail to meet the performance standards set out herein, the Director of Engineering or their designee may require the permittee to submit modified plans which meet the required standards.

For storms exceeding the design storm (fifteen-year, twenty-minutes), any silt or debris leaving the site and affecting public rights-of-way or stormwater drainage facilities shall be cleaned up within twenty-four (24) hours after the end of the storm.

Design Storm. Designs for erosion and sediment controls and temporary facilities constructed during land disturbance activities shall be sufficient at a minimum to accommodate stormwater flows from a fifteen-year, twenty-minute storm.

Runoff Coefficient. The runoff coefficient (C) corresponds to the effective runoff based on ground cover, ground slope and that portion of rainfall that is lost to surface runoff by processes such as depression storage, infiltration, interception and evaporation. The runoff coefficients in Table 1 shall be used in calculating peak runoff rates and stormwater volumes.

The runoff coefficients shall be determined for each drainage area to proposed erosion and sediment control and temporary facilities based on the following criteria:

Stormwater Runoff Calculation Method. The Rational Method, as developed by Mulvaney in 1851, shall be used to determine the peak (maximum) runoff rate. The Rational Method (also known as the Rational Formula) is:

Sediment Storage Volume Calculation. The total volume of sediment storage within a storage facility shall be based on the drainage area, in acres, which is:

Total Storage Volume Calculation. The total storage volume for determining sizing of storage structure is the combined volumes of stormwater (wet and dry) and sediment storage with an additional one (1) foot of freeboard to the spillway elevation or top of berm.

Temporary seeding shall be used if the area will be disturbed later in the development. The area must be vegetated by permanent seeding or sodding, when no further land disturbance will occur.

Seeding, fertilizing and mulching shall be applied at the rates and times specified in the Protecting Water Quality Field Guide (latest edition as prepared by the Department of Natural Resources).

Mulch can be used as temporary cover in unseeded areas to protect against erosion over the winter or until final grading and shaping can be accomplished. Application rates are shown in the Stormwater Management Policy.

Temporary seeding and mulching shall be placed on at least seventy percent (70%) of the total disturbed site area according to the stabilization schedule.

Temporary seeding may be suspended in portions of the project area which have an active building permit. Upon completion of the building activity, the site must be permanently stabilized.

Seeded areas shall be refertilized four (4) weeks after initial seeding. The seeded area shall be inspected at that time for uniform cover and adequate density. All areas which are bare or sparse [less than thirty percent (30%) ground cover] shall be reseeded and mulched.

Non-degradable mats shall be used only as a permanent installation and in areas that will not be mowed.

Overall size of the development.

Proposed contours/existing graded conditions.

Soil composition on the site.

Size of watershed affected by the development.

Presence of streams, creeks or other natural water courses on the site.

Interim/transitional SWPPP plans.

Additional/alternative erosion control measures.

Construction timing and ability to grow ground cover.

All drainage shall be designed to transport surface waters to the nearest practical storm drain, natural watercourse or street as approved by Engineering Review.

Diversion channels and ditches are to be designed to a non-erosive velocity as defined in the geotechnical report required for the site. Diversion ditch length shall not exceed eight hundred (800) lineal feet.

A rock outlet is required at all pipe and improved channel discharges to open watercourses. The maximum design velocity shall be seven (7) feet per second (fps). If the discharge velocity exceeds seven (7) fps, an engineered energy dissipater shall be required.

Sediment volume shall be determined in accordance with Subsection (C)(2)(d).

Dewatering time shall be twenty-four (24) hours for the total volume of wet storage of the basin.

The outlet must be designed to convey the required runoff with a minimum one (1) foot freeboard between the water surface of the outlet and the top of the basin embankment.

Any conditions found by the Director of Engineering or their designee to be violations or items not in conformance with the SWPPP shall be reported to the site supervisor or appropriate personnel with oversight of SWPPP compliance.

The permittee shall have seven (7) calendar days after notification of a violation, commencing the working day following the day on which the violation notice was provided, to complete remediation or corrections. The Director of Engineering or their designee, may grant an extension, if the permittee reasonably demonstrates that the repairs cannot be made within the specified timeframe.

A subsequent reinspection of the site shall be conducted by the appropriate City personnel. If any items have not been remedied to conform with the approved SWPPP, the City Administrator can issue a Stop Work Order for the site, per Section 405.500. Any and all activities related to construction with the exception of work related to remediating SWPPP items, shall cease until such remedies have been made.

It is an ordinance violation, punishable as provided in Section 100.010, for any permittee, developer, construction company or other party to proceed with work not related to the SWPPP or in any way violate the Stop Work Order. In addition, such a violation may result in the suspension or revocation of all approval or permit(s) to conduct work on the site.

Private property with an easement dedicated to the trustees or owners' association requiring maintenance of the areas as the responsibility of the trustees or owners' association;

Private property subject to a conservation easement in favor of an organization or land trust dedicated to environmental protection or land preservation such as Trailnet, Inc., the Open Space Council for the St. Louis Region or similar organization;

Set aside in a stream bank mitigation program approved by the United States Army Corps of Engineers under the provisions of the Clean Water Act.

Installing additional erosion and sediment control;

If the stream has the potential for lateral movement, installing stream stabilization practices within the stream;

For those sites where vegetation does not exist, establishing vegetation; and/or

Additional tree planting.

The water quality volume (denoted as the WQv) is the storage needed to capture and treat the runoff from ninety percent (90%) of the recorded daily rainfall events. In numerical terms, it is equivalent to one and fourteen hundredths (1.14) inches of rainfall multiplied by the volumetric runoff coefficient (Rv) and site area. The WQv is directly related to the amount of impervious cover created at a site. A minimum WQv of two-tenths (0.2) inches per acre shall be met at all sites.

Redevelopment projects can appeal to the Planning and Zoning Commission to reduce or eliminate WQv if it can be shown that there are stormwater enhancements being provided.

The water quality volume WQv for off-site areas is not required. The following equations are used to determine the storage volume, WQv (in acre/feet of storage):

Measuring Impervious Cover. The measured area of a site plan that does not have vegetative or permeable cover shall be considered total impervious cover.

Multiple Drainage Areas. When a project contains or is divided by multiple drainage areas, the WQv volume shall be addressed for each drainage area.

Off-Site Drainage Areas. The WQv shall be based on the impervious cover of the proposed site. Off-site existing impervious areas may be excluded from the calculation of the water quality volume requirements.

BMP Treatment. The final WQv shall be treated by an acceptable BMP(s) from the list presented in this Chapter.

Extended Detention For Water Quality Volume. The water quality requirements can be met by providing a twenty-four-hour draw down of a portion of the water quality volume (WQv) in conjunction with a stormwater pond or wetland system.

BMP Group 1 stormwater ponds.

BMP Group 2 stormwater wetlands.

BMP Group 3 infiltration practices.

BMP Group 4 filtering practices.

BMP Group 5 open channel practices.

Capturing and treating the required water quality volume (WQv).

Removing eighty percent (80%) of the TSS.

BMP Group 1. Stormwater Ponds. Practices that have a combination of permanent pool, extended detention or shallow wetland equivalent to the entire WQvs include:

BMP Group 2. Stormwater Wetlands.

BMP Group 3. Infiltration Practices.

BMP Group 4. Filtering Practices.

BMP Group 5. Open Channel Practices.

Sanitary sewer systems outside the City of O'Fallon service area shall be reviewed and approved by the appropriate sewer district servicing the area. Approval letters shall be forwarded to the City of O'Fallon Engineering Department for service areas within the municipal boundaries.

All sanitary sewer laterals shall be Schedule 40 PVC material. The wye shall be installed at the same standard as the main.

Developers of commercial or industrial lots shall complete and submit to the City a sewer pre-treatment survey form.

If a pump station is being considered in the City's district, the developer shall use the City's standard design, where applicable. The City's sewer consultant may be engaged to review any technical design report or documents pertaining to any final mechanical system. Any alterations of the City's standard design shall be reviewed and approved by the City and/or the City's sewer consultant. Said consultant shall provide recommendations to the City for the final design to be built with the development.

Any plan for a mechanical system shall be presented to Planning and Zoning, with the development. A concept level study will be required at the area plan or preliminary plat stage.

Any mechanical system shall be built in accordance to the City's requirements in order to provide a reliable system to the public.

If required, the proposed connection will be recommended to the City Council as part of the Planning and Zoning review and approval of the proposed development.

Any hydraulic analysis shall require the City's model to be updated. The City's water consultant shall be engaged to review any technical design report or documents pertaining to any final system layout and to update the model.

Curb and gutter are not required; flat-bottom open drainage ditches, approved by the City Engineer and/or his/her designee, shall be provided in lieu of curb and gutter.

Sidewalks are not required except in situations where deemed appropriate by the Planning and Zoning Commission and/or the City Council in order to provide direct access for pedestrians to recreational areas, common ground, schools, churches, shopping areas, pedestrianways and multipurpose trails linking adjoining streets and neighborhoods.

Streetlights shall be required at all entrances and intersections and shall be provided at a maximum five-hundred-foot separation.

With the approval of the City Engineer and/or his/her designee, the maximum grade of a minor residential street can be increased to fifteen percent (15%) for short stretches of pavement. A short stretch of pavement is defined as being less than one hundred fifty (150) lineal feet not counting the curve and separated by approximately three hundred (300) lineal feet of grades at ten percent (10%) or less.

With adequate parking on driveways, pavement width can be reduced to twenty-foot width with three-foot rock shoulders on each side. No on-street parking would be allowed in this design. Adequate parking is defined as four (4) for more parking spaces on each driveway not counting the garage.

In Ameren Missouri's territory, streetlights shall be installed by the developer in a manner that meets the specifications and rates for "Service Classification No. 6 (M) Street and Outdoor Area Lighting — Customer Owned" for unmetered service, seventy-one (71) watt minimum (LED-Light Emitting Diode) — standard at the energy and maintenance rate (if applicable, otherwise energy only). The City Engineer shall prepare more specific details for this specification. After inspection and acceptance by the City, the lighting facilities will be maintained and operated by the City. With the developer incurring the full cost of the light installations and connections, streetlight billing in new subdivisions shall be turned over to the City for payment once lights are turned on. Connection fees will be paid to the City by the developer with the City being responsible for payment of the connection fee to the utility company when the lights are ready to be turned on. The City will provide written direction to the electric company to add new lights to the City's bill. During the period when an escrow for streetlighting is in place, escrowed funds may be used for any maintenance expenses incurred or to be incurred by the City. The standard post top luminaries for the City shall be either the Early American style or the Colonial style.

In Cuivre River Electric Cooperative's territory, streetlights must be similar in style and installation to the lights noted in Subsection (B)(3) and installed according to Cuivre River Electric Cooperative's requirements. Until a rate is established, for a City-owned post-top light, the installation will be a company-owned light. When a new rate is established for City-owned streetlights similar to Ameren UE's customer-owned rate, streetlight installations shall be made in a manner that closely follows Subsection (B)(3).

Said streetlight shall remain operational per the City requirements. Continuous and proper function of the streetlight will be required as a condition of approval for shared use on the pole. Failure to meet this requirement could result in the required removal of the equipment.

Planning and Zoning Commission approval may be required prior to construction. The applicant shall contact the Director of Planning and Development for the process.

A separate permit through the City will be required for plan approval and prior to construction. An agreement may also be required as part of the terms and conditions of connecting to the pole.

Single-family residential subdivisions with an average lot size between one-half (1/2) acre and one (1) acre shall have sidewalks installed on one (1) side of the street.

Single-family residential subdivisions with a minimum lot size one (1) acre or larger shall not have sidewalks required.

Private alleys shall not have sidewalks required.

A sidewalk is not required on the side of the street where a multipurpose trail is required in lieu of a sidewalk.

Cul-de-sac streets shall have sidewalks installed on both sides of the street with the sidewalk terminating at the radius of the turnaround.

Sidewalks shall have a minimum pavement width of six (6) feet for arterial and of five (5) feet for collector streets and four (4) feet for all other streets. Sidewalks constructed immediately behind the curb shall be a minimum of one (1) foot wider than said widths.

Sidewalks shall have a lateral slope of one and one half percent (1 1/2%) with a tolerance of plus or minus (one half percent) 1/2%.

Sidewalks shall be placed within the street right-of-way, one (1) foot away from the property line.

Sidewalks shall be constructed of a minimum of four (4) inches of Portland cement concrete on a compacted rock leveling course with an average thickness of two (2) inches, except in driveways where it shall be a minimum of six (6) inches of Portland cement concrete on a compacted rock base with a minimum thickness of four (4) inches.

For any sidewalks that are through a driveway apron, refer to Section 405.210 for further requirements.

Accessible curb ramps shall be installed at all street intersections according to Federal regulations. The width of the sidewalk shall extend through the curb ramp.