[Adopted 10-25-1989 by L.L. No. 4-1989 (Ch. 34 of the 1977 Code)]
[1]
Editor's Note: The Village's street specifications and related drawings are on file in the Village offices.
A. 
It is the purpose of these specifications to establish minimum acceptable methods of street construction, including widths and development of rights-of-way, paved roadway, storm drainage and other utilities in the Village of Hillburn. Dedication of the right-of-way will not be accepted until the Village Engineer shall have certified to the Village Board that the development of the street has been completed in accordance with the approved plans and the specifications which follow.
B. 
The term "Village Engineer," when used in these specifications, shall be deemed to include the Village Engineer and his designees.
A. 
Plans of the proposed street shall be prepared by a qualified engineer properly licensed by the State of New York or land surveyor possessing a proper exemption certificate issued by the State of New York Education Department. The plan shall clearly define the limits of the proposed right-of-way and shall include the location, width, profile and grades of proposed roadways, storm drainage, including culverts and other drainage structures, and the location of easements and utilities. Plans shall be submitted to the New York State Department of Transportation when any street drains toward or connects to a state highway and to the Village Planning Board for review and approval under the applicable subdivision and site plan regulations of the Village. Plans so submitted shall not be altered or amended after having been approved by the Planning Board, except after amended plans have been resubmitted and approved as above. However, the developer shall, at his own expense, provide additional storm drainage facilities as may be ordered by the Village Engineer or New York State Department of Transportation Resident Engineer, where such additional structures or facilities are necessary to assure the durability of pavement and future maintenance of right-of-way.
B. 
All street plans shall be developed in concert with a tree plan of the site, and the final location of the streets shall be established such that the loss of the major trees and unusual tree specimens is minimized.
A. 
The developer's engineer/surveyor shall establish and clearly mark on the site the limits of the right-of-way, the center line and grades of the roadway and the location and elevation of drainage structures. Such markers shall be maintained at the developer's expense until construction of the roadway, drainage, curbs and shoulders has been completed and accepted by the Village Engineer.
B. 
The entire width of the right-of-way shall be cleared and shaped to the grades and elevations established by the approved plan and as approved by the Village Engineer, except that trees of aesthetic value located at least five feet from the paved roadway may, with the approval of the Village Engineer, be required to remain. All rocks and boulders larger than six inches in diameter shall be excavated and removed to at least six inches below the finished subgrade of the roadway. All topsoil or otherwise soft or unstable materials shall be excavated from within the road area and shall be replaced with suitable granular soil. Fill required to complete the approved grades shall be acceptable to the Village Engineer, and unsatisfactory materials shall be removed from the site by the developer.
C. 
Where fills are necessary to complete the required line and grade or to backfill trenches or other excavation, the materials incorporated in the work shall be acceptable to the Village Engineer and shall be placed in layers not exceeding eight inches in depth, each layer to be thoroughly compacted by rolling with a three-wheel, sheep's-foot, pneumatic-tired or padded wheel roller or by impact rammer or vibratory equipment in areas inaccessible to power rollers. All compaction shall continue until the fills are firm and unyielding. Adequate compaction shall be at least 95% of Standard AASHTO Optimum Density.
D. 
The rough grade of the road pavement, curb and sidewalk areas shall be completed to within one inch below, but not above, the finished subgrade, as shown on the approved cross section of the right-of-way improvement.
E. 
Earth shoulders and the flow line of ditches and gutters shall be maintained in satisfactory condition at the developer's expense at all times during the course of construction of the subdivision and until such time as the Village Board has accepted dedication of the right-of-way.
Every new street shall be constructed as a standard street unless otherwise designated as a rural road by the Village Planning Board, all as shown and described hereinbelow. The designation of "commercial and industrial access" streets will also be made by the Village Planning Board and will be classified as such in accordance with the expected nature and level of traffic on the roadway.
A. 
Soil erosion and sediment control measures shall be constructed and maintained by the developer during the entire course of development of the streets and public easements in accordance with the guidelines for erosion and sediment control in urban areas of New York State developed by the United States Department of Agriculture, Natural Resources Conservation Service.
B. 
An erosion and sediment control plan shall be prepared as part of the construction plans for the streets and easements, showing locations of proposed diversion berms, sediment basins, silt fences and hay bale filter traps. All such berms and basins shall be in place prior to the grading operation and installation of utilities and shall be maintained until construction is completed and/or the area is stabilized. Sediment basins shall be cleaned when the trap is 50% full of sediment. Silt fences shall be erected along the entire length of the working area, downslope of disturbed areas. Hay bale filters shall be installed along the downstream perimeter of all earth stockpiles.
C. 
Soils to be stockpiled are to be located so as not to obstruct natural drainage or cause off-site sediment problems. Stockpiled soil will require a temporary vegetative cover when exposed for a period of more than one month.
D. 
All disturbed areas shall be limed and fertilized to soil test recommendations such as those offered by the Cornell University Extension Service prior to both temporary and permanent seeding. Disturbed areas, including road embankments, shall be maintained in a rough graded condition and temporarily seeded and/or mulched until proper weather conditions exist for the establishment of permanent vegetative cover.
E. 
All storm drainage inlets are to be temporarily capped and protected by a filter trap to prevent entry of sediment carried by runoff water until vegetation and/or paving is established as planned.
F. 
Prior to the construction of curbs, diversion berms shall be established by grading, at one-hundred- to three-hundred-foot intervals, depending on slope, directing the runoff across the roadways to undisturbed areas or sediment traps. Diversion berms shall be maintained on a daily basis after the construction of curbs, and prior to paving; berms shall be graded and maintained on a daily basis at each catch basin, directing runoff into the catch basin through a sediment filter. Easement areas for utility pipes shall have similar berms, which should remain permanently, if appropriate. Easement areas shall be graded and stabilized immediately after the installation of pipes and structures.
A. 
Storm drains draining areas up to 50 acres shall be designed on the basis of a twenty-five-year average return frequency of rainfall. For areas of 51 to 200 acres, a fifty-year storm shall be used, and for areas greater than 200 acres, a one-hundred-year storm shall be used. All drainage channels, roadway culverts, piped watercourses and detention basins shall be designed for the one-hundred-year return frequency storm flow. The stormwater runoff drain facilities shall be of the type and size designed and shown on the approved drainage plan and shall be constructed to the prescribed lines and grades at the approved locations. The minimum grade of any drainage pipe shall not be less than 1% unless it can be adequately demonstrated that a lesser grade is absolutely necessary. In general, pipe slopes shall be provided to ensure a minimum velocity of 2 1/2 feet per second when the pipe is flowing 1/2 full. Minimum pipe size shall be 15 inches in diameter.
B. 
The storm drainpipe shall be corrugated metal pipe or reinforced concrete pipe meeting New York State Department of Transportation specifications. Concrete pipe shall conform to ASTM A76, Class III, and shall be furnished with tongue and groove or O-ring joints. Corrugated metal pipe shall conform to the New York State Department of Transportation Standard Specifications, Sections 707-02 and 707-13. All piping shall be installed in accordance with New York State Department of Transportation Standard Specifications, Section 603, Corrugated metal pipe shall be galvanized, coated and lined with a bituminous invert.
C. 
Catch basins; drain inlets.
(1) 
Catch basins. Catch basins or manholes shall be provided at all points of change of slope or alignment and at all junction points. Catch basins shall be spaced apart no further than 300 feet. Additional basins shall be indicated in the design because of the presence of large volumes of local runoff or for unusual topography.
(2) 
Drain inlets.
(a) 
On steeper sloping roadways, drain inlets shall be provided in accordance with the following schedule:
Road Slope
(percent)
Inlet Spacing (maximum)
(feet)
3 to 6
250
Above 6
200
(b) 
Special inlet settings, such as along curb insets, may be used as approved by the Planning Board.
D. 
Concrete headwalls shall be provided at the inlet or outlet of any storm drain at a drainage channel. The headwall may be straight, L-shaped or U-shaped, as is most appropriate for the given situation. The shape of the headwall shall be shown on construction plans, and its details shall be in accordance with the standard details shown in these specifications unless conditions warrant a special design, which shall be shown as part of the construction plans in detail.
E. 
Precast concrete or prefabricated metal end sections may be used where appropriate conditions exist. Depending on flow conditions, a cutoff wall 2 1/2 feet in depth, anchored to the end section, may be required.
F. 
Riprap or stone fill shall be placed at all headwalls for a sufficient length and height to adequately provide for transition of ground slopes and water velocities to prevent erosion. A riprap analysis shall be provided unless otherwise waived by the Village Engineer.
A. 
With the approval of the Village Engineer, open ditches may be used in lieu of storm drainpipes when the grade of the land traversed is flat or when it is desirable to drain and dry up the surrounding area. Such channels shall be designed to adequately transport the one-hundred-year storm flows while maintaining one foot of freeboard to the top of bank. All open ditches shall be stabilized with riprap unless a vegetative stabilization is approved by the Village Engineer.
B. 
Open ditches shall be constructed in accordance with the illustration in these specifications, but in no case shall the grade of an open ditch exceed 3%. Riprap, when called for, shall consist of fieldstone or rough, unhewn quarry stones as nearly cubicle in form as possible, placed upon a slope not steeper than one vertical to two horizontal and so laid that the weight of the large stones is carried by the soil and not by the stone adjacent. Except where heavier stone is indicated by analysis, all stones shall weigh between 50 pounds and 150 pounds each, and at least 60% of them shall weigh more than 100 pounds each. Riprap stones shall be placed over a six-inch bedding of crushed stone or gravel. The crushed stone or gravel shall be installed on an approved geotextile filter fabric, which is to be laid on the faces of the shaped excavation forming the channel bed and side slopes of the open ditch. The larger stones shall be placed first, roughly arranged and in close contact. The spaces between the larger stones shall be filled with spalls of suitable size.
A. 
The width of the trench in which the pipe is placed shall be sufficient to permit thorough tamping of the backfill under the haunches and around the pipe. Where rock, in either boulder or ledge formation, is encountered, it shall be removed below grade and replaced with suitable materials in such a manner as to provide a sand or crushed stone subgrade cushion having a thickness under the pipe of not less than eight inches; and where there are excessively heavy fills over the top of the pipe, the Village Engineer may specify that an earth cushion up to 1/2 inch in thickness per foot of fill be placed over the top of the pipe. In no case shall the top of any drainage pipe be less than 18 inches below the finished grade of the pavement. Where soft, spongy or other unstable soil is encountered at the grade established, all such unstable soil under the pipe and for a width of one diameter on each side of the pipe shall be removed and replaced with run-of-bank gravel or other acceptable material. In all cases, the bed shall be thoroughly compacted and shall provide a firm foundation for the pipe.
B. 
Pipe shall be laid to true line and grade on the prepared bed of the trench. All connections for making field joints in corrugated metal pipe shall consist of corrugated, galvanized metal bands so constructed as to lay on equal portions of each of the culvert sections to be connected. All reinforced concrete pipe, bell and spigot joints shall be filled with portland cement mortar. Mortar fill shall be applied to the exterior joint only in pipe sections smaller than 48 inches in diameter.
C. 
Backfilling of trenches shall be performed in accordance with the paragraph on fills under the heading of "Development of right-of-way." (See § 205-13.)
D. 
Any additional drainage facilities not shown on the approved plan and which may be ordered by the Village Engineer shall be constructed by the developer at the developer's expense and in accordance with these specifications.
E. 
Drain inlets and manholes shall be constructed in accordance with the standard drawings in these specifications, utilizing materials and methods in conformance with current New York State Department of Transportation Standard Specifications. Particular care shall be exercised in backfilling around completed structures to obtain maximum compaction, utilizing mechanical tamping equipment in order to avoid pavement settlement. Pipes shall be trimmed flush with inside walls of structures, leaving no rough edges which would endanger maintenance personnel. Both the interior and exterior of drain inlets constructed of block shall be parged with a portland cement mortar.
Where required, excavation and backfilling for underground utility pipes and cables shall be done in strict conformance with the requirements outlined above for storm drain construction and as required by the respective utility companies.
Where there are no sidewalks, shoulders and slopes to complete, the balance of the right-of-way shall be at least 10 feet wide and shall be graded to meet the finished elevation of curbs or gutters on a slope of 1/2 inch per foot for a distance of five feet from the edge of the curb or gutter and thence on a slope or not more than one vertical to two horizontal to the limits of the right-of-way, both in cut and fill. Exceptions to these requirements where rock or other conditions exist may be approved by the Village Engineer. On any fill section where the elevation of the shoulder is five feet or more above that of the toe of slope, the developer shall provide guide railings on the shoulder as approved by the Village Engineer. Shoulders and slopes shall be dressed, topsoiled and seeded by the developer. Seed mixtures shall be as approved by the Village Engineer and shall be appropriate for the subsurface soil condition, the condition of available sunlight and provisions for future maintenance of the vegetation.
All retaining walls with a total vertical retained height projection exceeding four feet shall be designed as structural members, keyed into a stable foundation and shall be capable of sustaining the imposed design loads. Any such retaining wall proposed for construction within four feet of the property line or within a distance from the property equal to or less than the retained height of the wall shall be constructed of a durable material such as concrete or stone.
A. 
Before fine grading or construction of curbs and sidewalks is started, all trenches for the storm sewers and underground utilities, where required or approved, including those required for the house connections and hydrants, shall have been thoroughly compacted to the satisfaction of the Village Engineer.
B. 
After completion of the rough grade and prior to the laying of the foundation course, the subgrade shall be shaped to line and grade and thoroughly compacted with an approved self-propelled roller weighing not less than 10 tons. All hollows and depressions which develop under rolling shall be filled with acceptable granular material and again rolled, this process to be continued until no depressions develop. The subgrade shall not be muddy or otherwise unsatisfactory when the foundation course is laid upon it.
C. 
Any soft or unstable portions of the subgrade which develop under the roller shall be completely excavated and removed from the right-of-way and shall be replaced with acceptable granular material and the area regraded and compacted as above.
D. 
Fine grade shall conform to the prescribed width of the pavement and shall extend equidistant from the center line of the road right-of-way and shall conform to the typical cross section of the road pavement and to the approved lines and grade.
A. 
The completed street pavement shall consist of the following:
(1) 
Base course. Asphalt concrete Type 2 (four-inch compacted thickness).
(2) 
Binder course. Asphalt concrete Type 4 (one-and-one-half-inch compacted thickness).
(3) 
Top course. Asphalt concrete Type 6 (one-and-one-half-inch compacted thickness).
B. 
The materials and methods of mixing and placing bituminous pavements shall conform with New York State Department of Transportation Standard Specifications, as hereinafter referenced.
C. 
Pavement shall only be placed on an approved dry subgrade. Before the paving operations start, the surface temperature must be:
(1) 
Forty degrees Fahrenheit if the nominal compacted lift thickness is three inches or greater.
(2) 
Forty-five degrees Fahrenheit if the nominal compacted lift thickness is greater than one inch but less than three inches.
(3) 
Fifty degrees Fahrenheit if the nominal compacted lift thickness is one inch or less.
D. 
The surface of any existing pavement shall be cleaned, joints and cracks filled and the surface leveled to a uniform grade and cross slope or crown in areas designated by the Village Engineer prior to the application of a new bituminous concrete course.
E. 
New bituminous overlays shall be of asphalt concrete Type 6, and shall be of a compacted thickness of not less than 1 1/2 inches.
F. 
If, in the Village Engineer's determination, a tack coat of bituminous material is required over old bituminous pavement prior to placement of new bituminous mixture, the contractor shall furnish and place such material. The tack coat shall meet the New York State Specifications, Section 407, and shall be applied at a minimum rate of 0.1 gallon per square yard.
G. 
Unless otherwise directed by the Village Engineer, paving operations shall be halted if adverse weather conditions occur.
H. 
The mixture shall be transported from the mixing plants to the work site in tight vehicles having clean smooth metal beds. Each load shall be covered with canvas or other suitable materials of such size as to protect the mixture from the weather. The inside surface of the vehicles used for the transportation of plant mixes shall be lightly coated, just before the vehicles are loaded, with either a whitewash of lime and water, soap solution or detergents or fuel oil applied by a high-pressure fog system, as approved by the Village Engineer. After application, the truck bodies shall be raised for a sufficient period to allow the excess fluid to drain.
I. 
The asphalt shall be placed at the temperatures shown on the Composition of Bituminous Plant Mixtures Table of the New York State Department of Transportation Standard Specifications.
J. 
Bituminous pavers.
(1) 
Bituminous pavers shall be self-powered units, provided with an activated screed or strike-off assembly. The machine shall be capable of spreading and finishing courses of bituminous plant mix material in lane widths applicable to the specified typical section and thicknesses shown on the plans. The paver shall have a receiving hopper with sufficient capacity for a uniform spreading operation and with automatic flow controls to place the mixture uniformly in front of the screed. The screed or strike-off assembly shall be heated as necessary to produce a finished surface of the required evenness and texture without tearing, shoving or gouging the mixture. When laying mixtures, the paver shall be capable of operating at forward speeds consistent with satisfactory placement of the mixtures.
(2) 
The bituminous paver shall be at the job site sufficiently ahead of the start of paving operations to be examined and approved of by the Village Engineer. Any paver found worn or defective either before or during its use shall be immediately repaired to the satisfaction of the Village Engineer, or replaced.
(3) 
Approved bituminous pavers shall be used to distribute the mixture either over the entire width or over such partial width as may be practicable. Placing of the mixture shall be continuous at a desired rate of not less than 50 tons per hour. The Village Engineer may permit a lesser rate if satisfactory results are achieved. Upon arrival at the site, the mixture shall be dumped into the paver and immediately spread and struck off to the width required and to such appropriate loose depth that, when the work is completed, the required compacted thickness will be obtained.
K. 
In areas too small or inaccessible to a paver, the course may be spread by hand methods, as directed by the Village Engineer.
L. 
Binder and top courses shall be placed in such a manner as to overlap the joints formed by two paving passes being made side by side in the preceding course.
M. 
Immediately after the bituminous mixture has been spread, struck off and surface irregularities adjusted, it shall be thoroughly and uniformly compacted by rolling. All courses shall be initially rolled with the roller traveling parallel to the center line of the pavement, beginning from the outside edge towards the roadway's center line.
N. 
Rollers shall move at a slow and uniform speed. Any displacement occurring as a result of the reversing of the direction of a roller or from other causes shall be corrected at once by the use of rakes and addition of fresh mixture as required. To prevent adhesion of the mixture to the rollers, the wheels shall be kept properly moistened with water or water mixed with small quantities of detergent or other approved materials, but in no case shall a solvent be used which will have an effect upon the bituminous pavement. Suitable means shall be provided to keep pavers and other equipment and tools free from bituminous accumulations. The surface of the pavement shall be protected from drippings of oil, kerosene or other materials used in paving and cleaning operations.
O. 
Compacting methods.
(1) 
The contractor may use either of the following methods, at his election, for compacting bituminous mixtures:
(a) 
The contractor may use a vibratory roller for compaction. This roller must make a minimum of two vibrating passes and two static passes and operate at a uniform speed that does not exceed 2 1/2 miles per hour (200 feet per minute).
(b) 
The contractor may use a ten-ton tandem roller for compaction. The number of passes will be as directed by the Village Engineer.
(2) 
An alternative method may be proposed by the contractor but may be used only if approved by the Village Engineer.
P. 
Any mixture that becomes loose and broken, mixed with dirt, too hot or cold, or is in any way defective shall be removed and replaced with fresh hot mixture. This replacement material shall be compacted to conform with the surrounding areas. Any area showing an excess or deficiency of bituminous materials shall be corrected to the satisfaction of the Village Engineer.
Q. 
The thickness of pavement may not vary more than 1/4 inch for any type of mixture less than four inches thick. Any type of mixture four inches or more in thickness shall not exceed a tolerance of 1/2 inch. The surface of any mixture shall not vary more than 1/4 inch from the proposed pavement height, and no depressions or "birdbaths" will be permitted in the final wear course.
R. 
Any joint in a pavement layer shall be formed in such a manner as to expose the full depth of the course for the next run. Whenever existing pavement edges have become ragged, they shall be scored and cleared so that there is a neat straight vertical edge.
S. 
Along forms, curbs, headers, walls and other areas not accessible to the rollers, a hand tamper or any other device approved by the Village Engineer may be used to compact the pavement material.
T. 
On depressed areas (trenches, etc.), a trench roller or small vibratory roller or any other method approved by the Village Engineer may be used to compact new pavement.
U. 
Delivery tickets showing the date, name of producer, name of project, type of mix and weight of delivered material are to be supplied to the Village Engineer for all asphalt concrete installed on a particular project.
V. 
All manholes, valve covers, etc., are to be carefully adjusted to final grade and adequately covered prior to final paving to prevent clogging or burial by the final course.
A. 
Portland cement concrete curbs shall be constructed on both sides of the street to the dimensions and specifications shown on the standard detail. Minimum compressive strength of the concrete shall be 4,000 pounds per square inch in 28 days. Concrete shall be finished and cured to the satisfaction of the Village Engineer in accordance with the general specifications for concrete found elsewhere in these specifications. The use of stone curbing will be subject to the approval of the Village Planning Board. Stone curbing must be bedded in a concrete base, all as shown on the following details.
B. 
The developer shall, at his own expense, replace any curbing which proves defective or which is damaged by his operations before the road is dedicated to the Village.
A. 
Sidewalks shall be four-inch-thick reinforced portland cement concrete sidewalks at a minimum width of four feet. Sidewalks shall be placed on a four-inch (compacted thickness) base of three-eighths-inch to three-fourths-inch size crushed stone, washed gravel, washed coarse sand or select granular fill. Prior to placement of the base stone, the subgrade shall be thoroughly compacted with a roller or vibratory compactor of the largest size practicable, to the satisfaction of the Village Engineer. Particular attention shall be paid to compaction over utility trenches. Roots, stumps, stones over six inches in diameter and soft or wet earth are not permitted in the subgrade within two feet of the concrete flatwork.
B. 
One-inch-deep construction joints having one-fourth-inch radius edges shall be placed at four-foot intervals in the sidewalk. Expansion joints of one-fourth-inch cellulose or similar material shall be placed at twenty-foot intervals. Edges shall have a one-fourth-inch radius.
C. 
Concrete slabs in driveway ramps and aprons and in sidewalks under driveways shall be six inches thick. Driveway ramps shall have a steel reinforcing consisting of six-by-six to 6/6 welded wire mesh placed at the mid-depth of the slab.
D. 
Concrete in sidewalks shall have a minimum compressive strength after 28 days of 4,000 pounds per square inch and shall be placed in accordance with the general specifications for concrete found elsewhere in these specifications.
A. 
Materials.
(1) 
Portland cement: conforming to ASTM C-150 Type II.
(2) 
Fine aggregate: conforming to ASTM C-33.
(3) 
Course aggregate: conforming to ASTM C-67 (crushed stone).
(4) 
Water: clean, fresh, free from oil, acid and injurious amounts of organic solids.
B. 
Concrete properties.
(1) 
All concrete shall have a minimum cement factor of 705 pounds (7.5 sacks) per cubic yard and shall attain a minimum compressive strength of 4,500 pounds per square inch at 28 days. All concrete shall be air-entrained and the air content shall be 5.5%, plus or minus 1%.
(2) 
The concrete shall be placed at a maximum slump of four inches.
(3) 
Discharge of the concrete shall be completed within 1 1/2 hours after the introduction of the mixing water to the cement and aggregate or the introduction of the cement to the aggregates.
C. 
Placing and curing concrete.
(1) 
Water is to be removed from excavations.
(2) 
Forms shall be coated with an approved form oil.
(3) 
Thoroughly pre-dampen all subsoil before placing concrete.
(4) 
Deposit concrete as close as possible to its final position, to avoid segregation.
(5) 
All concrete shall be consolidated by internal vibration or spading and rodding.
(6) 
Upon removal of forms and/or final finishing, all concrete curbing, gutters and sidewalks shall be sprayed with one coat of curing compound and covered with damp burlap for a minimum of 72 hours. The contractor shall submit samples and manufacturer's specifications for approval of compound. Compound shall be delivered in containers with seals unbroken and stored in a dry place. Curing compound shall conform to Type 1-D liquid compound with a fugitive dye conforming to ASTM C-309 and shall be applied at manufacturer's recommended rates. Where approved by the Village Engineer, curing may be obtained with a plastic sheet membrane, suitably protected from dislodgement.
(7) 
The placement of concrete for curbs and sidewalks shall be prohibited between October 1 and April 1 each year unless specifically permitted by the Village Engineer. When permitted, concrete for curbs and sidewalks placed between October 1 and April 1 should not be subjected to deicing salts for a period of at least six months. When, in the opinion of the Village Engineer, the use of deicing salts cannot be avoided within the next three months, the concrete should be protected by an additional application of curing compound or other sealer to seal the surface as thoroughly as possible against the penetration of salt brine during the period of recurrent freeze-thaw cycles.
(8) 
Concrete placed during cold weather must be heated to minimum of 60° F., when air temperature is 40° F. and falling, and protected for 72 hours at 50° F. to prevent freezing. No concrete shall be placed on a frozen base, and the provisions of the American Concrete Institute Standard ACI 318 shall be strictly followed for cold-weather placement of concrete and the American Concrete Institute ACI Standard 306.
(9) 
Final finishing must be delayed until water sheen has disappeared from the surface. Do not work bleed water into the surface; do not dust with cement to absorb the excess surface water; do not add water to the surface or overwork the surface. Brooming should be delayed until the concrete surface has stiffened sufficiently to permit the desired texturing.
(10) 
Finished concrete shall be sealed after curing by applying two coats of boiled linseed oil, thinned with mineral spirits. The concrete surface must be completely dry before application. It is recommended that the first coat be applied 90 days after the pour and the second coat one year after the pour.
A. 
After the wearing course of the roadway pavement has been placed, monuments shall be installed along the road right-of-way line at every point of curvature and point of tangency on both sides of the roadway. The monumentation of the right-of-way shall be in addition to the monuments required to be installed at all property corners within a subdivision. At least one monument shall also be provided for every parcel along the street right-of-way, as further described in the Village Subdivision Ordinance.[1]
[1]
Editor's Note: The Village's Subdivision and Site Plan Regulations are on file in the Village Clerk's office.
B. 
Property corners shall be staked with an iron pipe or steel pin at least 18 inches in length. Monuments for the right-of-way shall be either a twenty-four-inch-long precast concrete post with embedded iron pin or a twenty-four-inch-long, three-fourths-inch-diameter steel pin with a two-inch-diameter brass or aluminum cap securely anchored to the top of the pin.
C. 
Reference ties from at least three permanent locations (house corners, preferably) shall be recorded for all right-of-way monuments. The surveyor shall prepare a certified map showing the locations of the monuments and reference ties and shall file two copies with the Village Engineer.
Upon completion of the public improvements, the surveyor shall prepare a survey map of the street(s), showing as-built elevations of the street center line; top-of-grate casting and invert elevations of all storm drains; sizes, locations and types of pipes; locations and sizes of any underdrains and locations and grades of open channels. The surveyor shall obtain record information on all underground utilities, including electricity, telephone, gas, water and sewer connections, and show the locations of these utilities, with due notice concerning those which are not the result of the surveyor's own field locations. Two sets of these drawings shall be filed with the Village Engineer.
Forty-eight hours' (minimum) notice shall be given to the Village Engineer before any work covered under these specifications commences. Where grade sheets are required, one copy shall be delivered to the Engineer at least 48 hours before work commences.
A. 
Piping. Water mains shall be ductile iron pipes, Thickness Class 51, except that pipe with flanged ends or grooved for mechanical couplings shall be Thickness Class 53. All pipe shall be cement-lined and bituminous-coated in accordance with ANSI A21.4 and shall be protected in conformance with ANSI A21.51. The piping lengths shall be furnished with push-on compressible ring-type joints; however, fittings and ells shall be furnished with mechanical joint ends conforming to ANSI A21.11. Anchorage of pipe bends, ells and fittings shall be with the use of mechanically-anchored retainer glands (AWWA A21.11) in addition to concrete thrust blocks and shall be adequate for the imposed loads and as approved by the Village Engineer. All piping shall be installed in strict accordance with AWWA C600. Piping shall be cleaned, tested and disinfected, in accordance with AWWA C601.
B. 
Valves. Valves shall be installed at all connections to existing water mains, at street intersections and at a maximum spacing of 400 feet. Valves shall be mechanical joints, iron body, bronze-mounted, double disc, parallel seat, nonrising stem gate valves with an O-ring stuffing box, conforming to AWWA C500 and suitable for a working sliding type, cast iron with cover embossed with a "water" designation. All buried valve and valve boxes shall be coated with a heavy-coat tar enamel.
C. 
Service lines.
(1) 
All service lines shall be complete with curb stops, Mueller Cat. No. H15210 or equal; curb boxes, Mueller Cat Nos. H1-0350 and H-10346; and corporation stops, Mueller Cat. No. 1500, or approved equals. Corporation stops shall be bronze with tapered threads.
(2) 
Corporation stops of any size placed into existing mains shall only be installed using an approved tapping saddle. Corporation stops over one inch in size and installed into the new mains shall also employ a tapping saddle.
(3) 
Water service pipe shall be ASTM B88, Type K, copper water tubing using flare-type brass fittings, and sweated fitting, where permitted, shall be installed with lead-free solders. Single-family residential unit service lines shall be a minimum diameter of 3/4 inch, except that a one-inch service line shall be required on residences over 80 feet from the main.
A. 
In general, the Village water mains shall be laid in the center of one of the two roadway lanes, thereby preserving the roadway center line for future sewer main construction. Unless otherwise approved, the mains shall be installed in the northerly and westerly lanes. All water mains shall be laid within a Village street, right-of-way or easement.
B. 
The minimum main size for any residential, commercial, institutional or industrial district or area shall be eight inches. All pipe sizes larger than eight inches shall be approved by the Village Engineer. Wherever possible, water mains shall be looped to establish a grid pattern within any new developed area.
Hydrant service shall be installed in accordance with the following standards:
A. 
For residential districts, hydrants shall be spaced not more than 500 feet apart.
B. 
For commercial districts, hydrants shall be spaced not more than 300 feet apart.
C. 
All hydrant locations shall be designated by the Village Fire Department.
D. 
Hydrants within the Village have been standardized to the Mueller Company Centurion with breakaway shoe. Hydrants shall conform to AWWA C502 and shall be furnished with two two-and-one-half-inch hose connections and one four-and-one-half-inch steamer nozzle connection. Threading of connections shall conform to the Fire Department standards, and hydrants shall open counterclockwise.
E. 
Hydrant connections shall be made with anchoring glands and thrust blocks. A gravel drain shall be provided at all drain ports.
A. 
Piping shall be installed in strict conformance with the manufacturer's recommendations. All piping shall have a minimum soil cover of four feet and a maximum depth below the finished grade of five feet unless otherwise approved by the Village Engineer.
B. 
Any pipe exhibiting cracks, chips or other defects shall be replaced with sound pipe sections. Defective coatings shall be repaired before pipe installation. The cutting of pipe sections shall be done in a neat and workmanlike manner, without damaging the pipe or lining.
C. 
The trench base shall be graded to the required elevation and shall provide a continuous and uniform bearing for the pipe sections and fittings. Any soft or unsuitable subgrade material shall be removed and replaced with an approved crushed stone or gravel. Backfill shall contain no frozen materials, rubbish or organic materials. No rock or stone larger than two inches in diameter shall be permitted within two feet of the pipe location. All backfill shall be an approved granular material and shall be well tamped and compacted under the pipe haunches and around the pipe to a minimum depth of two feet above the pipe. The compaction of this material shall be at least that specified hereinabove for the roadway excavation and backfill.
D. 
Tees, bends and plugs shall be restrained against movement with both retainer glands and thrust blocks, as approved. Friction bands and harnessed tie rods may be used in combination with the thrust blocks, where approved by the Village Engineer.
E. 
When permitted, dead ends of piping runs shall be installed with a gate valve blowoff constructed within an approved chamber. Manually operated air vents employing a three-fourths-inch service tap complete with a copper-tubing connection to a separate curb stop and box shall be installed at all high points in the main.
F. 
The entire line shall be pressure-tested for leakage. After venting all air from the line, the piping shall be pressurized to 250 pounds per square inch and this pressure maintained for one hour unless otherwise directed by the Village Engineer to extend the test period. An accurate record shall be kept of any required makeup water necessary to maintain the specified test pressure. If the pressure cannot be held within reasonable limits, the main shall be uncovered to inspect for unsatisfactory joints or defective pipes or fittings. After making the necessary repairs, the pressure test shall be repeated until a satisfactory result is obtained. The maximum permissible leakage of the pipe as measured against the above-described makeup water required during testing shall be computed by the following formula, L = N x D x P/7400, where L equals the allowable leakage in gallons per hour, N equals the number of joints in the test, D equals the nominal diameter of the pipe in inches, and P equals the average test pressure (psig). The test location shall be at the low point of the installed pipe section.
Piping shall be kept clean during construction using temporary bulkheads and covers at the end of each day's work. The installed line shall be disinfected in accordance with AWWA Standard C-601, but the pipeline shall be chlorinated for a minimum of 24 hours. After flushing of the mains, samples shall be taken and analyzed as required by the Rockland County Health Department. All disinfection procedures shall be witnessed by the Village Engineer.
A. 
The Village Board hereby delegates to the Planning Board of the Village of Hillburn the right to modify or vary the requirements of this article. Such modification or variance may be granted in an individual case-by-case basis by the Planning Board upon application to the Planning Board when, in the judgment of the Planning Board, the public convenience and welfare will be substantially served and it may, in appropriate and specific cases, subject to the appropriate conditions and safeguards, determine and vary the application of regulations of this article in harmony with its general purposes and intent.
B. 
In considering any such application to modify or vary and of the standards or specification of this article, the Planning Board may employ or retain consultants under the same terms and conditions as permitted in Local Law No. 1 of 1986, as amended from time to time.[1]
[1]
Editor's Note: See Ch. 120, Art. I, Review of Zoning and Planning Applications.