All subdivisions shall be designed and constructed to conform with the principles, requirements, standards and specifications enumerated in the following sections of the subdivision design standards in the City of Lexington.
A major share of what eventually become publicly owned improvements is designed and constructed by private interests. This article has been prepared for the purpose of ensuring that the design of such improvements will result in construction meeting the requirements of the City. The intent of this article is to explain the processing requirements and procedures as required by the City Code for the various documents required prior to, during, and after construction in order to accomplish these purposes. In addition, this article is intended to provide a uniform design criteria for facilities designed for or directly by the City.
The review and approval of plans, specifications, and contract documents for certain types of improvements are also the legal responsibility of various other public agencies in addition to the City. This article is not intended as a substitute for the requirements of such other public agencies. It shall be the design engineer's responsibility to see that the proposed plans, specifications, and contract documents meet the legal requirements of all other public agencies and that any and all permits and bonds required by such agencies are secured.
It is recommended that, prior to the development of a preliminary plan and/or detailed engineering plans and specifications, the design engineer meet with the City Engineer or his representative to review City requirements for the proposed project. The request for this preliminary meeting, if desired, shall be instituted by the design engineer.
A. 
Subdivision preliminary plan and supporting documents.
(1) 
Required form of a preliminary plan.
(a) 
Plans, drawings, surveys, maps, schematics, and comparable material shall be drawn so that clear and legible transparent or contact prints and photostatic (photographic) copies (reproductions) can be made with a minimum size of 24 inches by 18 inches and a maximum width of 24 inches (594 mm), preferably 24 inches by 36 inches (594 mm by 841 mm), but with a maximum length of 36 inches (841 mm). If the total preliminary plan exceeds more than one sheet, then a one-sheet comprehensive plan of the entire development shall be submitted, and this comprehensive plan sheet will not exceed 48 inches (1,219 mm) in width.[1]
[1]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
(b) 
To be consistent with the current GIS requirements, the City may encourage but does not require that a digital computer-aided drafting file be submitted in accordance with provisions of this section. The official submittal shall be the signed reproducible copy.
(2) 
Required content of a preliminary plan supporting documents.
(a) 
Identification and description.
[1] 
Name of the subdivision, not duplicating the name of any other subdivision, the final plat of which has been recorded in McLean County, Illinois.
[2] 
Legal description of all property included in the preliminary plan, including a reference to the section, township, and range.
[3] 
Name, address, and phone number of the owner or owners of record of all property within the preliminary plan.
[4] 
Name, address, and phone number of the developer of the proposed subdivision.
[5] 
Disclosure of the legal relationship, if any, between the owner and developer, including any of the following:
[a] 
Agent of owner.
[b] 
Purchaser under a contract for sale with owner, contingent or otherwise.
[c] 
Unrecorded owner.
[d] 
Contract purchaser.
[6] 
Name, address, and phone number of the surveyor or engineering firm preparing the boundary survey.
[7] 
Name, address, and phone number of the design engineer preparing any part of the preliminary plan or supporting material.
[8] 
Name, address, and phone number of attorney(s) representing the owner(s) and/or developer(s).
[9] 
The source of all topographical data.
[10] 
Total acreage (hectares) in the preliminary plan.
(b) 
Survey maps and drawings indicating existing conditions. A professional Illinois land surveyor or licensed professional engineer shall prepare graphic presentation of the following in each case, with a north point designation as true North and a date of preparation indicated on the survey map, drawing or plan. Unless otherwise noted, the following shall be drawn to an engineering scale not to exceed 100 feet equals one inch (1,000:1):
[1] 
Boundary line survey map with accurate distances and angles with a permissible error of closure of one in 5,000 prepared and certified accurate by an Illinois professional land surveyor.
[2] 
Topographic map depicting existing contours at vertical intervals of not more than two feet (0.5 m), with reference to USGS datum; the location of watercourses, marshes, and other significant features. Soil boring data and seepage tests may be required at locations and depths as determined by the City Council.
[3] 
Location and perimeter of any area designated as a special flood hazard area as defined in Chapter 75, Flood Damage Prevention. If the property included in the preliminary plan is not in a special flood hazard area, the surveyor or engineer shall so state on the preliminary plan.[2]
[2]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
[4] 
The existing zoning and zoning district lines within the area encompassed by the preliminary plan and the area within 100 feet (30 m) thereof.
[5] 
Specific identification, location and dimensions, if applicable, of the following located within 100 feet (30 m) of the area included in the preliminary plan:
[a] 
Rights-of-way.
[b] 
Streets.
[c] 
Roadways.
[d] 
Drainageways, improved.
[e] 
Drainageways, unimproved.
[f] 
Walkways and trails.
[g] 
Sidewalks.
[h] 
Public easements.
[i] 
Private easements.
[j] 
Railroad rights-of-way.
[k] 
Section lines (if included in the description of the property).
[l] 
Corporate limit lines.
[m] 
Parks, schools, and other public lands.
[n] 
Buildings and structures to remain.
[o] 
Buildings and structures to be removed.
[6] 
Identification, location, size, gradient and invert elevation of sanitary sewers, storm sewers, drainage culverts, catch basins and sanitary and storm sewer manholes located within the area included in the preliminary plan, the area within 100 feet (30 m) of the perimeter of the area included in the preliminary plan or located elsewhere if such constitutes the nearest existing sanitary sewer, storm sewer, drainage culvert, catch basin, sanitary sewer manhole or storm sewer manhole serving the area included in the preliminary plan.
[7] 
Identification and location of water mains, including all valves and hydrants and any other underground utilities located within the area included in the preliminary plan, the area within 100 feet (30 m) of the perimeter of the area included in the preliminary plan or located elsewhere if such constitutes the nearest existing water main, valve or hydrant or other underground utility serving the area included in the preliminary plan.
[8] 
Location of or reference to location of existing monuments or survey markers used in preparation of the boundary line survey map and benchmarks.
[9] 
Location map drawn to any scale showing an area bounded by the nearest major or collector street, but not less than two miles (3.0 km) beyond the boundaries of the area included in the preliminary plan.
(c) 
Surveys, maps, plans and drawings of proposed conditions. A registered professional engineer shall prepare and certify as accurate to the degree of accuracy specified surveys, maps, plans and drawings with a north point designated as true North and containing a date of preparation depicting the proposed arrangement of the area included in the preliminary plan indicating each of the following to an engineering scale not to exceed one inch equals 100 feet (1:1,000);
[1] 
Identification, location and dimensions of any of the following required or proposed:
[a] 
Rights-of-way.
[b] 
Interior streets with approximate elevation, widths and proposed gradient.
[c] 
Exterior streets with approximate elevation, widths and proposed gradient.
[d] 
Exterior roadways with approximate elevation, widths and proposed gradient.
[e] 
Street and roadway names.
[f] 
Alleys with approximate elevation and proposed gradient.
[g] 
Walkways and trails.
[h] 
Sidewalks.
[i] 
Public easements.
[j] 
Private easements.
[k] 
Lots.
[l] 
Outlots.
[m] 
Minimum front rear, side yards and building setback lines, indicating dimensions.
[n] 
Other areas proposed for dedication or reservation to the public, indicating in each the approximate acreage.
[o] 
Railroad crossings and rights-of-way.
[p] 
Bridges.
[2] 
Identification, location and size of any of the following required or proposed:
[a] 
Water mains.
[b] 
Valves.
[c] 
Hydrants.
[d] 
Streetlights.
[3] 
Identification, location, size, gradient, invert elevation, and typical cross section of any of the following required or proposed in the area included in the preliminary plan:
[a] 
Drainageways, improved.
[b] 
Drainageways, unimproved.
[c] 
Flood routes.
[4] 
Identification, location, size, gradient, surface elevation, and invert elevation of any of the following required or proposed in the preliminary plan:
[a] 
Sanitary sewers.
[b] 
Storm sewers.
[c] 
Sanitary manholes.
[d] 
Storm sewer inlets and manholes.
[e] 
Sump pump drainage systems.
[5] 
Direction of stormwater runoff from each lot and outlot proposed or required in the preliminary plan.
(d) 
The preliminary plan shall contain the name(s) and seal or seals of the professional engineer or engineers preparing all or any portion of the preliminary plan. All waivers requested of the City's codes and ordinances shall be listed on the preliminary plan. Approval of a preliminary plan shall not constitute waiver of any applicable City codes and ordinances unless the waiver is specifically approved by the Mayor and City Council.
(e) 
If applicable, accompanying the preliminary plan shall be an application for a special flood hazard area development permit as required in Chapter 300, Zoning. The application form has been provided as Exhibit L in the Appendix.[3] The preliminary plan shall show the limits of the special flood hazard area, changes in grade resulting from excavation and filling, location and lowest floor elevation of buildings proposed within the special flood hazard area.
(3) 
Preliminary plan submission procedure.
(a) 
Initial submittal. The owner shall submit to the City Clerk four paper copies of a preliminary plan in the form and providing all information required by this chapter.
(b) 
Final submittal. Upon approval of a preliminary plan by the City Council, the owner shall submit seven paper and one reproducible Mylar copy showing any changes requested by the City Council. The Mylar copy shall be considered the official copy.
B. 
Public improvement engineering plans and specifications.
(1) 
Required form of public improvement engineering plans and specifications.
(a) 
Public improvement engineering plans and specifications, drawings, schematics and comparable material shall be drawn on transparent abelene or black waterproof drawing ink on Mylar from which clear and legible transparent or contact prints and photostatic copies can be made, with a minimum width of 24 inches by 18 inches and a maximum width of 24 inches (594 mm), preferably 24 inches by 36 inches (594 mm by 841 mm), but with a maximum length of 36 inches (841 mm). This shall be considered the official submittal.
(b) 
Supporting material shall be typed on paper not exceeding 8 1/2 inches by 11 inches in size (A-size).
(c) 
General drafting requirements.
[1] 
Plan sheets shall be drawn to scale. The scale shall not normally be greater than one inch equals 50 feet (1:600) horizontal and one inch equals 10 feet (1:100) vertical. The scale shall be clearly labeled on the plan.
[2] 
Plan sheets shall include a North arrow. The North arrow should normally be oriented to the left, top or right of the sheet.
[3] 
Plan sheets shall include a title block, preferably near the lower right of the sheet. The title block shall include the name and address of the design engineer preparing the plan, the date and the sheet number.
[4] 
Stationing shall normally increase from left to right, south to north and west to east.
(2) 
Required content of public improvement engineering plans and specifications.
(a) 
Identification and description. The public improvement engineering plans and specifications shall include a title sheet containing the following information:
[1] 
The name of the proposed subdivision within which or for which the public improvements are proposed.
[2] 
The name, address and phone number of the developer(s).
[3] 
The name, address and phone number of the engineering firm preparing any part of the engineering plans and specifications and an indication of the part of the plans that the engineer or those engineers prepared.
[4] 
Seal or seals of the design engineer or engineers preparing all or any portion of the engineering plans and specifications certifying that the materials so prepared conform with all applicable City codes and ordinances except as specifically noted as a requested waiver.
[5] 
Location map drawn to any scale showing area bounded by the limits of the preliminary plan for which the engineering plans are all or a portion thereof.
[6] 
Two or more benchmark elevations referenced to USGS datum within the boundaries of the project or within 100 feet (30 m) outside the boundaries of the project.
[7] 
An index to all sheets contained within the submitted engineering plans.
(b) 
Grading plan. The public improvement engineering plans and specifications shall include a grading plan containing (but not limited to) the following information:
[1] 
Existing contours at vertical intervals of not more than two feet (0.5 m), with reference to USGS datum.
[2] 
Proposed finish ground surface elevations on all lot corners.
[3] 
Directional arrows of flow of surface waters along rear and side lot lines.
[4] 
Elevation of proposed ground surface at all building sites (or pads).
[5] 
Location, description, and surface elevation of all drainage structures.
[6] 
Directional arrows of flow for flood routing for design storms which exceed the capacity of the proposed storm sewers (minimum of one-hundred-year-frequency design storm).
[7] 
Typical cross sections of flood routing channels showing maximum depth of flow (one-hundred-year frequency).
[8] 
Lot numbers.
(c) 
Drainageway plan. The public improvement engineering plans and specifications shall include a drainageway plan (if applicable) containing (but not limited to) the following information:
[1] 
Existing contours at vertical intervals of not more than two feet (0.5 m), with reference to USGS datum.
[2] 
Proposed alignment of center line of right-of-way and right-of-way width for entire length of the proposed improvement and existing alignment for 200 feet (60 m) upstream and downstream of the improvement.
[3] 
Proposed and existing profiles for entire length of the improvement and existing profile for 200 feet (60 m) upstream and downstream of the improvement.
[4] 
Typical cross section of the drainageway improvement.
[5] 
Cross sections of the improvement showing the "before" and "after" ground surface elevations and one-hundred-year flood surface elevations at 50 feet (15 m) intervals.
[6] 
Lot numbers.
(d) 
Erosion and sedimentation control plan. The public improvement engineering plans and specifications shall include a plan for controlling erosion and sedimentation by one or more of the following methods for the period when site work commences to the completion of the development:
[1] 
Stop erosion on the site by soil stabilization or runoff control measures.
[2] 
Allow erosion to take place and then control sediment before it leaves the site.
[3] 
A combination of the two previous methods.
[4] 
Lot numbers.
(e) 
Street, sidewalk and trail plan. The public improvement engineering plans and specifications shall include a street, sidewalk and trail plan containing (but not limited to) the following information:
[1] 
Existing and proposed street alignments showing center line, face-of-curb, right-of-way, and stationing of roadways.
[2] 
Typical cross sections for existing and proposed streets, including street pavement, curb and gutter and sidewalks.
[3] 
Existing and proposed profiles of pavement referenced to center-line stationing and USGS datum. All proposed vertical curve data shall be shown, including the station and elevation at fifteen-meter (fifty-foot) intervals.
[4] 
Existing and proposed alignment of sidewalks showing edges of sidewalk.
[5] 
Existing and proposed cross sections of roadways on an average horizontal interval of 15 meters (50 feet) (may be omitted for interior streets with curb and gutter).
[6] 
Horizontal curve data for all curvilinear alignments of existing and proposed roadways.
[7] 
Lot numbers.
(f) 
Storm sewer plan. The public improvement engineering plans shall include a storm sewer plan containing (but not limited to) the following information:
[1] 
Alignment and location of existing and proposed storm sewer conduits referenced to stationing.
[2] 
Location and identification of all existing and proposed drainage structures.
[3] 
Size of existing and proposed conduits.
[4] 
Profile of proposed conduits showing invert elevations based on USGS datum, conduit gradient and crossings of other existing and proposed utilities.
[5] 
Locations along alignment of proposed conduit of granular trench backfill placement.
[6] 
Lot numbers.
(g) 
Sanitary sewer plan. The public improvement engineering plans and specifications shall include a sanitary sewer plan containing (but not limited to) the following information:
[1] 
Alignment and location of existing and proposed sanitary sewer conduits referenced to stationing.
[2] 
Location and identification of all existing and proposed manholes.
[3] 
Location and identification of all proposed sewer services.
[4] 
Size of existing and proposed sewer conduits and services.
[5] 
Profile of proposed sewer conduits showing invert elevations based on USGS datum, conduit gradient and crossings of other existing and proposed utilities.
[6] 
Locations along alignment of proposed sewer conduits and services of granular trench backfill placement.
[7] 
Lot numbers.
(h) 
Water main plan. The public improvement engineering plans and specifications shall include a water main plan containing (but not limited to) the following information:
[1] 
Alignment and location of existing and proposed water main conduits and service lines referenced to stationing.
[2] 
Location and identification of all existing and proposed valves, fittings and hydrants.
[3] 
Location and identification of proposed service lines.
[4] 
Size of existing and proposed water main conduits and services.
[5] 
Profile of proposed water main conduit showing elevations based on USGS datum and crossings of other existing and proposed utilities. Profiles are not required for interior water mains.
[6] 
Locations along alignment of proposed water main conduits and services of granular trench backfill placement.
[7] 
Lot numbers.
(i) 
Streetlight plan.
[1] 
The public improvement engineering plans and specifications shall include a streetlight plan containing (but not limited to) the following information:
[a] 
Location and identification of existing and proposed streetlight installation as it relates to the proposed project.
[b] 
Lot numbers.
[2] 
The streetlight plan may be included with another required plan.
(j) 
Sump pump discharge plan. The public improvement engineering plans shall include a sump pump discharge plan containing (but not limited to) the following information:
[1] 
Alignment and location of existing and proposed sump pump discharge conduits referenced to stationing.
[2] 
Location and identification of all existing and proposed structures, including (but not limited to) manholes, junction tees/wyes, and cleanouts.
[3] 
Size of existing and proposed conduits.
[4] 
Profile of proposed conduits showing invert elevations based on USGS datum and crossings of other existing and proposed utilities (may be omitted for sump pump lines located adjacent to and parallel with a proposed street with curb and gutter if shown on the street typical section).
[5] 
Locations along alignment of proposed conduit of granular trench backfill placement.
[6] 
Lot numbers.
(k) 
Composite utility plan.
[1] 
The public improvement engineering plans shall include a plan showing all existing and proposed improvements, including, but not limited to:
[a] 
Conduits.
[b] 
Manholes, tees, hydrants, valves, and inlets.
[c] 
Size of existing and proposed conduits for water, sanitary and storm sewers and sump pump discharge.
[d] 
Lot numbers.
[2] 
The composite utility plan may be included with another required plan.
(l) 
Specific details. The public improvement engineering plans and specifications shall include specific details containing (but not limited to) the following information:
[1] 
Typical cross sections of streets and right-of-way.
[2] 
Intersection details for pavement showing joint locations, elevations, drainage structures and surface water flow.
[3] 
Cul-de-sac details showing joint locations, elevations, drainage structure surface water flow and center line control.
(m) 
Standard details. The public improvement engineering plans and specifications shall include standard details containing (but not limited to) the following information:
[1] 
Pavement, curb and gutter construction.
[2] 
Sidewalk and walkway construction.
[3] 
Storm/Sump pump sewer construction.
[4] 
Sanitary sewer construction.
[5] 
Water main construction.
C. 
Final subdivision plats and supporting material.
(1) 
Required form of final plats.
(a) 
Final plats shall be drawn with black waterproof drawing ink on Mylar, from which clear and legible transparent or contact prints and photostatic copies can be made, with a maximum width of 24 inches (594 mm), preferably 24 inches by 36 inches (594 mm by 841 mm), but with a maximum length of 36 inches (841 mm).
(b) 
Supporting material shall be typed on paper not exceeding 8 1/2 inches (210 mm) by 14 inches (356 mm) in size.
(c) 
To be consistent with current GIS requirements, a digital submission shall be submitted in accordance with the provisions of this section.
(2) 
Required content of final plat.
(a) 
Identification and description.
[1] 
The name of the subdivision, not duplicating the name of any other subdivision, a final plat of which has been recorded in McLean County, Illinois.
[2] 
The legal description of all property included in the final plat, including a reference to the section, township, and range; references to be tied with GIS monuments where available.
[3] 
Name and address of the developer of the proposed subdivision.
[4] 
Name and address of the professional land surveyor preparing the boundary survey.
[5] 
Total area in the final plat in acres (hectares).
[6] 
The name of the school district in which the subdivision is located.
(b) 
Lot, outlot, and public improvement configuration. An Illinois professional land surveyor shall prepare and certify as accurate angular and lineal dimensions of all lines, angles and curvatures to an engineering scale not to exceed one inch equals 100 feet (1:100) necessary to accurately depict the location of the following:
[1] 
Rights-of-way, including the names of any streets or roadways depicted.
[2] 
Public and private easements.
[3] 
Proposed lots of record consecutively numbered and keyed on the plat (or on a supplemental sheet) showing the lots platted of the approved preliminary plan (see Exhibit M in the Appendix[4]); lot numbers within a subdivision shall not be repeated even if lots are resubdivided.
[4]
Editor's Note: Exhibit M is included at the end of this chapter.
[4] 
Outlots, indicated consecutively and keyed on the plat (or on a supplemental sheet) showing the outlots platted of the approved preliminary plan.
[5] 
Minimum front yard setbacks.
[6] 
Other areas dedicated or reserved to the public.
[7] 
Railroad rights-of-way.
[8] 
Boundaries of the subdivision.
[9] 
Field references to:
[a] 
The nearest established street lines and monuments, which shall be accurately described in the plat by location, and size.
[b] 
Township and section lines if the same are within the boundary of the final plat or within 100 feet (30 m) therefrom, referenced accurately to the lines of the subdivision by distances and angles; this requirement may be waived for resubdivision of existing final platted lots. This not needed for the survey and are not readily recoverable.
[c] 
All monuments placed at all block corners, angle points and at intermediate points installed in such a manner that they may be located by a professional land surveyor.
[d] 
Reference survey to at least two GIS monuments if available as recorded in order to incorporate plat into GIS-based mapping. This requirement may be waived for resubdivision of existing platted lots of record.
[10] 
A signed statement by an Illinois professional land surveyor stating which lots (if any) are located within a special flood hazard area.
(c) 
Certificates. The final plat shall be accompanied by the following certificates duly and appropriately executed in substantially the form presented in the Appendix of the exhibit specified:[5]
[1] 
Owners, with notary: Exhibits A1, A2, and A3.
[2] 
Surveys: Exhibit B.
[3] 
Drainage: Exhibit C.
[4] 
County Clerk: Exhibit D.
[5] 
Plat officers, for final plats of land located outside the City's corporate limits but within the jurisdiction of this chapter: Exhibit F.
[5]
Editor's Note: The Exhibits are included at the end of this chapter.
(3) 
Final plat submittal. The owner shall submit to the City Clerk two reproducible Mylar, four paper and one digital computer-aided drafting file copy (to be consistent with current GIS requirements) of the final plat in the format and providing all information required by this chapter.
A. 
Technical specifications shall be submitted with the public improvement engineering plans and shall be complete in themselves, except that appropriate specific sections of the most recent editions of the Standard Specifications for Road and Bridge Construction as published by the Illinois Department of Transportation, and the Standard Specifications for Water and Sewer Main Construction in Illinois, and the various standard published material specifications prepared by associations such as the American Society for Testing and Materials and the American Water Works Association may be incorporated by reference.
B. 
The specifications shall include (but not be limited to) all information not shown on the drawings which is necessary to establish in detail the quality of materials and workmanship required in the project, other parameters for testing the various parts of the project and instructions for testing material and equipment.
C. 
The specifications shall include clauses which state:
(1) 
All work shall be in conformance with the approved plans and specifications.
(2) 
All work included in the plans shall be guaranteed by the contractor to be free from defects in workmanship and materials for a period of 12 months from the date of acceptance by the City Council.
(3) 
The contractor shall replace or repair any work or material found to be defective or not in conformance within the guarantee period upon written notice from the City Engineer.
D. 
Special provisions specific to construction within the City are specified in the various sections of this chapter and are to be used as guide for the preparation of specifications to be submitted to the City Engineer for review and approval.
A. 
Design computations shall be made by the design engineer for all phases of the project when such computations are required by this section or in the opinion of the City Engineer to ensure that the adequacy and stability of the work and the work comply with appropriate standards. Said computations shall be neat and legible and in a form required by this section and that can be readily followed and understood by a competent engineer.
B. 
Said computations will include (but not necessarily be limited to) the following:
(1) 
Submitted with subdivision preliminary plan.
(a) 
Preliminary design calculations used by the design engineer for the following:
[1] 
Detention/Retention basin design.
[2] 
Storm sewer system design.
[3] 
Sanitary sewer design.
(b) 
The calculations above may be deferred or waived by mutual agreement of the design engineer and the City Engineer at the time of preliminary plan submittal.
(2) 
Submitted with public improvement engineering plans. Detailed design calculations for the following:
(a) 
Detention/Retention basin design.
(b) 
Storm sewer system design.
(c) 
Sanitary sewer system design.
(d) 
Flood routing and waterway design.
(e) 
Bridge and culvert hydraulic design (if necessary).
(f) 
Structural design data for pavement of minor commercial, collector and major streets.
(g) 
Traffic projections.
(3) 
Submitted with final subdivision plats.
(a) 
Boundary closure calculations.
(b) 
All digital submittal information as required in this section of this chapter.
(c) 
Ties to GIS monuments where available.
C. 
Form and content for each set of detailed design computations submitted with public improvement engineering plans and final subdivision plats are specified in the following sections:
Design Computation
Section
Coordinate geometry calculations for right-of-way
§ 195-65
Boundary closure calculations
§ 195-65
Lot corner coordinate data
§ 195-65
Detention/Retention basin design
§ 195-68
Storm sewer system design
§ 195-68
Flood routing and open channel design
§ 195-68
Sanitary sewer design
§ 195-74
Bridge and culvert hydraulic design
§ 195-72
Sediment and erosion control
§ 195-75
The design engineer shall prepare a detailed estimate of the cost of the work, categorized to show the various divisions of the work, including engineering costs as a separate item, itemized in such a fashion as to make possible a comparison of the estimated cost with actual cost encountered for similar work in the past.
A. 
Estimates of cost will be required as follows:
(1) 
At the submittal of public improvement engineering plans and specifications to the City Engineer for approval.
(2) 
Prior to release of funds from escrow accounts posted as security for payment, performance, and workmanship guarantees by the City Engineer.
(3) 
Prior to release of funds from cash reserve accounts posted as security for adjacent substandard roadway improvement guarantee and security by the City Engineer.
(4) 
Submittal of final subdivision plat for approval.
B. 
An example form of estimate of cost is provided as Exhibit N in the Appendix of this chapter.[1]
[1]
Editor's Note: Exhibit N is included at the end of this chapter.
Other governmental agencies may review and approve for construction all or certain parts of the work included in a project and may require a permit or application for a permit for such work. They may also require that such a permit or application for a permit be executed by the City. When such a permit or permit application is required, it shall be prepared, ready for signatures, containing all required supporting documentation, by the design engineer with sufficient copies for the City to retain one.
A. 
These documents requiring City approval shall be submitted by the design engineer to the City Engineer, with a letter of transmittal tabulating the items being submitted. The documents to be approved and the number required by the City are set out below. The design engineer shall add to the documents the quantity he/she would like returned to him/her marked "approved" on their face or, in the case of permit applications, executed by the City for submittal to other agencies.
B. 
The submittal shall be made in two parts. The initial submittal should be made and returned to the design engineer prior to the final submittal.
(1) 
Initial submittal.
(a) 
Documents included in the initial submittal are as follows:
[1] 
Plans: two sets.
[2] 
Specifications: two sets.
[3] 
Design computations: two sets.
(b) 
After completion of the review of the initial submittal, the City Engineer will advise the design engineer by letter of any items that do not meet the requirements of the City. The design engineer/developer may then revise the documents and make the final submission.
(2) 
Final submittal.
(a) 
Documents in the final submittal shall include the following:
[1] 
Plans: six sets.
[2] 
Specifications: six sets.
[3] 
Estimate: two sets.
[4] 
Permit applications: two sets.
(b) 
When the final submittal meets the requirements of this Section and City Code, the City Engineer shall transmit his written approval of the submitted documents to the design engineer and City Mayor.
Approval of the public improvement engineering plans and specifications by the City Engineer shall be applicable for a period for which there is a valid preliminary subdivision plan. If construction is not commenced within said period, the approval will be void. Reactivation of such voided approvals will require a written request for extension, which will be considered with due consideration for any new requirements that may be established by the City in the interim.
Where proposed work is being constructed by a developer, the developer shall guarantee that all work in the project shall be free from defects in workmanship and materials and in conformance with the approved plans and specifications.
A. 
Prior to the City Engineer transmitting his approval of the public improvement engineering plans and specifications and prior to the recording of the final plat, the developer shall pay to the City a fee of 2% of the approved estimated costs of such improvements. Said fee shall be applied as credit against the actual costs incurred by the City for review of said plans, coordination meetings, and the inspection and testing of said improvements.
B. 
The actual costs shall be paid to the City by the developer on a monthly basis as costs are incurred until review and inspection have been completed.
Any deviations from approved plans or specifications affecting capacity, stability or operation of the improvements shall be approved in writing by the City Engineer before such changes are made. Minor changes not affecting capacity, stability or operation of the improvements will not require formal approval but must be approved by the field inspector representing the City Engineer.
Prior to construction commencing, the design engineer may arrange with the City Engineer to set and conduct a preconstruction meeting with representatives of contractors and utility companies present.
A. 
The design engineer shall submit to the City Engineer, within nine months of the City's acceptance for maintenance, record drawings of the public improvement engineering plans. Final release of the subdivision bond will not be made until the record drawings have been received by the City Engineer. Record drawings submitted shall be one set of clear and legible transparent Mylar and one set of photostatic prints of the underground improvement plans and one digital computer-aided drafting file in accordance with this article (to be consistent with current GIS requirements), approved and depicting the improvements as actually installed or constructed.
B. 
The design engineer will receive from the Water and Street Department all inspection reports required to prepare the record drawings adequately. The inspection reports will be available to the design engineer after the improvements have been inspected and tested.
Prior to the City Engineer recommending that the City accept the project for maintenance, the City Engineer shall make a final inspection of the completed work. The City Engineer shall then prepare a final punch list, itemizing all items not meeting the requirements of the approved plans and specifications. On the completion of all items listed in the final punch list to the satisfaction of the City Engineer, the City Engineer shall recommend in writing to the Mayor that the City accept the project for maintenance.
Where conditions so warrant, the Mayor may waive any of the requirements of this chapter.
A. 
Purpose. The purpose of these specifications is to provide a standard for the transfer media and the format of the data files for submission to the City Engineer and McLean County Regional Planning Commission. The goal is to save the City, consultants and developers time and money by providing a set of CAD (computer-aided drafting) standards that will allow for easier referencing and combining of files from one or more designs or sets of field data. By following these standards, files will be uniform, allowing for quicker access and editing of files produced at any time or by different people. It will also allow the McLean County Regional Planning Commission to automate the process of adding data to a GIS (geographic information system).
B. 
Electronic files required. The electronic files submitted will be used for two purposes:
(1) 
GIS update. This requires the plat or project to be a homogenous continuous design based in State Plane Coordinates as outlined below in Subsection D. Notes are not needed.
(2) 
Electronic plans. This is the source for each printed page in a plat or plan. Electronic files shall be provided when submitting final copies of:
(a) 
Annexation plats.
(b) 
Final plats.
(3) 
Record drawings of public improvement engineering plans (including title page, grading plan, drainageway, street, sidewalk and trail (except cross sections), storm sewer, sanitary sewer, water main, streetlights, sump pump, structures).
(4) 
Electronic files are required for record drawings and final plats for subdivisions approved under the expedited procedure.
C. 
Media. Files may be submitted on DVD or CD-ROM. Files may be zipped as long as they are self-extracting or the extraction utility is provided. All files and media are to be in an IBM-compatible format.
D. 
CAD standard. This CAD (computer-aided drafting) standard is based on the IDOT (Illinois Department of Transportation) drafting standards where feasible. Files submitted shall be MicroStation DGN files or AutoCAD DWG Version 2000 or later. The files shall have the following properties:
(1) 
The actual working plat or design project shall use Illinois State Plane East Zone Metric coordinates, USGS Zone 3776, FIPS Zone 1201; projection will be Transverse Mercator. The USGS datum will be horizontal NAD 83 and vertical NGVD 29. The plat or project shall properly edge match to adjoining plats or design.
(2) 
Files shall be 3D design files for plans and 2D design for plats. Individual pages such as title page or typical sections may be 2D design files.
(3) 
If CAD files are converted from English units to metric units, use 0.3048 foot/meter for conversion. English units are required unless otherwise approved by the City in writing.
(4) 
If using AutoCAD DWG files, the following applies: All unused blocks shall be purged from AutoCAD files.
(5) 
If using MicroStation DGN files, the following apply:
(a) 
The global origin shall be set to the lower left of the design file.
(b) 
Working units shall be English unless metric is required. For metric: 1,000 subunits (mm) per master unit (m); one subunit per positional unit. Master units shall be designated "m" for "meters." Subunits shall be designated "mm" for "millimeters."
(c) 
Reference files used shall be in the same subdirectory as the active design file. The attachment of the reference files done shall be set with "Save Full Path" off.
(d) 
Design files shall be compressed, to remove deleted elements, before submittal.
(e) 
Element attributes/symbology shall be in accordance with the following table.
Feature Type
Feature Description
Layer Name
Color
Line Type
Alignment
Street Center Line
Street CL
1
Continuous
Vegetation
Orchard
Orchard
84
Dashed4
Tree
Tree
84
Continuous
Woodland
Woodland
84
Dashed2
Water
Detention Basin
Detention
153
Hidden2
Lake
Lake
143
Stream
Lake Body Hidden
Lake_H
143
Hidden2
River
River
143
Stream
River Hidden
River_H
143
Hidden2
Stream
Stream
143
Stream
Stream Hidden
Stream_H
143
Hidden2
Swamp
Swamp
143
Hidden2
Right-of-Way
Access Control Fence
AC-Fence
43
Custom
Easement
Easement
43
Custom
Marker
Marker
43
Continuous
Street Limits
Str_Limit
40
Continuous
Street Name Annotation
Str_Anno
3
Continuous
Non-Highway
Area Unclassified
Area_UC
32
Dashed2
Athletic Field
Athlfield
72
Dashed
Basketball Court
Bbcourt
72
Dashed2
Building
Building
141
Continuous
Building Annotation
Build_Anno
3
Continuous
Cemetery
Cemetery
41
Dashed
Concrete Plant
Concplnt
41
Dashed2
Fence
Fence
192
Custom
Golf Course
Golf Course
72
Dashed
Junkyard
Junkyard
41
Dashed
Landfill
Landfill
41
Dashed
Multi-Use Trail
Trail
90
Dashed
Paved Airport Runway
Runway_Pvd
152
Continuous
Pool
Pool
170
Continuous
Quarry
Quarry
41
Dashed
Recreation Park
Park
93
Dashed2
Silo
Silo
142
Continuous
Storage Pile
Pile
141
Dashed2
Storage Tank
Stor_Tank
141
Continuous
Tennis Court
Tennis
72
Dashed2
Water Tower/Tank
Water_Tank
141
Continuous
Political Boundaries
Corporate Boundary
Corp_Bndy
6
Custom
County Boundary
County_Bndy
5
Custom
Municipal Boundary
Municipal_Bndy
6
Custom
Township Boundary
Township_Bndy
4
Custom
Ward Boundary
Ward_Bndy
3
Custom
Traffic Signals
Traffic Signals
Traffic_Sgnl
4
Continuous
Private Boundaries
Existing Subdivision Lines
Sub_Exist
3
Dashed4
Lot Number
Lot_No
5
Continuous
Outlots
Outlot
4
Continuous
Owner Name
Owner_Name
3
Continuous
Property Line
Prop_Line
4
Continuous
Property Line Dimensions
Prop_Dims
3
Continuous
Property Line Symbol
Prop_Sym
3
Continuous
Property Pins/Pipes
Prop_Pin
3
Continuous
Same Ownership Symbol
Owner_Same
3
Continuous
Section Corners
Sec_Cor
5
Continuous
Subdivision Annotation
Sub_Anno
3
Dashed2
Subdivision Line
Sub_Line
6
Continuous
Survey Markers
Survey_MK
3
Continuous
Existing Utilities
Communication Tower
Tower_Comm
54
Continuous
Cross-Country Pole
Pole_CC
54
Continuous
Cross-Country Transmission Line
Pwr_Trns_Line
54
Continuous
Cross-Country Transmission Tower
Tower_Trns
54
Continuous
Fire Hydrant
Fire_Hyd
170
Continuous
Manhole Combination
MH_Comb
100
Continuous
Manhole Sanitary
San_MH
100
Continuous
Manhole Storm
Storm_MH
100
Continuous
Sewer Combination
S-Comb
100
Continuous
Sewer Sanitary Main
San_Main
100
Continuous
Sewer Storm Main
SS_Main
100
Continuous
Substation
Substation
54
Continuous
Water Main
W_Main
170
Continuous
Water Main Valve
Valve_W
170
Continuous
Water Service Valve
Ser_Valv_W
170
Continuous
Notes
Alignment Annotation
Align_Anno
3
Continuous
Drainage Structures Annotation
Drain_Str_Anno
3
Continuous
Topography Annotation
Topo_Anno
3
Continuous
Utility Annotation
Util_Anno
3
Continuous
Roadside Features
Driveway
Driveway
4
Continuous
Paved Parking Area
Parking_Pvd
4
Dashed
Retaining Wall
Wall_Rtn
4
Custom
Sidewalk
Sidewalk
4
Custom
Unpaved Parking Area
Parking_Unp
4
Dashed2
Wall
Wall
4
Dashed
Contours
Index Contour Line
Indx
43
Continuous
Index Contour Depression
Indx_D
43
Dashed
Index Contour Depression Hidden
Indx_DH
43
Dashed2
Index Contour Hidden
Indx_H
43
Hidden
Index Contour Obscure
Indx_O
43
Hidden2
Index Contour Obscure Depression
Indx_OD
47
Hidden
Index Contour Obscure Depression Hidden
Indx_Odh
47
Hidden2
Index Contour Obscure Hidden
Indx_OH
47
Hidden4
Intermediate Contour Line
Int
53
Continuous
Intermediate Contour Depression
Int_D
53
Dashed
Intermediate Contour Depression Hidden
Int_DH
53
Dashed2
Intermediate Contour Hidden
Int_H
53
Hidden
Intermediate Contour Obscure
Int_O
53
Hidden2
Intermediate Contour Obscure Depression
Int_OD
57
Hidden
Intermediate Contour Obscure Depression Hidden
Int_Odh
57
Hidden2
Intermediate Contour Obscure Hidden
Int_OH
57
Hidden4
Edge of Pavement
Alley
Alley
2
Continuous
Controlled Access
Access_Cntl
62
Custom
Paved Road Back of Curb
Road_Boc
6
Continuous
Paved Road Back of Curb Hidden
Road_Boch
6
Hidden
Paved Road Edge of Pavement
Road_Eop
5
Continuous
Paved Road Edge of Pavement Hidden
Road_Eoph
5
Hidden
Road Uncontrolled Access
Road_UC
41
Hidden2
Road Under Bridge
Road_H
6
Hidden
Unpaved Road
Road_Unp
5
Dashed
Unpaved Road Hidden
Road_Unph
5
Dashed2
Roadway Plan
Paved Median
Median_Pvd
6
Continuous
As - Control
FAAT Passpoints
Faatpp
3
Continuous
Horizontal and Vertical Control Points
Hvpt
3
Continuous
Horizontal Control Points
Hpt
3
Continuous
Vertical Control Points
Vpt
3
Continuous
As - Spot Elevations
Digital Terrain Model Breakline
Dtm_Bline
1
Continuous
Digital Terrain Model Point
Dtm_Point
1
Continuous
Spot Elevation
Spot
3
Continuous
Water Elevation
Spot_Water
3
Continuous
As - Grid
200-Meter Ticks (Ill. St. Plane East)
Ticks_M
4
Continuous
St. Plane Ticks (Along Section Lines)
Ticks_F
3
Continuous
As - Map Limits
Map Mask and Title
Mask
7
Continuous
Section Lines
Sec_Line
5
Custom
Existing Drainage
Concrete Dam
Dam_Conc
13
Continuous
Ditch
Ditch
12
Hidden2
Floodwall/Headwall
Floodwall
131
Continuous
Floodway
Floodway
145
Continuous
Pier
Pier
131
Continuous
Railroad
Abandoned Railroad
RR_Abnd
41
Continuous
Railroad Annotation
RR_Anno
3
Continuous
Railroad Center line
RR
4
Continuous
Railroad Center line Hidden
RR_H
4
Hidden2
Structures
Bridge Deck Boundary
Bridge
5
Continuous
Major Culvert
Culvert
140
Continuous
Coordinate Data
Illinois State Plane Coordinate Data, English
Spc_E
7
Continuous
Illinois State Plane Coordinate Data, Metric
Spc_M
7
Continuous
A. 
Public improvements required in connection with a subdivision or development are often in or adjacent to areas with existing surface or underground improvements. The intent of this section is to codify special City requirements relative to the construction of proposed improvements and restoration of existing improvements affected by the construction. Plans and specifications presented for City approval shall provide for the implementation of the requirements of this section.
B. 
Specifications and special provisions. All public improvement projects shall be completed in accordance with all applicable sections of the most current editions of the Illinois Department of Transportation's Standard Specifications for Road and Bridge Construction, and the Standard Specifications for Water and Sewer Main Construction in Illinois and any amendments, additions or other requirements contained herein.
(1) 
Protection.
(a) 
Traffic control.
[1] 
All work within the public ROW shall be completed in accordance with the latest edition of the Manual on Uniform Traffic Control Devices (MUTCD) as published by IDOT. The provisions of this Manual will be enforced whenever work is in progress within the existing roadway or adjacent to it or as required by the City Engineer.
[2] 
Lane closures will be required whenever construction is performed or vehicles are parked in a lane normally used for through traffic. Written permission for all lane closures must be obtained from the Water and Street Department and the Police Department. On major and collector streets, one lane for each direction shall be maintained open to traffic except during the actual excavating and laying operations. No more than 1/2 the width of the street may be closed to traffic during the construction and curing of the permanent pavement patch.
[3] 
Required traffic control signing shall be in strict conformance with the Manual cited above and/or as shown on the plans. No construction shall commence until such time as all required signs and barricades have been erected. The contractor shall also be responsible for contacting police, fire and any public transportation authorities.
(b) 
Bracing and sheeting. Open-cut trenches shall be sheeted and braced as required by any governing federal or state laws and municipal ordinances, and as may be necessary to protect life, property and the work.
(c) 
Trench side slopes. The contractor may, where working conditions and the right-of-way permit, excavate pipe line trenches with sloping sides above the top of the conduit only.
(d) 
Tunneling. The contractor may utilize short tunnels to avoid obstructions such as trees, fire hydrants, sidewalks and curbs.
(e) 
Stockpiling of excavated material. All excavated material shall be stockpiled such that it will not endanger the work and will avoid obstructing streets, sidewalks, driveways, watercourses, fire hydrants, valve pit covers, valve boxes, curb stops and other utility controls.
(f) 
Protection of property and structures. Any existing or new property or structures disturbed or damaged during construction shall be replaced or repaired to the satisfaction of the owner, at the contractor's expense.
(g) 
Utilities.
[1] 
The utility companies shall be notified of a proposed project, and the plans should indicate the general location of the utility main lines. It shall be the contractor's responsibility, before beginning any construction, to obtain from all utilities the exact locations of all underground facilities in the area of construction, whether shown on the plans or not. Any facilities disturbed by the contractor shall be repaired at the contractor's expense.
[2] 
Residents and businesses shall be notified a minimum of 24 hours in advance of impending service outages, and no business or residence shall be without service overnight.
(h) 
Work place safety. Nothing in this section is intended or shall be construed to reduce the responsibility of the contractor, a subcontractor, anyone directly or indirectly employed by him, or anyone for whose acts he may be liable from full and complete supervision and achievement of workplace safety. Any inspection of the work conducted by the City Engineer, or his/her designated representatives, whether notice of the results thereof is provided to anyone or not provided to anyone, shall neither establish any duty on their parts nor create any expectation of a duty to anyone, including but not limited to third parties, regarding workplace safety.
(2) 
Restoration of public facilities. The contractor shall restore all pavements, sidewalks, driveways, curbs, buffers, trees, shrubs, lawns, fences, poles and other structures and property removed or disturbed during or as a result of construction operations to a condition which is equal in appearance and quality to the condition that existed before the work began.
(a) 
Removal of pavements, sidewalks, curbs, gutters, and driveways. All removal shall be completed in accordance with all applicable sections of the Standard Specifications for Road and Bridge Construction and any special provisions contained herein. When removal is required for the installation of a conduit, the width of the removal shall exceed the actual trench width by one foot (1/3 m) on each side. Removal of PCC sidewalk, PCC pavement, PCC driveways, PCC curb and gutter shall be to the nearest joint unless otherwise directed by the City Engineer.
(b) 
Replacement of pavements, sidewalks, curbs, gutters, and driveways. All replacements shall be completed in accordance with all applicable sections of the Standard Specifications for Road and Bridge Construction and any special provisions contained herein. For all PCC replacements, concrete meeting the requirements of the Standard Specifications for Road and Bridge Construction shall be used.
[1] 
Pavement removal and replacement Type A, B, C and D.
[a] 
Pavement shall be removed and replaced according to the following standards.
[b] 
Types of patching. The type of patching required shall depend upon the existing pavement:
[i] 
Type A patches shall apply to pavements that have existing aggregate base and bituminous surface.
[ii] 
Type B patches shall apply to pavements that have existing concrete base and bituminous surface, brick base and bituminous surface or bituminous base and bituminous surface.
[iii] 
Type C patches shall apply to existing pavements that have existing brick surface or concrete surface. Reinforcement will be required where the existing pavement is presently reinforced.
[iv] 
Type D patches shall apply to existing pavements that have existing brick surface that the City has designated to be preserved.
[2] 
Driveway replacement. The type of replacement required shall depend on the existing pavement:
[a] 
Type A existing concrete driveway shall be replaced with a new minimum 150 mm (six inches) portland cement concrete surface.
[b] 
Type B existing bituminous surface driveway shall be replaced with a new minimum 200 mm (eight inches) thick aggregate base and minimum 76 mm (three inches) thick bituminous concrete surface.
[c] 
Type C existing crushed stone driveway shall be replaced with a new minimum 200 mm (eight inches) thick crushed aggregate surface with the top 100 mm (four inches) being the same material as the existing.
[3] 
Sidewalk replacement. Sidewalk shall be replaced to the same depth and width as the existing unless otherwise directed by the City Engineer; 12 mm (1/2 inch) thick preformed expansion joints shall be placed at locations abutting existing work and at fifteen-meter (fifty-foot) intervals in the new walk.
[4] 
Curb and gutter replacement. Curb and gutter shall be replaced to the dimensions and cross section of the existing; 12 mm (1/2 inch) thick preformed expansion joints shall be placed at the junction of new and existing work and at all points of curvature.
[5] 
Removal limits.
[a] 
The limits of the pavement repair shall be saw cut in a rectangular pattern to a depth of not less than three inches (75 mm). Type A patches shall be a minimum of three feet (one m) in width. Type B and Type C patches shall be a minimum of five feet (two m) in width. For Type B and Type C patches, the new pavement shall be shouldered one foot (1/3 m) minimum on either side of the trench on undisturbed ground.
[b] 
Whenever a series of Type A or Type B patches is made in such a manner as to leave less than five feet of undisturbed bituminous surface between adjacent patches, it shall be required that the bituminous surface between the patches be removed and the entire area resurfaced.
[c] 
PCC pavements not in good condition shall be repaired in accordance with typical detail shown for Type C patching. Whenever a pavement patch is less than 1.5 meters (five feet) from the pavement edge, contraction joint, crack, etc., the pavement patch shall be enlarged to meet the edge, joint or crack and the entire excavated area paved as one patch. The limits of pavement removal on Type D patching shall be in such a manner that whole bricks will be used in the replacement and that the replaced brick course extends beyond the limits of the concrete base course.
[6] 
Trench backfill. All utility trenches on minor streets shall be backfilled with trench backfill. Material for trench backfill shall comply with the latest edition of the Standard Specifications for Road and Bridge Construction in Illinois, except that the maximum aggregate size shall be 75 mm (three inches). Approved compacted granular material shall be required in all trenches extending two feet either side of all sidewalks, curbs, gutters, driveways and pavements. Trench backfill shall be compacted by mechanical means in one-third-meter (one-foot) lifts.
[7] 
Jetting of trenches. Utility trenches on minor streets may be compacted by jetting and allowed to dry before the permanent base and surface course are constructed.
[8] 
Controlled low-strength material. All utility trenches on collector and major streets shall be backfilled with controlled density fill from 1/3 meter (one foot) above pipe to bottom of subgrade. Controlled density fill shall meet the requirements of the Standard Specifications for Road and Bridge Construction.
[9] 
Temporary asphalt surface. After completion of backfilling the excavation, a temporary asphalt surface shall be placed as soon as possible or as directed by the City Engineer with a minimum thickness of two inches (50 mm). This surface shall be maintained by the excavation contractor until the permanent patch is constructed. Steel plates may be used for Type B patches to bridge the utility trench patch during the curing period for the PC concrete base course in order to open the traffic lane to traffic during this period.
(c) 
Field; drain tile. All existing drain tile lines which cross the trench of a proposed sanitary sewer, storm sewer, water main and services shall be accurately recorded and marked in the field by the contractor. Upon completion of the installation of the underground utilities, the contractor shall furnish a copy of all drain tile locations to the City Engineer. The Engineer shall analyze these locations and all tiles should be reconnected. All existing drain tile lines crossing the proposed street rights-of-way shall be removed from a point six feet (two m) beyond the right-of-way on each side. All drain tile lines reconstructed or connected to the storm sewer system shall be constructed of either PVC water main with slip-on joints (up to 12 inches) (300 m) or reinforced concrete storm sewer pipe of Class 3 or Class 4 as required by depth in accordance with the Standard Specifications for Road and Bridge Construction. Drain tiles to be reconnected shall be repaired so that their carrying capacity shall not be impaired. Drain tile shall be repaired with PVC SDR 26 pipe, a minimum of two inches (50 mm) larger diameter than the severed tile. The length of the plastic pipe shall be such that it bears a minimum of two feet (213 m) on undisturbed soil on each side of the trench, with each field tile to plastic pipe junction encased in concrete. All repairs shall be inspected and approved by the City Engineer prior to backfilling. Compacted granular backfill shall be required if under a street or sidewalk. The plastic pipe to drain tile junction shall be wrapped with burlap or other material approved by the City Engineer prior to encasement to prevent concrete from entering the flow line of the pipe. For drain tile under streets, the use of concrete or ductile iron pipe is required.
(d) 
Restoration of vegetative areas. All vegetative areas disturbed during construction shall be restored by furnishing and placing topsoil to a minimum depth of four inches (100 mm) and seeding of the area in accordance with the Standard Specifications for Road and Bridge Construction or as directed by the Engineer.
(e) 
Cleanup. Before acceptance of underground conduit construction, all pipes, manholes, catch basins, hydrants and other appurtenances shall be cleaned of all debris and foreign material.
(3) 
Special provisions modifying Standard Specifications for Water and Sewer Main Construction in Illinois.
(a) 
Construction in easements. The top six inches (150 mm) of any ground disturbed due to construction on private property in an inhabited area shall be replaced with topsoil and restored to its original condition at no additional cost to the owner.
(b) 
Agricultural surface restoration.
[1] 
At locations as shown on the plans or designated by the Engineer, the contractor shall restore any and all agricultural areas. Prior to the installation of the proposed pipes, the contractor shall remove all topsoil from the construction area and stockpile it along the edge of the working limits.
[2] 
Upon the completion of the installation of the pipes and placing of the subsoil backfill, the contractor shall replace the original topsoil over the top of the disturbed area so that the finished surface shall be level and smooth and contain all of the original topsoil at approximately the same depth as prior to construction.
(c) 
Removal of soil from agricultural areas. No soil will be removed from the areas designated for agricultural surface restoration unless the owner or his representative gives written consent.
C. 
Standard details for the following are included at the end of this chapter:
Drawing No.
Title
A
Pavement Patching Details Types A, B and C
B
Pavement Patching Detail Type D
C
Drain Tile Repair Detail
A. 
All subdivisions shall be designed to conform with the planning principles, layout and design requirements of this section. These principles and design requirements concern entire systems rather than individual elements of the system, and so express concepts rather than specific standards. Specific standards are elaborated in other sections of this ordinance.
B. 
Subdivision principles of planning.
(1) 
Basic principles exist which should be recognized and heeded in designing circulation and access systems in new subdivisions of conventional layout. Basic consideration in the design of minor circulation systems must recognize the factors of:
(a) 
Safety for both vehicular and pedestrian traffic;
(b) 
Efficiency of service for all users;
(c) 
Livability or amenities, especially as affected by traffic elements in the circulation system; and
(d) 
Economy of both construction and use of land.
(2) 
Each of the following principles is an elaboration on one or more of these four factors. The principles are not intended as absolute criteria, since instances may appear where certain principles conflict. The principles should, therefore, be used as guides to proper systems layout.
(a) 
Adequate vehicular and pedestrian access should be provided to all parcels.
(b) 
Minor street systems should be designed to minimize through-traffic movements.
(c) 
Street patterns should minimize out-of-the-way vehicular traffic.
(d) 
Minor street systems should be logical and comprehensible; street names should be simple, consistent, understandable, and not duplicate existing street names.
(e) 
Minor circulation systems and land development patterns should not detract from the efficiency of major and collector streets.
(f) 
Elements in the minor circulation system should not have to rely on extensive traffic regulation in order to function efficiently and safely.
(g) 
Traffic generators within residential areas should be considered in the minor circulation pattern.
(h) 
Planning and construction of minor streets should clearly indicate their function.
(i) 
The minor street system should be designed for a relatively uniform low volume of street traffic.
(j) 
Minor streets should be designed to discourage excessive speeds.
(k) 
Pedestrian-vehicular conflict points should be minimized.
(l) 
An optimum amount of space should be devoted to street uses.
(m) 
The arrangement of minor streets should permit economical and practical patterns, shapes and sizes of development parcels.
(n) 
Minor streets should be related to topography from the standpoint of both economics, drainage and amenities.
(o) 
Open space areas should be provided, commensurate with the projected population density of the development.
(p) 
Major elements of the street system may be used to help define and buffer different land use areas, enhancing their identity and cohesiveness.
(q) 
The street and pedestrian circulation pattern in a new residential subdivision shall be compatible with the City's Comprehensive Plan.
(r) 
Subdivision layout should optimize the overall length of streets.
(s) 
A residential area should be conveniently accessible from major and collector streets.
(t) 
Access points to major and collector street facilities should be limited in number, given special design consideration, and, whenever possible, located where other features are not competing for driver attention.
(u) 
Driveway entrances should be prohibited on major streets and, whenever possible, on collector streets in residentially zoned areas.
(v) 
Through-traffic on minor residential streets should be avoided where practical.
(w) 
Lot layout in residential subdivisions should be designed to reduce the incidence of housing on major streets.
(x) 
Public utilities, including water, storm sewer and sanitary sewer facilities, should be existing or proposed by the developer or the City of Lexington of a size adequate to serve the proposed subdivision and any other future development they may be required to service.
(y) 
The general land use principles and planning standards should be applied to the subdivision as contained in the City of Lexington Comprehensive Plan.
(z) 
Cul-de-sac streets shall not be allowed in order to encourage more equal utilization of minor streets unless the City Council grants a variance from this section.
(aa) 
Where feasible, more than one entrance to a subdivision shall be required.
(bb) 
Where feasible, interconnection of adjoining residential subdivisions shall be required.
C. 
Layout and design requirements for proposed lots of record and outlots.
(1) 
Subdivisions shall consist solely and exclusively of lots of record, outlots, easements, public rights-of-way and public improvements.
(2) 
All proposed lots of record shall front on and have access to a public street or roadway.
(3) 
All proposed lots of record shall meet or exceed the lot size, dimension and area requirements of any applicable zoning regulations of the City of Lexington[1] and, when applicable, the County of McLean.
[1]
Editor's Note: See Ch. 300, Zoning.
(4) 
Outlots may not be used for buildings or parking lots.
(5) 
Rear, side and front yard easements shall be dedicated to the City for use by the City and private utility companies (for gas, electricity, cable TV, water, storm sewer or stormwater drainage, sanitary sewer, etc.) as provided herein.
(6) 
Where residential lots are platted abutting an major street, the "back-up" treatment should be used and a "no-access" strip depicted on those lots adjacent to the major street.
(7) 
Boundaries of the subdivision shall be drawn to meet or exceed the following standards:
(a) 
Error of closure of boundary lines survey shall not exceed 5,000 (1:5,000).
(b) 
Angular error shall not exceed +/- 20 seconds.
(c) 
Lot line dimensions shall be shown in meters and thousandths (in feet and hundredths).
(d) 
Angles occurring in any lot line between lot corners shall be shown in degrees, minutes, and seconds.
(8) 
In general, lots shall be as nearly rectangular in shape as practicable.
(9) 
Side lot lines shall generally be perpendicular to the right-of-way.
A. 
All lots in any subdivision, regardless of size, shall front on and have access to a street. When necessary, streets shall be included as part of the subdivision and shall be designed and constructed in accordance with this section.
B. 
General requirements. All subdivisions shall be designed so the proposed street system accomplishes the following:
(1) 
Conforms with the City of Lexington Comprehensive Plan. The City shall determine the minimum pavement requirements in general conformance with Table 195-67.[1]
[1]
Editor's Note: Table 195-67 is included at the end of this section.
(2) 
Extends major and collector streets through the proposed subdivision.
(3) 
Locates and aligns minor streets so that use by through traffic is discouraged.
(4) 
Avoids center-line offsets of less than 250 feet (75 m) from other streets or roadways for minor streets. For offsets from major/collector streets, a more detailed engineering study may be required.
(5) 
Where the angle of deflection in horizontal center lines exceeds 5°, a curve shall be inserted with a radius of not less than the following dimensions, depending on the classification of the street involved:
(a) 
Minor street: 65 feet (20 m).
(b) 
All others: as per IDOT.
(6) 
Not more than two streets intersect at any point, and the angle of intersection of center lines is not less than 80° nor more than 100°.
(7) 
In single-family zoning districts, culs-de-sac shall not exceed 1,200 feet (365 m) in length or have more than 15 lots fronting thereon, whichever imposes the more demanding standard; and in multiple-family and two-family zoning districts, culs-de-sac shall not exceed 400 feet (120 m) or have more than eight lots fronting thereon, whichever imposes the more demanding standard.
(8) 
Encourage safe and efficient traffic flow and provide sufficient vehicular storage space for stopping and turning movements so as not to conflict with traffic at intersecting streets or driveway entrances.
(9) 
In residentially zoned areas, access to any major or collector street shall be provided every 1,200 feet (365 m) or no more than 1,800 feet (550 m) as measured along the major or collector street.
(10) 
The minimum curb radius where two streets intersect shall be 7.6 meters (25 feet) to face of curb. For major, collector, and minor commercial streets, curb radii shall be sufficient to accommodate the appropriate design vehicle in accordance with the Illinois Department of Transportation Design and Environment Manual.
(11) 
Cul-de-sac streets, if allowed, shall not be constructed "back to back." (Backyards on one cul-de-sac may not be adjacent to backyards of another cul-de-sac.)
(12) 
Lots zoned R-1 shall have a minimum eighteen-meter (sixty-foot) lot width measured at the building setback line if located on the bulb of a cul-de-sac street.
(13) 
Driveways shall not encompass more than 50% of the curb on the bulb of a cul-de-sac street.
C. 
Public street right-of-way dedication. All streets and roadways proposed within the confines of a subdivision shall be located in dedicated public or private rights-of-way as required by this section. All streets are considered public unless specifically stated that they are private on the preliminary plan and final plat.
(1) 
Interior streets. Subdivisions shall be designed so all interior streets are located within dedicated public rights-of-way of the following minimum widths, depending on the street classification, the volume of traffic and the zoning of the abutting property (Where side streets abut two or more zoning districts, right-of-way dedication shall be provided so as to meet the requirement of the more demanding zoning district.):
Type of Street
R-1, R-2 Zoning Districts
B-1, B-2, M-1, M-2 Zoning Districts
Major
Over 1,200 DV
96 feet (29 m)
96 feet (29 m)
Under 1,200 DHV
86 feet (26 m)
90 feet (27 m)
Collector
80 feet (24 m)
90 feet (27 m)
Minor
60 feet (18 m)
70 feet (21 m)
4-lane divided with median
100 feet (30 m)
100 feet (30 m)
Cul-de-sac (diameter) (if allowed)
100 feet (30 m)
120 feet (34 m)
Frontage roads
60 feet (18 m)
60 feet (18 m)
(2) 
Expressways: in accordance with the Comprehensive Plan of the City of Lexington or interstate standards and requirements of the federal, state, county or township authorities having jurisdiction, whichever has the greater right-of-way width requirement.
(3) 
Interior streets. Subdivisions shall be designed so all interior streets are located within dedicated rights-of-way of the following minimum width:
(a) 
Street without sidewalk: one meter (three feet) back of curb to one meter (three feet) back of curb.
(b) 
Street with one adjacent sidewalk: back of sidewalk to one meter (three feet) back of curb.
(c) 
Street with two adjacent sidewalks: back of sidewalk to back of sidewalk.
(4) 
Exterior streets. Subdivisions shall be designed so that the subdivider provides not less than 1/2 the right-of-way dedication required for a comparable interior street.
(5) 
Supplemental dedication. Where the street design requirements of this chapter require the provision of turning lanes, turning radii, center median, traffic control devices or other installation which cannot be installed within the right-of-way otherwise required by this chapter without the elimination or conflict between such features and other public improvements, the subdivider shall dedicate such additional right-of-way as is necessary to accommodate all such improvements.
D. 
Design standards.
(1) 
Street width. Pavement width shall be based on street classification, the expected traffic volume and the zoning district (the more demanding standard shall apply) in accordance with the following:
Street
Pavement Width
(face to face of curb)
Median Street Width
Major
Over 855 DHV
51 feet (15.4 m)
4 feet (1.2 m)
495 to 855 DHV
47 feet (14.1 m)
0
Under 495 DHV
36 feet (11.0 m)
0
Collector
Over 495 DHV
47 feet (14.1 m)
0
Under 495 DHV
39 feet (11.0 m)
0
Minor
30 feet (9 m)
0
Frontage roads
30 feet (9 m)
0
Boulevards
2 @ 22 feet (2 @ 6.6 m)
10 feet (3 m)
One-way
24 feet (7.2 m)
0
Private street
R-1 Zoning
30 feet (9 m)
24 feet (7.2 m) (if no parking allowed)
All other zoning
30 feet (9.0 m)
(2) 
Pavement structure.
(a) 
Structural strength shall be based on street classification, the expected traffic volume and designed in accordance with current editions of the following:
[1] 
Illinois Department of Transportation Design and Environment Manual.
[2] 
Illinois Department of Transportation Highway Standards.
[3] 
Illinois Department of Transportation Standard Specifications for Road and Bridge Construction.
(b) 
Minor streets shall be constructed with a minimum of 250 mm (10 inches) of compacted crushed aggregate and 102 mm (four inches) of bituminous concrete surface, or 150 mm (six inches) of portland cement concrete, installed in accordance with Standard Specifications for Road and Bridge Construction in accordance with the following design and construction standards and specifications (Reference Table 195-67, included at the end of this section.):
(3) 
Cul-de-sac terminus. Culs-de-sac are not allowed except by special exception.
(4) 
Vertical gradients. Differing connecting street gradients shall be connected with vertical curves. The Design and Environment Manual shall govern all vertical curve computations; except when the algebraic difference of the gradient is less than 1%, a fifty-foot vertical curve length shall be utilized. Desirable street gradients shall not be less than a minimum of 0.50%. In no case shall the street gradient be less than 0.40%.
(5) 
Curb and gutter.
(a) 
Curb and gutter shall be Type B-6.18 (B 15.45) in accordance with the Illinois Department of Transportation Highway Standards and installed in accordance with the Standard Specifications of Road and Bridge Construction.
(b) 
All curb and gutter shall be designed so as to facilitate persons using wheelchairs to travel freely and without assistance by providing at each crosswalk a ramp with nonslip surface so that the sidewalk and street blend to a common level. Such ramp shall be designed and constructed in accordance with the Highway Standards.
(6) 
Trench backfill. Any excavation in an existing or proposed street shall be backfilled with select granular, backfill or controlled low-strength material.
E. 
Specifications and special provisions. All streets and curb and gutter shall be constructed in accordance with all applicable sections of the Standard Specifications for Road and Bridge Construction for the Illinois Department of Transportation, the current edition as then modified, supplemented and amended by this section or the City Engineer. These modifications, amendments and amplifications have been provided in this section of the chapter.
(1) 
Special provisions for streets.
(a) 
Curb marking of water and sewer services. At the time the curb and gutter is poured, the contractor shall mark the top of the curb with an "S" or "W" for sewer and water services respectively.
(2) 
Adjustment of frame of grate.
(a) 
Final grade for all manhole castings will be determined after the curb and gutter have been poured and the subgrade and/or base has been constructed. Final adjustment of the frame and grate shall be made in the following manner: After the curb and gutter have been poured and the base constructed, the final elevation will be determined by the City Engineer.
(b) 
The frame and grate will be adjusted to this elevation in accordance with the Standard Specifications for Road and Bridge Construction. Any material disturbed while adjusting the frame and grate will be disposed of and all fill made with lean concrete. A maximum of eight inches of adjusting rings shall be allowed.
(3) 
Coarse aggregate: shall comply with IDOT specifications.
(4) 
Combination concrete curb and gutter.
(a) 
Concrete curb and gutter shall be sawed or scored at intervals coinciding with the joint intervals of the adjoining pavement. The minimum joint depth for the gutter shall be two inches (50 mm), and one inch (25 mm) for the curb. The curb and gutter may be jointed instead of sawed, provided the stated joint depths are obtained. If the curb and gutter are adjacent to bituminous pavement, they shall be jointed at fifteen-foot (4.5 m) intervals.
(b) 
The sawing of the curb and gutter shall commence within four hours of the start of the pour unless otherwise directed by the City Engineer. Sawing shall continue until all joints are completed.
(c) 
Asphaltic-type expansion joints one inch (25 mm) thick shall be placed at all PCs, PTs and RPCs and at maximum 150 meter (500 foot) intervals.
(5) 
Test rolling of subgrade and base course.
(a) 
The contractor will provide at his own expense a loaded truck and test roll the compacted earth subgrade in the presence of the Engineer or his designee before any subbase, base, or surface is placed. The truck shall be loaded as follows: 27,000 pounds (12,000 kg) on two axles and 45,000 pounds (20,000 kg) on three axles, plus or minus 10%.
(b) 
The truck shall make one pass over the entire length of each traffic lane to be constructed. Areas which show ruffing, cracking or rolling will not be accepted. The contractor will recompact and/or reconstruct the sections that fail and test roll again for acceptance.
(c) 
When bituminous or concrete surface courses are to be placed over an aggregate base, the base shall be test rolled prior to placement of the surface course.
(6) 
Portland cement concrete pavement.
(a) 
Sawed transverse joints shall be not greater than 15 feet apart and shall conform with the details in the plans. All equipment and labor required to perform the necessary jointing operation shall be available to begin sawing no later than four hours after the paving operation begins, unless excess raveling occurs. The contractor shall provide the necessary equipment and labor needed to complete the sawing at the same rate per longitudinal foot as the paving operation.
(b) 
The contractor shall stop the paving operation at 4:30 p.m., unless approved otherwise by the City Engineer. Sawing shall continue at the same rate as stated above until the sawing is complete or the pavement has set.
(c) 
Trucks and mixer trucks will be allowed to operate on the subgrade; however, should the subgrade show any signs of distress, all operations will cease until these items are corrected to the satisfaction of the Engineer. Curb and gutter is to be formed in a separate operation from the pavement. Monolithic curb will not be permitted.
(d) 
Final finish shall be Type B, as described in the Standard Specifications for Road and Bridge Construction, artificial turf drag.
(7) 
Portland cement concrete driveway pavement.
(a) 
Pavement shall be a minimum of six inches (150 mm) in depth. Sawed transverse and longitudinal joints shall conform to the following table:
Driveway Width at Widest Point
(feet)
Number of Longitudinal Saw Cuts
0 to 12 (0 m to 4 m)
0
12 to 24 (4 m to 8 m)
1
24 to 36 (8 m to 16 m)
2
Maximum Driveway Length
(feet)
Number of Transverse Saw Cuts
0 to 12 (0 m to 4 m)
0
12 to 24 (4 m to 8 m)
1
24 to 36 (8 m to 16 m)
2
(b) 
The sawed joints shall be spaced evenly throughout the driveway. The joints shall be 1/8 inch (three mm) wide with a minimum depth of 1/4 the depth of the pavement and sealed with the same material and in the same manner as portland cement concrete pavement.
(c) 
Three-fourth-inch (20 mm) thick expansion joints shall be placed between driveway pavement and sidewalks and between driveway pavement and curb and gutter.
F. 
Standard details for the following are included at the end of this chapter:
Standard
Drawing Title
A
Typical Pavement Section — Minor Street
B
Standard Joint Details
C
Barrier Curb and Gutter Detail
D
Typical Intersection Joint Detail
E
Typical Cul-de-Sac Joint Detail
Table 195-67
Minimum Pavement Requirements
Type
Requirement
A
8 inches portland cement concrete surface pavement reinforced joint, or equivalent
B
4 inches bituminous concrete surface course, Class I, over 6 inches portland cement concrete pavement, or equivalent.
C
4 inches bituminous plant mix, Class I or B, over 8 inches aggregate base course; Type B or 6 inches portland cement concrete pavement or equivalent
D
2 inches bituminous concrete surface course, Class I, over 7 inches bituminous stabilized aggregate base or 6 inches portland cement concrete pavement or equivalent
E
Bituminous surface treatment, Class A-3, over 8 inches aggregate base course, Type B or equivalent
F
6 inches aggregate base course, Type B or equivalent.
Minimum Pavement Requirements by Roadway Classification[2]
Roadway Classification
Pavement Type1
Major street (highway)
(Note: Urban street: includes functional classification "minor arterial" up through ”major highway."
Rural highway: includes functional classifications of "area service highway" and above.)
A, B
Collector street (highway)
(Note: Urban street: includes functional classification of "collector.
Rural highway: includes functional classification "major and minor collectors."
A, B, C, D
Local street — urban
A, B, C, D
Local highway — rural
A, B, C, D, E
Marginal access road
A, B, C, D, E
Business District
A, B
Manufacturing District
A, B
Alley
A, B, C, D, E, F
Note:
1 Pavement description: all pavement types regulated by Standard Specification for Road and Bridge Construction, State of Illinois.
[2]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
A. 
Required.
(1) 
Sidewalks shall be installed in all subdivisions regardless of size, unless a waiver is granted from the City Council at the time of submission of a preliminary plan. Sidewalks and pedestrian ways and trails shall be designed and constructed in accordance with the requirements set forth in this section.
(2) 
Trails shall be installed in subdivisions in locations and alignments according to the City's Comprehensive Plan and may be installed in additional locations which complement the trail system.
B. 
Design standards. Subdivisions shall be designed so that sidewalks or pedestrian ways are provided in such locations and in such a manner as to do and accomplish the following:
(1) 
Sidewalks shall be not less than four feet (1.3 m) in width; except in the B-2 Highway Business District, where sidewalks shall not be less than six feet (1.8 m) in width. Where sidewalk exceeds 200 feet in length without interruption of drive, etc., then a minimum sidewalk width of five feet (1.5 m) is required.[1]
[1]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
(2) 
In all zoning districts, sidewalks shall be located within dedicated street rights-of-way and shall be roughly parallel to the street or roadway. Sidewalks shall be located on both sides of all public streets.
(3) 
Where the street design and parallel sidewalk arrangement do not provide reasonably direct pedestrian access to and from school sites, park sites, neighborhood commercial centers and other pedestrian traffic generators, pedestrian ways shall be provided in dedicated rights-of-way so as to permit reasonably direct pedestrian access to and from such sites.
(4) 
All sidewalks shall conform to all current Americans With Disabilities Act standards.
(5) 
Trails shall be designed in accordance with current American Association of State Highway and Transportation Officials (AASHTO) standards. Trail pavement widths shall be 10 to 12 feet (3 m or 3.6 m).
(6) 
Transverse slope on sidewalks, pedestrian ways and trails should not be less than 2% nor greater than 4%.
C. 
Right-of-way dedication.
(1) 
All sidewalks shall be installed in dedicated public right-of-way or public easements. Such dedication or easement shall extend not less than one foot (0.30 m) on each side of the sidewalk or pedestrian way surface. The back of the sidewalk shall be located six inches (150 mm) off of the right-of-way line unless otherwise directed by the City Engineer.
(2) 
All trails shall be installed in dedicated public rights-of-way a minimum of 25 feet (7.5 m) in width.
D. 
Schedule of installation. The schedule for installation of walks shall be set forth at the time of final platting. This schedule shall be approved by the City Engineer. The schedule shall be such that sidewalks are installed adjacent to individual lots before occupancy is granted for the structure on said lot and all sidewalk is installed within five years of the date of recorded final plat or the time 90% of the lots in the subdivision have been granted occupancy, whichever is sooner.
E. 
Specifications and special provisions.
(1) 
All sidewalks and trails shall use materials and be installed in a manner meeting or exceeding the requirements, standards and specifications contained in the most recent edition of the Standard Specifications for Road and Bridge Construction, Illinois Department of Transportation, and all special provisions contained herein.
(2) 
Special provisions.
(a) 
Sidewalk thickness. All sidewalks shall be a minimum six inches (150 mm) thick in areas zoned commercial, business or manufacturing, and shall be a minimum four inches (100 mm) thick in all other areas.
(b) 
Transverse expansion joints. Asphaltic transverse expansion joints, 1/2 inch (13 mm) thick, shall be placed in the sidewalk at intervals not to exceed 50 feet (15 m). No additional compensation will be allowed for wire mesh and expansion joints.
(c) 
PCC sidewalk special. Where existing ground surface adjacent to the back of a sidewalk is six inches (0.3 m) or more above the elevation of the walk, PCC sidewalk special shall be constructed in accordance with Standard Detail 5.06A.
(d) 
Wheelchair ramps. Wheelchair ramps shall be constructed in accordance with the Standard Specifications for Road and Bridge Construction.
(e) 
Trail pavement thickness. All trail pavement shall be a minimum two inches (150 mm) of bituminous asphalt surface course on six inches (150 mm) of aggregate base course. Where appropriate and approved by the City, a six-inch (150 mm) thick PC concrete pavement may be installed. When PC concrete pavement is used, all contraction joints shall be sawed in accordance with detail.
F. 
Standard details for the following are included at the end of this chapter:
Standard
Drawing Title
A
PC Concrete Sidewalk Special
A. 
Required.
(1) 
All subdivisions, regardless of size, within the corporate limits or under to control of the City, shall include a stormwater drainage system designed in such a way as to do and accomplish the requirements of this section of the chapter. The design of all storm facilities proposed and funded by the City shall also meet the requirements of this section.
(2) 
Developers shall be allowed to tap into any existing portion of the City's stormwater drainage system if the requirements of this section have been or will be met and meet the requirements for tap-on or hookup charges for designated trunk line storm sewers.
B. 
Design standards. All subdivisions shall include a stormwater drainage system designed in such a way to provide that all lots and outlots in the subdivision will be graded and shaped so as to drain property within the subdivision and such additional land as is in the natural drainageway by gravity to catch basins, inlets, detention/retention facilities and drainageways with adequate outlet.
(1) 
Storm sewers.
(a) 
In all new developments except those zoned R-1, the developer will be required to provide a twelve-inch (300 mm) diameter storm sewer lateral to a point on each lot; said point to be a point that will accommodate the natural drainage of the lot served. The lateral shall be attached to the primary sewer at a drainage structure.
[1] 
Design formula. Unless otherwise approved by the City Engineer, formulas to be used in connection with the calculation of run-off reasonably expected from the minimum design storm shall be the Rational Method for total contributing areas of 20 acres (eight hectares) or less and the Soil Conservation Service Method as outlined in Technical Release No. 55 for areas greater than 20 acres (eight hectares). Calculations are to be submitted substantially in the form provided in Exhibit P of the Appendix.[1]
[2] 
Minimum design storm. The minimum design storm used in calculating run-off in the design formula will be the average rainfall intensity associated with an average recurrence interval of five years for the storm period calculated by the time of concentration as outlined by the latest technical letters of the Illinois State Water Survey for rainfall frequencies. The corresponding charts and tables have been provided in Exhibit P of the Appendix for time of concentration, run-off factors and coefficients and frequency intensities for use in either method for run-off estimation.
[3] 
Match 0.90 point of diameter when changing from one size to another where feasible.
(b) 
The stormwater drainage system shall connect all inlets and catch basins to a storm sewer, pipe or conduit of sufficient size, grade and capacity to carry the run-off reasonably expected from the minimum design storm on the area in the natural drainage area if that area is improved with the type of improvements permitted and to a maximum density authorized by the then-existing zoning ordinances of the City for property within the corporate limits and the land use element of the City's Comprehensive Plan for property outside the corporate limits; provided, however, no storm sewer shall be less than 12 inches (300 mm) in diameter.
(c) 
The stormwater drainage system shall connect all storm sewers to other storm sewers or improved drainageways of sufficient size, grade, and capacity to carry the run-off reasonably expected from the minimum design storm on the area in the natural drainage area if that area was improved with the type of improvements permitted and to the maximum density authorized by the then-existing zoning ordinances of the City for property within the corporate limits and the land use element of the City's Comprehensive Plan for property outside the corporate limits.
(d) 
Manholes.
[1] 
Public manholes shall be installed at the end of each storm sewer line, at all changes in grade or alignment, at all intersections and at distances not greater than 400 feet (120 m) between manholes for sewers of 15 inches (375 mm) or less and 500 feet (150 m) for sewers 18 inches to 30 inches (450 mm to 750 mm). Greater spacing will be permitted by the City Engineer in larger sewers.
[2] 
Public manholes in improved streets or other hard-surfaced public rights-of-way accessible to vehicular traffic shall be not more than 800 feet (240 m) apart.
[3] 
Minimum drop in a manhole shall be 0.10 foot (30 mm), and the desired maximum drop in a manhole shall be 24 inches (600 mm).
[4] 
Manholes shall be constructed in accordance with Standard Detail 6.07A or B (see Subsection G).
(e) 
Inlets.
[1] 
Inlets for local streets shall be provided for all low points, and the maximum spacing shall not exceed 400 feet (120 m); except that the first inlet shall be spaced approximately 400 feet (120 m) from the high point or at no greater distance than 600 feet (180 m) when approved by the City Engineer. Inlet spacing for all other streets must meet Illinois Department of Transportation Design and Environment Manual criteria.
[2] 
Inlets shall be designed in accordance with Standard Drawing 6.07C or D (see Subsection G).
(f) 
Drainageways. Drainageways shall have a flat bottom, maximum 3:1 side slopes, the top of the bank shall be constructed one foot (0.3 m) above computed water surface elevation for the minimum design storm, and have a ten-foot (three m) maintenance/access lane on each side of the drainageway.
(2) 
Retention and detention facilities.
(a) 
No development shall be authorized in the City unless there is an adequate outlet or the City has approved retention or detention facilities. The applicant shall show by his detailed calculations that the outlet is adequate, and the calculations must be acceptable to the City. In the event the City determines the outlet is not adequate, the developer shall construct retention or detention facilities. Such facilities shall be designed based on the design formula.
[1] 
Design formula. Unless otherwise approved by the City Engineer, formulas to be used in connection with the calculation of runoff volumes and allowable release rates reasonably expected from the minimum design storm shall be the Rational Method as outlined on the latest Illinois Department of Transportation Drainage Manual for total contributing areas of 20 acres (eight hectares) or less and the Soil Conservation Hydrograph Method for areas greater than 20 acres (eight hectares). The corresponding instructions, charts, tables and forms have been provided in Exhibit P of the Appendix of this chapter for use in either method of calculation.
[2] 
Minimum design storm.
[a] 
Storage volume when using the Soil Conservation Hydrograph Method will be determined from inflow hydrographs generated by the design formula using a minimum design storm with a range of rainfall intensities associated with an average recurrence interval of 100 years and an assumed coefficient for the particular post-development zoning district as set forth in Exhibit P of the Appendix of this chapter.
[b] 
Storage volume when using the Rational Method will be the volume generated by the difference between average runoffs of one-hundred-year rainfall frequency in post-development condition and three-year rainfall frequency in pre-development condition, assuming such difference occurs for one hour, the average discharge being half of the peak discharge calculated by the Rational Method.
[c] 
Allowable release rate will be determined by the design formula using a minimum design storm with an average rainfall intensity associated with an average recurrence interval of three years for the storm period calculated by the time of concentration as outlined by the latest technical letters of the Illinois State Water Survey for rainfall frequencies. Runoff coefficients or CN numbers shall reflect pre-development conditions of the watershed.
(b) 
Bank stabilization.
[1] 
Retention facilities shall be provided with wave shelves along the entire perimeter in accordance with the standards in this section.
[2] 
Retention/Detention facilities shall have a maximum 4:1 slope.
[3] 
Shoreline surfaces subject to waves shall be stabilized with structural materials such as rip-rap, cement blocks or matting, retaining or slope walls, etc.
(c) 
Underdrains. Detention facilities to be dedicated to the public for ownership and maintenance by the City shall include a system of underdrains to ensure a dry bottom.
[1] 
Pipe materials. Underdrains shall be constructed of rigid perforated PVC pipe, SDR 35 or stronger.
[2] 
Fabric envelope. Underdrain pipe shall be encased in an envelope of fabric weighing not less than 3.5 ounces/square yard (120 grams/square meter) meeting the requirements for geotechnical fabric for french drains as specified in the Standard Specifications for Road and Bridge Construction.
[3] 
Pipe size: minimum six inches (150 mm).
[4] 
Clean-outs: at ends of runs, junctions, and a maximum of every 300 feet (90 m) as per standard drawing 6.07K.
[5] 
Tracer wire. All underdrains shall be buried with a tracer wire. Tracer wire shall be #12 THWN single-conductor solid copper cable. Tracer wires shall be terminated at clean-outs as shown in Standard Drawing 6.07K.
(d) 
Earthen dams. When dedicated to the public for ownership and maintenance by the City, earthen dams shall meet the following criteria:
[1] 
Side slope: 4:1 or flatter.
[2] 
Minimum ten-foot (three m) wide flat crest for access by maintenance equipment.
[3] 
Freeboard. All earthen dams shall be constructed with a minimum of one foot (300 mm) of freeboard over the maximum anticipated water level in the emergency spillway.
[4] 
All earthen dams shall include an impervious compacted clay core. The core shall be of sufficient width to allow for mechanical compaction and of sufficient depth to penetrate the overburden of topsoil, keying into the underlying strata of virgin clay.
[5] 
The developer shall be responsible for obtaining all construction permits required by governmental agencies.
(e) 
Emergency spillway. All detention and retention facilities, whether publicly or privately owned and maintained, shall include an emergency spillway.
[1] 
Emergency spillways shall, wherever feasible, be constructed in virgin ground.
[2] 
Erosion protection. Emergency spillways shall be protected from erosion with approved surface paving or vertical cutoff walls appropriate for the impoundment and the height of the spillway crest.
[3] 
Capacity. Emergency spillways shall be sized for no less than 75% of the maximum peak inflow into the basin.
(3) 
Adequate outfall shall be provided. If the outlet is not adequate, then retention or detention shall be provided. The applicant should show by his detailed calculations that the outlet is adequate based on the design formula, with calculations acceptable by the City.
(a) 
Design formula. Unless otherwise approved by the City Engineer, formulas to be used in connection with the calculation of runoff reasonably expected from the minimum design storm shall be the Rational Method for total contributing areas of 20 acres (eight hectares) or less and the Soil Conservation Service Method as outlined in Technical Release No. 55 for areas greater than 20 acres (eight hectares).
(b) 
Minimum design storm: used in calculating runoff in the design formula; will be the average rainfall intensity associated with an average recurrence interval of 25 years for waterways and five years for storm sewers for the storm period calculated by the time of concentration as outlined by the latest Technical Letters of the Illinois State Water Survey for rainfall frequencies.
(4) 
Sump pump discharge.
(a) 
In all new developments zoned R-1, the developer will be required to provide a minimum two-inch (50 mm) diameter sump pump discharge lateral to a point on each lot; said point to be a point that will accommodate the subsurface discharge from around the foundation of the building served. The lateral shall be attached to the primary sump pump discharge conduit by the installation of a tee or wye connection.
(b) 
The primary sump pump discharge system shall connect all laterals to a storm sewer, pipe or conduit of sufficient size, grade and capacity to carry the discharge reasonably expected from the area improved with the maximum density authorized by the then-existing zoning ordinances of the City.[2] No primary sump pump discharge conduit shall be less than six inches (150 mm) in diameter or greater than 10 inches (250 mm) in diameter; the design method of storm sewers shall govern.
[2]
Editor's Note: See Ch. 300, Zoning.
(c) 
The primary sump pump discharge system shall connect all conduit to other storm sewers, inlets or catch basins, manholes or improved drainageways of sufficient size, grade and capacity to carry the discharge reasonably expected in addition to the surface runoff expected from the minimum design storm of the design of storm sewers and drainageways as described in this section.
(d) 
Cleanouts.
[1] 
Cleanouts shall be installed at the end of each primary sump pump discharge line, at all changes in grade or alignment, and at distances not greater than 200 feet (60 m) between cleanouts or between cleanouts and manholes or inlets. Inlets or manholes my be substituted for cleanouts located within the public right-of-way.
(e) 
No sump pump discharge lateral or primary conduit shall be installed beneath a public street pavement. The Village will not accept for maintenance any primary sump pump discharge line located along rear or side lot lines.
(f) 
All sump pump discharge conduits not constructed of metallic material shall be installed with tracer location wire. Tracer wire shall be #12 THWN single-conductor solid copper cable. Tracer wire shall be terminated at cleanouts as shown in Standard Drawing 6.07K.
C. 
Design calculation requirements. Calculations required to demonstrate compliance with the design standards enumerated in the previous subsections of this section shall be submitted substantially in the form and content as shown and provided in Exhibit P of the Appendix. Calculations submitted with preliminary plans are not required to be in as great detail as the calculations required to be submitted with public improvement engineering plans and specifications.
D. 
Right-of-way and easement dedications.
(1) 
Drainageways shall be located in dedicated public rights-of-way. Rights-of-way for drainageways shall be a minimum of 100 feet (30 m) wide. This minimum width shall be increased if the City Engineer shall determine that the drainage way's hydraulic capacity is inadequate to properly serve its drainage function.
(2) 
Storm sewers shall be located in public easements of dedicated public rights-of-way. Such easements and rights-of-way shall be of sufficient width and the storm sewer shall be installed at such locations therein as to permit open cut installation, maintenance and repair within the confines of the easement or right-of-way without relocation or other unreasonable interference with other public utilities located therein and so as to meet the following minimum standards:
(a) 
Fifteen feet (4.5 m) in width plus five feet (1.5 m) for each additional utility for storm sewers 24 inches (600 mm) in diameter and 10 feet (three m) for water main or other sewers.
(b) 
Two additional feet (600 mm) in width for each 12 inches (300 mm), or portion thereof, of additional storm sewer diameter provided in excess of 24 inches (600 mm).
(c) 
Additional width may be required if storm sewers exceed 15 feet (4.5 m) in depth.
(3) 
Sump pump discharge line shall be located in public easements or dedicated public rights-of-way. Such easements and rights-of-way shall be of sufficient width and the conduit shall be installed at such locations therein as to permit open cut installation, maintenance and repair within the confines of the easement or right-of-way without relocation or other unreasonable interference with other public utilities located therein and so as to meet the following minimum standards:
(a) 
Ten feet (three m) in width plus five feet (1.5 m) for each additional utility for sump pump discharge line.
E. 
City's participation in cost.
(1) 
Storm sewers and drainageways. Where it is necessary to construct storm sewers and drainageways through land not being developed, the City may pay a percentage of the cost of the storm sewer or drainageway, provided funds are available, based on the percentage of the drainage area contributing to the storm sewer or drainageway downstream from the development. The developer's cost shall be based on the drainage area coming through and including his development. The developer is required to pay tap-on fees for particular trunk line storm sewers if available.
(2) 
Detention/Retention facilities.
(a) 
In all developments not already served by an adequate existing or proposed stormwater detention/retention facility, the developer shall provide a stormwater detention/retention facility complying with this section.
(b) 
Facilities shall be designed so that local storm sewer systems and drainageways will discharge directly to proposed or existing detention/retention facilities, or to an adequate trunk line storm sewer and flood route, or drainageway feeding same, which discharges into a proposed or existing stormwater detention/retention facility. Where adequate storm sewer or drainageway capacity is not available to convey design runoff to an existing downstream detention/retention facility, an on-site detention/retention facility shall be required. Calculations demonstrating adequacy must be provided to the City.
(3) 
Engineering costs. The developer will be responsible for all engineering costs for design of storm sewers, drainageways and detention/retention facilities within his/her development.
F. 
Specifications and special provisions.
(1) 
Storm sewers shall use materials and be installed in the manner meeting or exceeding the requirements, standards, and specifications contained in the Illinois Standard Specifications for Road and Bridge Construction in Illinois, the current edition as then modified, supplemented and amended by this chapter or the City Engineer. These modifications, amendments and amplifications have been provided in this section.
(2) 
Drainageways and retention or detention facilities shall be constructed in the manner meeting or exceeding the requirements, standards and specifications contained in the applicable sections of the Standard Specifications for Road and Bridge Construction for the Illinois Department of Transportation, the current edition as then modified, supplemented and amended by this chapter or the City Engineer. These modifications, amendments and amplifications have been provided in this section.
(3) 
Sump pump discharge lines shall be constructed in the manner meeting or exceeding the requirements, standards and specifications contained in the applicable sections of the Standard Specifications for Road and Bridge Construction in Illinois, the current edition as then modified, supplemented and amended by this chapter or the City Engineer. These modifications have been provided in this section.
(4) 
Materials.
(a) 
Storm sewers. Materials shall be in accordance with Section 550 of the Standard Specifications for Road and Bridge Construction and shall conform to one of the following:
[1] 
Reinforced concrete arch culvert, storm drain and sewer pipe.
[2] 
Reinforced concrete culvert, storm drain and sewer pipe.
[3] 
Reinforced concrete elliptical culvert, storm drain and sewer pipe.
[4] 
Ductile iron pipe Class 150 conforming to ANSI/AWWA C-151/A21.51, with single gasket joints meeting ANSI/AWWA C-104/A21.4 and with bituminous coating as per Section 51-8.1 of ANSI/AWWA C-151/A21.51.
(b) 
Sump pump discharge lines not under pavements shall be constructed of rigid PVC, SDR 35 or stronger, conforming to Section 1040.10 of the Standard Specifications for Road and Bridge Construction. Sump pump discharge lines under pavements shall be constructed of the same materials as storm sewers.
(5) 
Special provisions.
(a) 
Storm sewer special provisions.
[1] 
Adjustment of frame and grate.
[a] 
Final grade for all manhole castings will be determined after the curb and gutter have been poured and the subgrade and/or base has been constructed. Final adjustment of the frame and grate shall be made in the following manner: After the curb and gutter have been poured and the base constructed, the final elevation will be determined by the City Engineer.
[b] 
The frame and grate will be adjusted to this elevation in accordance with the Standard Specifications. Any material disturbed while adjusting the frame and grate will be disposed of and all fill made with lean concrete. A maximum of eight inches (200 mm) of adjusting rings shall be allowed.
[2] 
Jetting of trenches. All sewer trenches under streets, driveways or sidewalks shall be compacted by jetting or as directed by the City Engineer.
[3] 
Granular cradle. A granular cradle will be required for all sewers as shown in the Standard Details. Material for the granular cradle shall comply with either Type A or C gradations in accordance with Section 550 of the Standard Specifications.
[4] 
Trench backfill.
[a] 
Material for trench backfill shall comply with Section 1003.04 of the Standard Specifications for Road and Bridge Construction. All trenches under another sewer or water main, or under existing streets, sidewalks, driveways and curb and gutter, shall be backfilled with trench backfill material in accordance with Section 550.07 of the Standard Specifications.
[b] 
Material for trench backfill shall comply with Article 1003.04 of the Standard Specifications, except that the maximum size shall be three inches.
[5] 
Inlet Type A with Type 3 frame and grate. Section 612 of the Standard Specifications shall govern the construction of inlets Type A. They shall be built in accordance with the Standard Details for Inlets Type A. Section 614 of the Standard Specifications shall govern the construction of frame and grate Type 3. Frame and grate Type 3 shall be equal to Neenah No. R-3010. The curb box shall be of the open type, and the grate shall be Type A. Only cast-iron grates shall be used.
[6] 
Inlet Type H with Type 50 frame and grate. Section 612 shall govern the construction of inlets Type H. They shall be built in accordance with the Standard Details for Inlets Type H. Section 614 shall govern the construction of frame and grate Type 50. Frame and grate Type 50 shall be equal to Neenah No. R-3067, and the grate shall be Type A. Only cast-iron grates shall be used.
(b) 
Sump pump discharge special provisions.
[1] 
Sump pump discharge pipes. Material for sump pump discharge conduit shall be polyvinyl chloride (PVC) sewer pipe conforming to ASTM D3034, Type PSM, for sizes four inches to 10 inches (100 mm to 250 mm). The minimum standard dimension ratio (SDR) acceptable shall be 35. Material for conduit exceeding a diameter size of 10 inches (250 mm) shall be the same as determined in this section for storm sewers. Sump pump discharge cleanouts shall be constructed in accordance with Standard Detail 607-J.
G. 
Standard details for the following are included at the end of this chapter:
Standard
Drawing Title
A
Standard Manhole Details
B
Manhole Details Sewers 48" dia. and Larger
C
Inlet Type A Details
D
Inlet Types G and H Details
E
Standard Concrete Collar and Pipe Bedding and Excavation Details
F
Water and Sewer Separation Requirements (Vertical)
G
Water and Sewer Separation Requirements (Vertical)
H
Water and Sewer Separation Requirements (Horizontal)
I
Slope Wall Detail
J
Sump Pump Discharge Cleanout Detail
K
Detention Underdrain Cleanout and Junction
[Amended 8-31-2009 by Ord. No. 2009-6]
A. 
All subdivisions and developments, regardless of size, within the corporate limits or under the control of City, shall include provisions for the construction of sanitary sewage facilities designed and constructed in accordance with this section. The failure to coordinate the planning, design, construction, inspection and approval of public improvements with the City of Lexington and its engineer may lead to delays in approval and acceptance, and higher fees.
B. 
General requirements.
(1) 
All subdivisions shall be designed so the proposed sanitary sewer system does and accomplishes the following:
(a) 
Conforms to the City of Lexington Comprehensive Plan.
(b) 
Extends interceptor sanitary sewers through the proposed subdivision to serve upstream properties in the natural drainage area.
(c) 
Provides sanitary sewer services with separate service connections terminating not less than two feet inside the property or easement line of each proposed lot of record.
(d) 
Has adequate capacity to drain the portions of the subdivision proposed to be served by the sewer and any property upstream thereof which drains into or may drain into that sewer, based on the effluent discharge reasonably expected from development of the type and to the maximum density permitted by the then-existing zoning ordinances of the City for property within the corporate limits and the land use element of the City's Comprehensive Plan for property outside the corporate limits.
(e) 
Maintains separation from the public water supply system.
(f) 
Discourages the use of sewage pumping facilities.
(g) 
Permits the use of private sewage disposal systems only in the following situations:
[1] 
Where public sanitary sewers are not within 200 feet of an area included in the subdivision's preliminary plan; and
[2] 
Where the subdivision contains no lots less than 20,000 square feet in area, not more than two lots of more than 20,000 square feet but less than 30,000 square feet and not more than five lots with more than 30,000 square feet but less than one acre; and
[3] 
All requirements of Chapter 159, Sewers, are complied with; and
[4] 
A fifteen-foot permanent easement is dedicated for the purpose of a future sanitary sewer.
[5] 
Private sewage disposal systems, including but not limited to septic tanks, holding tanks, distribution boxes, subsurface seepage systems, sand filters, and waste stabilization ponds, which are no longer active shall be emptied and abandoned in accordance with all state, county, and City regulations. The owner of the property shall provide documentation to the City that the private disposal system has been properly abandoned.
(h) 
Designed to prevent installation of sanitary sewers in rear yard easements and permit installation in side yard easements only when necessary.
(i) 
Meet requirements for pump stations if required.
(2) 
The City will only accept public improvements after full compliance with the standards, as set forth by this chapter, has been verified by the City Engineer. The developer, or other party tendering a public improvement for acceptance, must affirmatively state that he/she is unaware of any material defects in the public improvement which could lead to its early deterioration, maintenance or repairs prior to the standard expected maintenance or repairs on similar public improvements, and that developer is also unaware of damage to drainage tiles, other utilities, or septic fields/systems during the construction of the public improvement.
C. 
Design standards.
(1) 
Design formula.
(a) 
Sanitary sewers shall be designed to provide adequate capacity without surcharge, using Manning's Formula.
Metric
English
1     
V = nR2/3 S1/2
1.49  
V = nR2/3 S1/2
Where:
V = Velocity of flow in meters per second
V = Velocity of flow in feet per second
n = Roughness factor
n = Roughness factor
R = Hydraulic Radius (meters)
R = Hydraulic radius (feet)
S = Slope of energy grade line for conduit running full (meters per meter)
S = Slope of energy grade line for conduit running full (feet per foot)
[1] 
For new smooth-walled sewer pipe n = 0.013.
[2] 
Sanitary sewers shall flow with a desired minimum velocity of 0.8 meter per second (2.5 feet per second) with an absolute minimum velocity of 0.6 meter per second (two feet per second). Proposed sanitary sewage flow shall be based on the population after full development of the area. For undeveloped areas where the details of future development are not known, design population will be estimated based on the zoning classification and expected use conforming to the City of Lexington Comprehensive Plan.
(b) 
Flow criteria. Sanitary sewers shall be sized to accept the following peak design flows:
[1] 
Domestic: 400 gallons (1,500 liters) per day per capita for lateral sewers; average flow of 375 liters (100 gallons) per capita peaked by a factor per Exhibit Q in the Appendix plus 110 liters/mm dia/hectare (300 gal/inch/dia/acre) for infiltration.[1]
[1]
Editor's Note: See the details included at the end of this chapter.
[2] 
Commercial: 95,000 liters/hectare (10,000 gallons/acre) per day for lateral and industrial sewers; 66,000 liters/hectare (7,000 gallons/acre) per day for trunk sewers.
(2) 
Elevation of building sewer. No basement, half-basement or any other portion of a building having a floor elevation beneath the ground surface over the City sewer at the point of the connection may be connected to the City sewer by gravity. In areas where the ground line over the City sewer is to be altered, the proposed final ground elevation shall be used. The maximum depth to the top of the building service sewer shall be three feet below finished grade at the point where it enters such building. In all buildings in which the building drain is too low to provide gravity flow to the City sewer, all sewage carried by such drain shall be lifted by approved mechanical means and discharged into the building sewer. No water-operated sewage ejector shall be used. Any property owner or other interested person may appeal in writing to the City for a variance and exception to the restriction imposed hereby, and the City Council may grant a variance or exception upon a satisfactory showing by the applicant that, due to circumstance unique to the affected property, the use of a gravity flow connection to service a below-grade sanitary facility will not be likely to result in sewer backups as a result thereof. Appeals filed hereunder shall be made in writing to the City Council and forwarded by it to the appropriate committee, or any other committee hereafter designated for such purpose, for recommendation.
(3) 
Materials. All sanitary sewer pipe shall be polyvinyl chloride (PVC) ASTM D3034, SDR 26; bell and spigot for elastomeric gasket joints, minimum cell class 12454B for sizes up to fifteen-inch diameter (380 mm); joints per ASTM D3212 and gaskets per ASTM F477. Pipe may also be ductile iron AWWA C-150, AWWA C-151 with mechanical or push-on joints per AWWA C-111; polyethylene film encasement per AWWA C-105 and fittings per AWWA C-110 or C-153. Pipe may also be vitrified clay pipe, ASTM Designation C-700 (extra-strength), with pipe joints conforming to ASTM C-425. Use of other materials for sanitary sewers must be approved in writing by the City prior to their installation.
(4) 
Minimum size. All public sanitary sewers shall be a minimum of eight inches (200 mm) in diameter. All service sewer lines shall be a minimum of six inches (150 mm) in diameter.
(5) 
Alignment. All sewers shall be laid straight in both horizontal and vertical planes between manholes unless otherwise approved by the City Engineer.
(6) 
Sewer size changes. When sanitary sewers of different diameters join in a manhole, the invert elevations shall be adjusted to maintain a uniform energy gradient. Alignment of the 0.9 depth points of the sewers shall be implemented to meet this requirement.
(7) 
High-velocity protection. Where velocities greater than 10 feet per second (three mps) will occur in a sanitary sewer when flowing full, special provisions shall be taken to prevent scouring or displacement of the pipe.
(8) 
Manholes.
(a) 
Provide public manholes at the end of each line, at all changes in grade, size or alignment, in improved streets or other public rights-of-way accessible to vehicular access and sewer maintenance equipment, at all intersections and at distances not greater than 400 feet (120 m). Greater spacing may be permitted by the City Engineer in large sewers and in those carrying a settled effluent.
(b) 
Provide an outside drop pipe for sewers entering a manhole at an elevation of 24 inches (600 mm) or more above the manhole invert. Where the difference in elevation between the incoming sewer and the manhole invert is less than 24 inches (600 mm), the invert should be filleted to prevent the depositing of solids. Drop manholes shall be constructed in accordance with Standard Detail 7.07B-1.
(9) 
Service drops in manholes:
(a) 
New construction. Outside service drops shall be provided as per Standard Detail 7.07 B-1 in new construction when a proposed sanitary service enters a proposed manhole more than 600 mm (two feet) above the invert of the manhole. With the permission of the City Engineer, for existing manholes an inside drop connection as per Standard Detail 7.07 B-2 may be used.
D. 
Right-of-way dedication. Generally, all sewers shall be installed in public easements or dedicated public rights-of-way. Such easements and rights-of-way are to be of sufficient width and the sewers are to be installed at such locations so as to permit open cut installation, maintenance and repair within the confines of the easement or right-of-way without relocation or other unreasonable interference with other public utilities located therein and so as to meet the following minimum standards:
(1) 
Fifteen-foot (4.5 m) width plus five feet (1.5 m) for each additional utility and 10 feet (three m) for water main or other sewers.
(2) 
For sewers exceeding 15 feet (4.5 m) in depth, additional width may be required.
E. 
Developer's cost.
(1) 
The developer shall pay all costs to oversize sanitary sewer lines to serve upstream properties with sizes to be approved by the City Engineer. The developer may attempt to negotiate with upstream property owners for cost participation.
(2) 
Engineering costs. The developer will be responsible for all engineering costs for design of sanitary sewer facilities including pump stations within his/her development.
(3) 
Inspection costs. The developer will be responsible for all inspection costs associated with the installation of sanitary sewer facilities, including pump stations, within his/her development.
F. 
Specifications and special provisions. All sanitary sewers shall be installed in accordance with all applicable sections of the Standard Specifications for Water and Sewer Main Construction in Illinois, the current edition as then modified, supplemented and amended by this chapter or the City Engineer. These modifications, amendments and amplifications have been provided in this section.
(1) 
Special provisions for sanitary sewers.
(a) 
Granular cradle. A granular cradle (bedding and haunching) will be required for all sanitary sewers as shown in the Standard Details and in accordance with Section 20-2.20B of the Standard Specifications for Water and Sewer Main Construction.
(b) 
Trench backfill. All trenches under another sewer or water main, or under or within 0.6 meter (two feet) of existing or proposed streets, existing sidewalks and driveways, shall be backfilled with select granular material in accordance with Section 308 of the Standard Specifications for Road and Bridge Construction. Material for trench backfill shall comply with Section 1003.04 of the Standard Specifications for Road and Bridge Construction, except that the following graduations may be used in addition to FA6: CA6 and CA 10; and except that the maximum size shall be 75 mm (three inches) and that no material over 13 mm (1/2 inch) and shall be used below 300 mm (one foot) over the top of the sewer.
(c) 
Compaction of trench backfill. All sewer trenches under streets, driveways or sidewalks shall be compacted by jetting, mechanical compaction, or as directed by the City Engineer.
(d) 
Testing. The leakage test will be by the low-pressure air method and conducted by the developer. Level ground and provide 48 hours' notice. All sanitary sewers shall be cleaned and televised by an approved televising company, with a CD/DVD recording provided to the City. The CD/DVD recording shall record a clear picture of the entire periphery of the pipe and shall include recorded locations of all data and features seen on the videotape. Televising shall occur just prior to final acceptance and/or placement into service by the City.
(e) 
Sewer service markings. The contractor shall place two-foot by four-foot markers (50 mm by 100 mm) extending from the bottom of the sewer service to two feet (0.6 m) above the ground at the location where each sewer service terminates. These markers shall be painted green and installed at the time the services are constructed.
(f) 
Curb marking of sewer services. At the time the curb and gutter are poured, the contractor shall mark the top of the curb with an "S" to mark location of said sewer service.
(g) 
Sewer service laterals.
[1] 
Location.
[a] 
All services shall terminate at a point at least two feet (0.6 m) inside the property line or a minimum of two feet (0.6 m) beyond any front yard easement containing a City- or county-/township-owned utility. For properties presently occupied/developed, services may terminate at or near property lines at the City’s option.
[b] 
Sewer services to individual lots, which are to be privately maintained, shall not be located in easements across other lots, except for short distances to reach the public sewer main located in an easement immediately adjacent to the lot being served, or to reach the public sewer main located in a front yard easement on the opposite side of, and adjacent to, the street right-of-way from the lot being served.
[2] 
Depth. All services shall terminate at a depth of no less than four feet nor more than six feet below the adjacent top of curb unless otherwise approved by the City.
[3] 
Slope. All services shall be laid at a slope of 1.0% or greater. Changes in slope on services may be made by "breaking joints." provided the joint seal is airtight and the recommendations of the manufacturer are not exceeded. Fittings not greater than a forty-five-degree bend may be used where changes in grade dictate.
[4] 
Service tees or wyes over 12 feet (3.6 m) deep shall be encased in concrete as per Standard Detail D.[2]
[2]
Editor's Note: Standard Detail D is included at the end of this chapter.
[5] 
All sewer service laterals shall be a minimum of six inches (150 mm) in diameter.
[6] 
The waste piping from a point five feet outside the building to the City sanitary sewer shall be considered the house sewer (or sewer service lateral) and shall be constructed of the following materials with a minimum diameter of six inches: ductile iron, PVC Schedule 80 with cement joints, PVC Schedule 21 Type PSM-SDR slip joint, PVC Schedule 40, vitrified clay pipe, ASTM Designation C-700 (extra-strength) with pipe joints conforming to ASTM C-425. Cellular-core PVC is prohibited. All material shall be embedded in three-fourths-inch crushed stone with a minimum of four inches below the sewer pipe and six inches above the top of the sewer pipe. Cleanouts are required in accordance with the Illinois Plumbing Code.
(h) 
Adjustment of manhole casting. Final grade for all manhole castings will be determined after the curb and gutter have been poured and the subgrade and/or base has been constructed. Final adjustment of the frame and grate shall be made in the following manner: After the curb and gutter have been poured and the base constructed, the final elevation will be determined by the City Engineer. The frame and grate will be adjusted to this elevation in accordance with the Standard Specifications. Any material disturbed while adjusting the frame and grate will be disposed of and all fill made with lean concrete. A maximum of 12 inches (300 mm) of adjusting rings shall be allowed. For manholes located in easements outside public rights-of-way, the frame and grate shall be adjusted two inches (51 mm) above the final elevation as determined on the approved lot grading plan.
(i) 
Utilities. The owner or his designee shall notify the utility companies of the impending project, and the plans shall indicate the general location of the utility main lines. The contractor shall have the responsibility, before any construction work has begun, of obtaining from all utilities the exact location of any underground facilities in the area of construction, whether indicated on the plans or not. Any facilities disturbed by the contractor shall be restored by him at his own expense. The contractor shall coordinate with the proper utility the relocation of any facility designated on the plans or deemed necessary to be relocated by the City in order to complete construction of the project. Residents shall be notified a minimum of 48 hours in advance of impending service outages, and no residence shall be without service overnight.
(2) 
Special provisions modifying Standard Specifications for Water and Sewer Main Construction in Illinois.
Section
Title
Change
30-3.01E and F
Ductile iron pipe
Add: "Inside of all pipes shall have standard cement mortar lining, and the inside and outside shall be tar (seal) coated."
31-1.11A(1)
Selection of test sections
Delete Paragraphs two, three and four and substitute the following: "All sections of the sewer shall be tested, except for those designated portions of the sewer that are placed into service during the construction process."
32-2.07
Cast iron frames, cover and steps
Add the following:
(1) Covers shall be Neenah, East Jordan or equal. Neenah numbers are given as examples.
(2) For sanitary manholes: Standard Type 1 frame and lid, Neenah R-1772B, with Type B lid and NF-9204 pick hole. All lids for sanitary manholes shall be self-sealing.
(3) Steps shall be M.A. Industries PSI-PF manhole step or equal conforming to ASTM C-478
32-3.05
Precast manholes
Add the following to Paragraph 3: "No bitumastic material shall be used on the inside of manholes. Inside of all joints shall be finished with non-shrink-type grout and rubber gaskets."
32-3.09
Placing castings
Change to read: "Castings placed on concrete or masonry surfaces shall be set in full mortar bed or on approved solid bituminous gaskets."
32-3.09A
Streets at grade
Change "12 inches (300 mm)" to "8 inches (200 mm)."
32-3.09B
Streets or alleys with no established grade
Change "12 inches (300 mm)" to "8 inches (200 mm)."
32-3.09C
Manholes not within street or alley areas
(1) Change "18 inches (450 mm)" to "24 inches (600 mm)."
(2) Change second paragraph to read: "Unless otherwise directed, the top of manhole castings shall be at grade of existing surface."
32-3.11
Pipe connections
Add the following sentence: "Bituminous material shall be used on the outside of the manhole only."
G. 
Standard details for the following are included at the end of this chapter:
Standard
Drawing Title
A
Standard Manhole Details
B-1
Standard Drop Manhole Details
B-2
Inside Drop Service Connection
C
Typical House Connections
D
Standard Concrete Collar and Pipe Bedding and Excavation Details
E
Water and Sewer Separation Requirements (Vertical)
F
Water and Sewer Separation Requirements (Vertical)
G
Water and Sewer Separation Requirements (Horizontal)
A. 
General requirements. All developments shall be designed so that proposed water distribution and supply system does and accomplishes the following:
(1) 
Conforms with the City of Lexington Comprehensive Plan.
(2) 
Extends water mains through the proposed development to serve otherwise unserved abutting properties.
(3) 
Provides adequate capacity as determined by the City and City Engineer to serve all the lots proposed to be served by the main, plus any additional extensions to the main which might be made to develop property in the same pressure zone with the type of uses and to the maximum density permitted by the then-existing zoning ordinances of the City with respect to the property within the corporate limits and the land use element of the City's Comprehensive Plan for proposals outside the corporate limits.
(4) 
Permits private well only in the following instances:
(a) 
Outside the corporate limits; or
(b) 
Where there are more than 20,000 square feet (1,850 square meters) in the lot served; and
(c) 
In complete conformance with Illinois Environmental Protection Agency and McLean County Health Department standards; and
(d) 
If a public water supply is not reasonably available.
(5) 
Maintains separation from public or private sewer or septic systems.
(6) 
Loops water mains so as to avoid dead-ends.
B. 
Design standards.
(1) 
Provide water service and an individual shutoff valve and box located in the public right-of-way with a service line stub extended to a point ± two feet from the property line or easement line which, upon recording of the final plat, will become a lot of record. A water service connection of Type K copper must be provided for and centered on each lot of record in residential subdivisions. Water service is to be determined and installed only if a specific use is known beforehand and in accordance with Illinois State Plumbing Code.[1]
[1]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
(2) 
Water mains shall be so designed so that looped water mains do not reconnect to the same source main unless there is no alternative, whereupon the connections must be a minimum of 500 feet (150 m) apart or have a valve located between the two connections.
(3) 
Provide steamer-type hydrants at each intersection of two or more streets or roadways, and provide additional hydrants so that hydrants are spaced at intervals not exceeding 400 feet (120 m) in areas zoned single-family and two-family residential, and not exceeding 250 feet (75 m) in areas otherwise zoned. For all zoning districts other than R-1, all hydrants shall be steamer-type. Where steamer hydrants are not practical or hydrant spacing is excessive, the City Engineer may recommend a variance to the City Council.
(4) 
Hydrants located at other than street intersections are to be positioned adjacent to the side-yard lot line of two adjoining properties so as to achieve the nearest approximation of hydrant spacing interval required for a specific zoning designation. If pipe joints or other utility conflicts prevent locating at the nearest side-yard lot line, proceed to the next nearest lot line.
(5) 
Hydrants are not to be located closer than 10 feet (three m) to any light standard, tree, signpost or other permanent structure that would impede access to the hydrant or reduce its visibility.
(6) 
All in-line valves shall be installed at intervals not to exceed 600 feet (180 m).
(7) 
Valves shall be placed at each branch connection, and an in-line valve shall be located near the branch upstream or downstream from each branch.
(8) 
Provide water mains having an inside diameter with a minimum of six inches' nominal pipe size. All pipe shall be ductile iron Class 52 with polyethylene encasement or PVC SDR-21 (ASTM D2241).
(9) 
Water mains shall not be located closer than 10 feet (three m) horizontally or 18 inches (450 mm) vertically when crossing any public or private sanitary sewer, storm sewer, drain or manhole.
(10) 
If a subdivision is constructed in phases, creating a temporary dead-end water main, a valve and hydrant must be installed at each temporary terminus.
(11) 
Whenever water mains must cross watercourses, railroads or interstate highways, a valve shall be provided at both ends of the crossing so that the sections can be isolated for testing or repair.
(12) 
There shall be no connection or potentially possible connection between the public water supply system and any pipes, pumps, hydrants or tanks from another system whereby unsafe water or other contaminating materials may be discharged or drawn into the public water supply.
(13) 
No water main shall be installed in rear yard easements.
C. 
Right-of-way and easement dedications. All water mains shall be installed in public easements or dedicated public rights-of-way. Such easements and rights-of-way shall be of sufficient width and the water mains shall be installed at such locations as to permit open cut installation, maintenance and repair within the confines of the easement or right-of-way without relocation or unreasonable interference with other public utilities located therein and so as to meet the following minimum standards:
(1) 
Have a minimum width of 15 feet (five m), plus five feet (1.5 m) for each additional utility, plus 10 feet (three m) if width abuts private property on two or more sides.
(2) 
An additional 10 feet (three m) of width if a water main is to be installed parallel to a sanitary sewer, so that the two utilities will be at least 10 feet (three m) apart.
D. 
City's participation in cost.
(1) 
Water mains. Where installation of water mains of larger capacity than required to serve land owned by the developer is required by the City Council to serve future growth in the vicinity of the development, the developer shall pay for only his/her portion, based on the code requirements for his/her development, of the total cost of the installation; the balance shall be borne by the City. Provided funds are available, the City will pay the difference in the cost between the size required for the developer's land (minimum six inches) and the larger size required. If there is an existing tap-on charge, then the developer shall abide by same.
(2) 
Engineering costs. The developer will be responsible for all engineering costs for design of water main facilities within his/her development.
E. 
Service connection fee schedule. Reference Chapter 63, Fees, of the Code of the City of Lexington.
F. 
Specification and special provisions. All water mains shall use materials and be installed in such manner meeting or exceeding the required standards and specifications contained in the Standard Specifications for Water and Sewer Main Construction in Illinois, the then-current edition as then modified, supplemented and amended by this chapter or the City Engineer. These modifications, amendments and amplifications have been provided in this section.
(1) 
Special provisions modifying Standard Specifications for Water and Sewer Main Construction in Illinois.
Section
Title
Change
Division IV, Water Distribution. Applicable sections of this division also apply to force main construction.
40-2
Pipe Materials
Water mains shall be ductile iron pipe Class 52 or PVC SDR-21 with single-gasket joints.
40-2.04
Ductile Iron Pipe
Add the following: "Cement lining, exterior tar (seal) coating and polyethylene encasement shall be provided for all ductile iron pipe. All pipe shall have push-on-type joints unless otherwise called for."
40-2.06A
Cast Iron or Ductile Iron Pipe Fitting
Add the following:
(1) Cast iron or ductile iron fittings may be used.
(2) Cement lining is required for fittings.
40-2.07C
Stops and Fittings
Corporation and curb stops shall be A.Y. McDonald MAC-PAC compression or approved equal. Curb boxes shall be A.Y. McDonald or equal, four-foot to five-foot (1.2 m to 1.5 m) adjustment with stationary operating rod.
40-2.08
Specialty Valves
Tapping machine sleeves shall be Cascade/CS22, CS12 with Waterous Series 500 valves.
41-2.02A
Depth of Pipe Cover
Minimum depth shall be four feet (1.2 m).
41-2.02B
Pipe Foundations and Unsuitable Trench Conditions
Change first sentence to read: "For pipe beddings, see Sections 20-2.20A(1)b."
41-2.12A
Pipe Conditions
Test pressure shall be not less than 100 psi.
41-2.12C
Leakage Test
Change test pressure requirement to 100 psi.
41-3
Measurement
Cast-iron fittings: If proposal does not contain an item for fittings, the cost of furnishing and installing fittings shall be included in the unit price bid for the various mains.
45-2.02
Hydrant Details
(1) In second paragraph, bury depth shall be five feet (1.5 m).
(2) In fourth paragraph, Hydrants with six-inch (150 mm) connections shall be furnished with a four-inch (100 mm) pumper nozzle only if steamer hydrants are called for on the plans.
(2) 
Recurring special provisions for water main improvements.
(a) 
Coordination of work. The contractor shall coordinate his/her operations with the City Water and Street Department. The chlorination, pressure testing and sampling of the new mains shall be done with City of Lexington Water and Street Department supervision. All costs shall be included in the unit prices bid for the various pipe items.
(b) 
Pipelaying. Ductile iron pipelaying is to be provided in accordance with the latest revisions to AWWA C-600 standards. This takes precedence over any other specifications.
(c) 
Laying operations. Contractor's attention is directed to the fact that he/she must not allow any foreign material to enter the main, such as tools, clothing, dirt, etc., while the main is being constructed. At times when pipelaying is not in progress, the open end of the pipe shall be closed by a watertight plug. All trenches must be pumped dry preceding any pipelaying operations.
(d) 
Water and sewer crossing. In cases where a water main crosses a storm sewer or sanitary sewer and proper separation cannot be provided, the contractor shall construct the sewer as outlined in Division IV, Section 41-2.01C, of the Standard Specifications for Water and Sewer Main Construction in Illinois, current edition. Should the contractor elect to encase the water main in lieu of constructing the sewer of water main quality pipe, the water main may be encased with any approved water main quality pipe. Before starting either of the above operations, the contractor shall notify the City Engineer and have the method approved.
(e) 
Retainer glands. Retainer glands shall be furnished for all valves, except in-line valves, and all bends on the main line greater than 11 1/4 (+ or -). Retainer glands shall be Megalug. Internally restrained joint-type water mains may be used in lieu of retainer glands.
(f) 
Gate valve and box. Gate valves shall be Waterous Series 500. The valve box shall be A.Y. McDonald with stay-put cover or approved equal.
(g) 
Steamer hydrants.
[1] 
The unit price bid for a steamer hydrant shall include all labor, material and equipment required to construct this item in accordance with the hydrant connection type as shown on the Standard Details in the plans, excluding the valve and box. The unit price bid for a six-inch (150 mm) valve and box shall be paid for all valves on hydrant leads in addition to the unit price bid or steamer hydrant connection of type specified.
[2] 
Where steamer hydrants are called for, they shall have a 5 1/4 inch (133 mm) main valve of the compression type that closes with pressure. They shall have an O-ring stuffing box and a six-inch (150 mm) Ringtite or equal joint opening. The hydrant opens by turning counterclockwise. Each hydrant shall have two 2 1/2 inch (63 mm) hose nozzles, and one four-inch (100 mm) pumper nozzle. They shall conform in all respects to the Standard Specifications of the American Waterworks Association for Fire Hydrants. They shall be Waterous Pacer WB-67.
(h) 
Setting hydrants. Each hydrant shall stand plumb and shall rest on a precast solid concrete block base. Under and around the drip of each hydrant shall be placed not less than one-third cubic yard of broken stone not less than one inch (25 mm) in size. All fittings and valves in connection with the fire hydrant shall be the anchored type. No hydrant shall be placed closer than 2 1/2 feet (0.7 m) to back of curb or edge of pavement to the center line of hydrant.
(i) 
Hydrant extension. The unit price bid for this item shall include all labor, material, and equipment to adjust new hydrants in the vertical direction above the standard five-foot (1.5 m) bury hydrant. This pay item will only compensate for those hydrants shown on the plans requiring extensions and those hydrants installed at a lower depth as directed by the Engineer in order to avoid conflicts with existing utilities. All other hydrants requiring extensions after installation not meeting these conditions shall be extended at the contractor's cost. This work will be paid for by unit price bid per vertical foot for hydrant extension. Extensions shall be made in six-inch (150 mm) increments to the height required at each hydrant.
(j) 
Setting tees and bends. All tees and bends shall be restrained to adjacent pipe in accordance with recommendations of DIPI.
(k) 
Restrained joints. All joints as recommended by DIPI shall be restrained. All restrained joints shall be Megalug.
(l) 
Connections to existing mains. If the connection to an existing water main requires a shutdown of the existing main, the contractor shall notify all users of the affected main a minimum of 48 hours ahead of the shutdown. The contractor shall rechlorinate that portion of the existing water main which is shut down before it is put back into service. The contractor shall provide the necessary blocking or restraining of the existing main when he/she makes the new connection.
(m) 
Leakage test.
[1] 
When performing a hydrostatic pressure test, all water used must be potable and contain a chlorine residual of not less than 0.2 parts per million of free chlorine or 0.5 part per million of combined chlorine. The hydrostatic pressure test will be made in accordance with ANSI/AWWA C-600, latest edition. The hydrostatic pressure shall be 100 psi (620 kpa) for at least one-hour duration and not vary more than five psi (35 kpa). Before applying the specified test pressure, the air shall be expelled from the pipe. The allowable leakage shall be determined by the following formula:
L = SDP
133,200
L
=
allowable leakage in gallons per hour
S
=
length of pipe in feet
D
=
nominal diameter of pipe in inches
P
=
average test pressure during test in psis
[2] 
All visible leaks are to be repaired regardless of the amount of leakage. After the hydrostatic test has been successfully completed, the main shall be flushed, attaining the minimum velocity of at least 2 1/2 feet per second (0.75 mps). Flushing must continue until all particulate matter and discoloration have been removed.
(n) 
Flushing of new mains. There will be no charge by the City of Lexington to the contractor for the water used to flush the mains, provided it is not necessary to flush the mains more than one time. If it is necessary to flush the mains more than one time, then the contractor will be charged by the City of Lexington for water used to flush the mains. The contractor shall provide and install any hose necessary to direct the water being flushed away from any area it might damage. The contractor shall take whatever precautions necessary during flushing to prevent ecological damage to any receiving stream, lake or other body of water.
(o) 
Sampling and chlorinating taps. At the extreme ends of the proposed new water main or at locations as directed by the City Engineer, sampling and chlorinating taps shall be installed by the contractor in accordance with the details as shown on the plans. After the chlorinating, sampling and testing are approved by the City of Lexington Water Department, the corporation stop shall be shut off and the piping removed from the corporation stop.
(p) 
Disinfection of mains. Disinfection shall be in accordance with the Standard Specifications for Water and Sewer Main Construction in Illinois.
(q) 
Bacteriological testing.[2]
[1] 
After disinfection, bacteriological testing must be done to insure the public health of the main. All samples must be collected by a designated sample collector of the City of Lexington Water and Street Department and tested at an IEPA-approved laboratory.
[2] 
Water mains that fail the initial bacterial test shall be flushed again before additional sampling is commenced. If the second sample also fails the bacterial test, then disinfection shall be repeated and flushing prior to additional sampling shall be required. If the third sample fails the bacterial test, then the next step shall be determined by the Water and Street Department and/or City Engineer.
[2]
Editor's Note: Amended at time of adoption of Code (see Ch. 1, General Provisions, Art. I).
(r) 
Trench backfill. Approved compacted granular material shall be required in all trenches extending two feet (0.6 m) on either side of all sidewalks, driveways and street pavements.
(s) 
Curb and gutter crossing. The contractor may remove and replace the cub and gutter at the street crossings or he/she may tunnel the curb and gutter at his/her option. All excavated material shall be disposed of off site and the trench backfilled with approved compacted granular material.
(t) 
Pavement removal and replacement. All street pavement removal and replacement shall be done in accordance with § 195-66 of this article.
(u) 
Damage to existing structures. If damage is done to existing or new structures during construction of the proposed improvement, they shall be replaced or repaired in a satisfactory manner by the contractor at his/her own expense.
(v) 
Utilities.
[1] 
The utility companies shall be notified of the impending project and the plans shall indicate the general location of the utility main lines. The contractor shall have the responsibility, before any construction work has begun, of obtaining from all utilities the exact location of any underground facilities in the area of construction, whether indicated on the plans or not. Any facilities disturbed by the contractor shall be restored by him/her at the contractor's own expense. The contractor shall coordinate with the proper utility the relocation of any facility designated on the plans or deemed necessary to be relocated by the Engineer in order to complete construction of the project.
[2] 
Residents shall be notified a minimum of 48 hours in advance of impending service outages, and no residence shall be without service overnight.
G. 
Standard details for the following are included at the end of this chapter:
Standard Drawing No.
Title
A
Hydrant Installation
B
Hydrant Connections
C
Typical Concrete Blocking Detail
D
Typical Water Service
E
Sampling and Chlorination Service Piping Tap
F
Creek Crossing Detail
G
Anchorage of Fittings/Vertical Plane
H
Water and Sewer Separation Requirements/Horizontal
I
Water and Sewer Separation Requirements/Vertical
J
Water and Sewer Separation Requirements/Vertical (continued)
A. 
Design standards. All developments shall be designed so that streetlights are provided in such locations and in such manner as to do and accomplish the following:
(1) 
Provide a streetlight at every cross or tee intersection and at the end of every cul-de-sac or eyebrow.
(2) 
Provide such additional streetlights as may be necessary so that streetlights are not more than 250 feet (75 m) apart.
(3) 
Provide the type of illumination as selected by the City Engineer meeting the following height and lumination standards:
(a) 
Sodium vapor. An 8,700-lumen luminaire mounted at a twenty-five-foot (7.5 m) mounting height shall only be utilized on minor streets and frontage roads; a 23,000-lumen luminaire mounted at a thirty-foot (9.0 m) mounting height shall be utilized on major and collector streets.
(4) 
In areas zoned R-1, streetlights shall be affixed to ornamental concrete or aluminum poles.
(5) 
In areas zoned for business, commercial or manufacturing uses, streetlights shall be affixed to ornamental concrete or aluminum poles.
(6) 
In areas zoned R-1, all wiring shall be underground; in areas zoned for business, commercial or manufacturing uses, underground wiring shall be provided.
(7) 
Private streetlights. All private streetlights in a residential planned unit development shall meet City standards of illuminance.
B. 
Right-of-way and easement dedications. All streetlights shall be installed in public easements or dedicated public rights-of-way. Such easements and rights-of-way shall be of sufficient width and the streetlights and required wiring shall be installed in such locations therein that will not unreasonably interfere with other public utilities. Easements or rights-of-way shall have a minimum width of 10 feet (3.0 m).
C. 
Specifications and special provisions. Design and installation shall meet or exceed all applicable City of Lexington, Illinois Commerce Commission or accepted industry standards, whichever imposes the more demanding requirement for the protection and preservation of the public health, safety and welfare.
D. 
Standard details for the following are included at the end of this chapter:
Standard Drawing No.
Title
A
Typical Luminaire Installation
B
Cable Trenching Detail
A. 
Where streets or roadways in or adjacent to property in a subdivision cross drainageways, streams or creeks, or where bridges or culverts are otherwise proposed within the confines of a subdivision, or on the roadway adjacent thereto, they shall be designed and constructed in accordance with this section.
B. 
Right-of-way dedication. Bridges and culverts shall be located in dedicated public rights-of-way of sufficient width to permit the construction, operation, maintenance and replacement of the improvement within the confines of the dedicated right-of-way without relocation or other unreasonable interference with other public utilities located therein.
C. 
Design standards.
(1) 
Bridges and culverts shall be of width comparable to the abutting street or roadway, including sidewalks and trails.
(2) 
In the case of culverts or bridges over waterways, such crossing shall be of sufficient size to permit the volume of water reasonably expected from a thirty-year-frequency storm event on the area in the natural drainage area flowing into the stream if that area were developed to the types of uses and to the maximum density permitted by the then-existing City zoning ordinance with respect to property within the corporate limits of the City and the land use element of the City's Comprehensive Plan for the areas outside the corporate limits.
(3) 
Bridges and culverts shall meet or exceed all applicable City, Illinois Department of Transportation, Illinois Department of Natural Resources, other local, state or federal regulatory authority and accepted industry standards, whichever impose the most demanding requirements with respect to the preservation and protection of the public health, safety and welfare. Should the City desire to expand or enlarge any of these improvements to meet anticipated growth, then the City shall pay for the increment due to the expansion, provided funds are available.
D. 
City's participation in cost.
(1) 
Bridges and culverts. Where installation of a bridge or culvert of a larger capacity or width than required to serve land owned by the developer is required by the City Council to serve future growth in the vicinity of the development, the developer shall pay for only his/her portion of the total cost of construction, with the balance to be paid by the City, provided funds are available.
(2) 
Engineering costs. The developer will be responsible for all engineering costs for design of bridges and culverts within his/her development.
E. 
Specifications and special provisions. All bridges and culverts shall be constructed in accordance with all applicable sections of the Illinois Department of Transportation Standard Specifications for Road and Bridge Construction, the current edition as then modified, supplemented and amended by this chapter or the City Engineer.
A. 
Where streets or roadways in or adjacent to property in a subdivision cross a railroad line, or where a railroad line is otherwise proposed within the confines of a subdivision, or on the roadway adjacent thereto, they shall be designed and constructed in accordance with this section.
B. 
Right-of-way dedication. Railroad crossings shall be located in dedicated public rights-of-way of sufficient width to permit the construction, operation, maintenance and replacement of the improvement within the confines of the dedicated right-of-way without relocation or other unreasonable interference with other public utilities located therein.
C. 
Design standards.
(1) 
Railroad crossings shall be of width comparable to the abutting street or roadway, including sidewalks and trails.
(2) 
Railroad crossings shall meet or exceed all applicable City, Illinois Department of Transportation, Illinois Commerce Commission, other local, state or federal regulatory authority and accepted industry standards, whichever impose the most demanding requirements with respect to the preservation and protection of the public health, safety and welfare. Should the City desire to expand or enlarge any of these improvements to meet anticipated growth, then the City shall pay for the increment due to the expansion, provided funds are available.
A. 
All public and quasi-public utilities, including without limitation gas lines, electrical lines, telephone lines and cable TV transmission lines, shall be located underground.
B. 
Easement and right-of-way dedication. Except for individual building or property services, utility lines shall be located in public easements or dedicated public rights-of-way. Such easements or rights-of-way shall be of sufficient width and the utilities shall be installed at such locations therein as to permit open cut installation, maintenance and repair within the confines of the easement or right-of-way without relocation or other unreasonable interference with other public or quasi-public utilities located therein, provided that no permanent structures shall be placed over the easements or rights-of-way dedicated to the City. Fences and vegetative material may be placed on easements, but if it becomes necessary to repair or inspect the underlying utility, the fence or vegetative material may be removed, damaged or destroyed at the expense of the property owner. Under no circumstances will the City be responsible for the repair or replacement of anything placed upon an easement. The City staff will make every possible effort to notify property owners that items placed upon an easement need to be relocated or removed, with one notable exception, which is for emergency repairs.
C. 
Design standards.
(1) 
Front yard electrical transformers shall not be located above ground in front yard easements or dedicated rights-of-way.
(2) 
Side yard electrical transformers may be located above ground when the transformer is located behind the building setback line.
(3) 
Easements or rights-of-way shall have a minimum width of 10 feet (three m) plus five feet (1.5 m) for each additional utility to be provided.
D. 
Specifications and special provisions. All utility installation shall conform with the applicable City, Illinois Commerce Commission, regulatory authority or accepted industrial standards, whichever impose the highest and most demanding requirements for the preservation and protection of the public health, safety and welfare. All gas, electric, phone, and cable TV lines shall be located 1.5 meters (five feet) away from water mains and sewers lines and 1.5 meters (five feet) away from water and sewer services.
A. 
The intent of this section is to require erosion control and stormwater practices that will reduce the amount of sediment and other pollutants leaving development sites, both during and after construction, and reduce the impact of development on erosion in receiving streams. It is also the intent of the section to promote design and construction practices that minimize ground disturbances during development; maintain natural drainage; and provide stormwater storage. Erosion, sediment, and stormwater control measures are needed for the following reasons:
(1) 
High rates of soil loss may occur from areas undergoing development for nonagricultural use, including, but not limited to, the construction of dwelling units, commercial buildings, industrial plants, and public works.
(2) 
The washing, blowing and falling of eroded soil across and upon roadways endanger the health and safety of users thereof by decreasing vision and reducing traction of road vehicles.
(3) 
Soil erosion necessitates the costly repair of gullies, washouts, embankments, drainage structures, and stream banks.
(4) 
Sediment from soil erosion can clog or reduce the flow and storage capacity of sewers, ponds, ditches, and streams.
(5) 
Sediment and associated pollutants can pollute the waters of streams, ponds, lakes, and rivers, creating far-reaching biological impacts to aquatic life and species dependent upon aquatic life.
(6) 
Sediment limits the use of water and waterways for beneficial uses, including water supply, navigation, recreation, fishery resources, drainage, and flood control.
(7) 
Development, if not controlled, causes increases in peak stormwater runoff rates which can lead to increased stream bed and stream bank erosion and flooding in receiving streams.
(8) 
Erosion and stream bank instability caused by altered stream flow rates due to development can create unsafe conditions, adverse environmental impacts, and other conditions that require costly repairs or preventative measures to protect private and public structures and facilities.
B. 
Applicability.
(1) 
No land surface shall be disturbed unless an erosion control plan has first been submitted and approved for that activity, except as follows:
(a) 
Land-disturbing activities for which the disturbed area is less than 5,000 square feet; or
(b) 
Current agricultural practices involving land tilling.
(c) 
Construction of one single-family dwelling which is not constructed as part of a residential subdivision shall be subject to the provisions of this section regarding stormwater control measures.
(2) 
The City Engineer reserves the right to require any nonagricultural construction activity, regardless of land disturbance area or type of activity, to comply with this chapter if it is determined to be the cause of, or a contributor to, an existing or potential adverse erosion, sediment, or stormwater impact.
C. 
Design standards.
(1) 
The EPA's NPDES Phase II rules apply, including completing and submitting a notice of intent (NOI), developing and implementing a stormwater pollution prevention plan, completing final stabilization of the construction site, and completing and submitting a notice of termination (NOT).
(2) 
All temporary sediment control measures shall be designed to control sediment from leaving the development site for a five-year-frequency storm event.
(3) 
Design standards for erosion and sediment control measures shall comply with provisions of the Illinois Procedures and Standards for Urban Soil Erosion and Sediment Control, published by the Urban Committee of the Association of Illinois Soil and Water Conservation Districts, latest edition, unless otherwise stated by this section.
D. 
Temporary stormwater control measures.
(1) 
On-site sediment control measures shall be constructed and functional prior to initiating clearing, grading, stripping, excavation or fill activities on the site.
(2) 
Sediment control measures and temporary stormwater control measures are to be maintained so they are operating effectively until permanent ground surface protection and permanent stormwater control measures are established.
(3) 
The City Engineer may require additional control measures as necessary after site inspection if sedimentation controls are not functioning properly.
E. 
Temporary ground surface. All lots not built within 21 days of ground disturbance shall have ground surface seeded within seven days.
F. 
Permanent ground surface. Within seven days after completion of suitable construction and soil conditions, and before final inspection, the site must have permanent ground surface cover planted or installed. Public improvements will not be accepted until all public rights-of-way and easements have permanent ground surface cover.
A. 
The purpose of this section is to establish criteria and guidelines for the development of neighborhood parks within future developments. This section is designed to assist developers, planners, and engineers in the location, shape, access, linkage, grading and seeding of park lands to be dedicated for park purposes.
B. 
Neighborhood park standards.
(1) 
Size. The size of a neighborhood park site shall be appropriate to the leisure and recreational needs of the service population and shall be consistent with required donations. The following illustrates the amount of land area generally required for a neighborhood park:
(a) 
Neighborhood park: minimum of seven acres.
(2) 
Shape. Generally, park sites should be rectangular or nearly rectangular in shape.
(3) 
Location. Whenever possible, park sites should be located near the geographic center of the service areas. In areas where park sites and/or school sites already exist or have been previously planned, the proposed park donation shall be located adjacent to or provide appropriate linkage with the existing sites. The following plan shall be adhered to in determining the locations of park sites: the City of Lexington Comprehensive Plan.
(4) 
Access. Access to park sites shall be provided for convenient pedestrian and vehicular ingress and egress as well as for visual identity. A minimum of 300 feet of street frontage will be required, measured along the curb. Any accessway shall be improved with a hard-surfaced walkway 1.2 meters (four feet) in width, constructed in accordance with this chapter. The number of accesses will vary with the location and type of park site and its relationship to surrounding land uses. Frontage along a major road may be counted as an access point when sidewalks along that major road are present. All access to park sites shall meet current American with Disabilities Act (ADA) requirements.
(5) 
Linkage. The linkage of proposed parks with existing parks or with other desirable land uses (i.e., schools, convenience commercial areas, cultural or institutional centers) shall be encouraged.
(6) 
Grading. The proposed grading of a park site shall be suitable for park purposes and shall not differ greatly from that of surrounding land uses. Grades less than 2% or more than 10% will not be acceptable. Exceptions to this may be granted if the developer can show an acceptable secondary use for the grading. Examples are earth berming for visual buffer or aesthetic interest, a sled hill or toboggan run, backstop for special activities, amphitheater, etc.
(7) 
Vegetation. Land donated for park purposes shall be planned and designed to minimize impact to vegetation of ecological or aesthetic value. Existing vegetation of value shall be adequately identified and protected from damage during the construction process. The City shall be given the right to remove/salvage from an area proposed for clearing any desirable plant materials for which the developer has no intended use.
(8) 
Erosion control. The developer will be responsible for controlling erosion in accordance with this chapter on the park sites until final acceptance of improvements by the City.
(9) 
Retention/Detention (if part of a recreational facility).
(a) 
Retention.
[1] 
Water quality criteria. Water quality criteria adopted by the Illinois Pollution Control Board will be used as the basis for evaluating the quality of ponded water.
[2] 
Water quality maintenance. The developer shall provide plans for aeration, chemical treatment, or other means to ensure water quality standards are maintained.
[3] 
Pond design.
[a] 
Slopes from bank: top one meter (three feet) of normal pool and the total depth of the required detention volume shall have a 6:1 slope; then 3:1 to bottom.
[b] 
In areas selected for the planting of aquatic and emerging aquatic vegetation, slope requirements will change with cultural requirements of vegetation type.
[c] 
Depth: minimum of 25% of normal water level area is to be three meters to five meters (10 feet to 15 feet) in depth.
[d] 
Shape. Pond configuration shall be natural in appearance featuring varying slopes running down to the shoreline. The shoreline shall undulate at varying degrees around the pond perimeter. Provisions in configuration of pond shall allow for ease in dredging and other maintenance considerations.
[e] 
Size. No ponds shall be smaller than one acre.
[f] 
Bank stabilization. Protection against erosion and water level fluctuations is required. Stabilization may be provided through the following means:
[i] 
Complete establishment of perennial ground cover with water-tolerant grasses.
[ii] 
Construction of retaining walls.
[iii] 
Use of rip-rap underlain by gravel placed in the zone to be exposed during seasonal water fluctuations. Minimum zone to be covered is one meter (three feet) above normal water level and two meters (six feet) below the normal water level.
[g] 
Management.
[i] 
Draw-down facilities shall be provided to allow for the complete drainage of the lake. Draw-down capability is necessary to facilitate fish management and lake cleaning.
[ii] 
Sedimentation.
[A] 
The developer will provide engineering plans estimating probable quantities of sediment coming off the watershed at five-year intervals. The developer will then install sediment traps to handle the aforementioned sediment. A cleaning/dredging plan shall be included. All engineering and installation is to be approved by the City of Lexington.
[B] 
Retention basin designs shall comply with the stormwater standards of this chapter.
(b) 
Detention. Detention basin design shall comply with the stormwater section of this chapter. The major consideration in the design of a detention basin being proposed for recreational use is its suitability for dual use of land: detention and recreation. In order to facilitate review of park areas, the proposed outline of the detention at the approximate high water line shall be illustrated on the preliminary plan. City-maintained detention basins shall have pipe underdrains in accordance with the stormwater section of this chapter.
(c) 
Park site credit. For retention and detention basins, the extent to which the design standards are adhered to will be the basis by which the amount of parkland credit will be determined. A reduced amount of parkland credit may be granted should a proposed park site be deficient in one or more of the above-cited park design standards.
C. 
Improvement standards and specifications. The park site shall be improved according to the following standards and specifications (park sites shall be final platted park sites):
(1) 
Utilities. The park site shall be fully improved with water, wastewater disposal, storm sewer, and electric service. At the time of installation of public improvements in the subdivision or planned unit development, the developer shall install the above-mentioned utilities for the park site in accordance with the City-approved engineering plans. This work shall be completed prior to the issuance of the first occupancy permit in the subdivision or planned unit development which includes said park site. If the park site has an auxiliary function as a stormwater control facility, then the drainage structures shall be installed during rough grading at the beginning of construction activities.
(2) 
Grading. The park site should be rough graded in a similar manner as adjacent lots. Rough grading should take place at the time of rough grading of adjacent lots for the purpose of building construction, and be completed before occupancy permits are issued within the subdivision or planned unit development. Grading shall be done in accordance with the grading plans prepared in compliance with this section, and approved by the City. Grading shall include the preparation of the subsoil so that it is graded and uniformly compacted so it will be parallel to the proposed finished grade. The subgrade material shall be loosened and fine graded to a depth of two inches to four inches, and all stones over four inches in size, sticks, rubbish and other foreign substances shall be removed. All depressions which may cause future drainage problems shall be filled with acceptable subgrade material. Positive drainage must be ensured in the direction of swales, or as indicated on a master drainage plan. Finished grades should be uniform of slope between points for which elevations are given, or from such points to existing slopes. Note: The long-term storage of overburden on a park site is prohibited, though temporary storage may be granted in some cases. Terms of such temporary storage shall be determined by the City.
(3) 
Topsoil. At the time topsoil is first placed in the subdivision or planned unit development, it shall also be spread on the park site. Topsoil shall be fertile, friable, natural topsoil typical of topsoil free of flooding. It shall be without a mixture of subsoil or slag and shall be free of stones, sticks, rubbish, and other extraneous matter, and shall not be delivered or used while in a frozen or muddy condition. Topsoil shall not contain toxic substances which may be harmful to humans or to plant growth. Topsoil shall be spread evenly and lightly compacted to a minimum depth of six inches. Humps or depressions shall be graded and rolled until satisfactory grade is obtained. Completion of fine grading shall be within six months of the completion of rough grading.
(4) 
Seeding.
(a) 
Seeding operations should occur during the spring (between March 1 and May 15) or, preferably, late summer (August 20 to September 30). The seed mixture shall be a mixture of 70% Kentucky Bluegrass, 20% Perennial Rye Grass (Citation, Manhattan or Penfine) and 10% Chewing Fescue. All seeds shall be certified 98% purity/80% germination. The seed bed shall be fresh, VW new crop seed. The method of seeding may be varied at the discretion of the developer as long as a smooth, uniform and stabilized turf is established; the developer shall be required to maintain turf to full establishment.
(b) 
This work shall occur immediately after the placement of topsoil, fine grading and installation of sidewalks.
D. 
Maintenance standards.
(1) 
The park site shall be maintained by the developer until the improvements as specified in this chapter have been formally accepted by the City. Maintenance of the park site shall include:
(a) 
The mowing of the site at least once a month during the spring, summer and fall.
(b) 
The removal of all rubbish and debris.
(2) 
Until such time as a park site has been accepted by the City, the developer may be held liable for any damages that may occur on such a park site. Upon formal acceptance of the park site improvements by the City, the City will assume maintenance of the park site.