The following tolerances shall be maintained from true alignment and grade:

Joint deflection shall not exceed the maximum allowable deflection per joint according to ASTM C-425, ASTM C-594 and AWWA C-600. Only one (1) correction for alignment and/or grade shall be made between adjacent manholes.

Except where pipe sections are being encased in concrete, no pipe is to be supported by blocks.

All transition in sewer main line and grade must be within a manhole.

Install pipe of size, material, strength class and joint type with embedment as shown on the approved plans.

Pipes installed on grades in excess of twenty percent (20%) shall be anchored securely with concrete anchors spaced as follows:

Insofar as possible, commence laying at downstream end of line and install pipe with spigot or tongue end downstream.

Clean interior of all pipe, fittings and joints prior to installation. Exclude entrance of foreign matter during discontinuance of installation. Close open ends of pipe with snug fitting closures. Do not let water fill trench. Include provisions to prevent flotation should water control measures prove inadequate. Remove water, sand, mud and other undesirable materials from trench before removal of end cap. Install pipe only when weather and trench conditions are suitable. Do not lay in water. Brace or anchor pipe as required to prevent displacement after establishing final position.

The sewer trench shall be carried to a point not less than four (4) inches below bottom of pipe bell. Crushed stone bedding, compacted to full width of trench, shall then be placed and compacted to bottom of pipe with proper allowance for bell joints. After each length of pipe being laid has been shoved "home" and placed in proper alignment, it shall be securely anchored and held in position by crushed stone deposited simultaneously on each side of the pipe. This crushed stone backfill shall extend to a point not less than six (6) inches above the top of the pipe bell. If unstable conditions are encountered and it is determined by the engineer that the bedding specified will not provide suitable support for the pipe, additional excavation to the limits determined by the engineer will be required. This additional excavation shall be backfilled with crushed stone material approved by the engineer.

Clean and lubricate all joint and gasket surfaces with lubricant recommended by pipe manufacturer.

Utilize methods and equipment capable of fully homing or making up joints without damage.

Check joint opening and deflection for specification limits.

Examine each piece of pipe prior to installation for soundness and specification compliance.

Plugs shall be watertight against heads up to twenty (20) feet of water. Secure plugs in place in a manner to facilitate removal when required to connect pipe.

Plugs shall be installed as specified or where shown on plans. Also the open end of the sewer shall be plugged at the end of the workday with a suitable mechanical plug to prevent entry of foreign material until work is resumed.

Connect pipe to existing structures and pipelines where indicated. Observe pertinent articles of specifications pertaining to joint locations.

Manholes to be built on an existing sewer shall be constructed in such a manner as will not disturb services of existing sewer. The manhole base, walls and invert shall be completed before the top half of the sewer pipe is cut or broken away. Rough edges of the pipe thus exposed shall be covered with expansive grout in such a manner as to produce a smooth and acceptable finish. Any portion of the existing sewer damaged by the contractor shall be repaired at no expense to the City.

Connections between different pipe materials shall be made using proprietary transition coupling unless otherwise specified on the plans.

Wyes and saddles for service lines shall be installed at a forty-five degree (45°) angle measured from the horizontal centerline of the pipe for pipe sizes eight (8) inches through fifteen (15) inches in diameter. Service lines shall not be installed in pipe sizes eighteen (18) inches in diameter or larger unless approved by the City Engineer. Wyes shall be eight (8) inches by four (4) inches with DVW branch and shall be installed on new sewer mains as the mains are installed.

Service lines under streets shall be installed by the developer extending from the main to the limits of the street right-of-way and shall be installed prior to construction of the street at a slope not less than one (1) foot per one hundred (100) feet [one percent (1.0%)]. Service lines for each building unit shall be connected to the mains by means of a wye or tee and shall extend at least to the street right-of-way but never less than ten (10) feet from the sewer main and shall have warning tape labeled ("Buried Sewer Line Below") eighteen (18) inches below final grade of all sewer lines. The contractor shall also install a tracer wire mounted on top of the pipe that shall be #12 (minimum) green in color Copperhead clad steel wire housed in a polyethylene coating, as manufactured by Copperhead Industries. Splicing shall be with 3M DBY/DBR Direct Bury Splice Kit or approved equal. Individual service lines shall not connect directly into manholes unless approved by the City Engineer. Service lines shall be adequately plugged to prevent foreign matter from entering the pipe during construction. All service lines shall be constructed bell to spigot or shall have a solid glued sleeve.

Saddles are only to be used to connect to existing sanitary sewers. The saddle shall be installed over a hole sized to fit the saddle opening (four (4) inch minimum). Cut shall be made with non-impact rotary equipment.

The service line shall terminate at a capped cleanout, and a two-way tee (double sanitary tee) is required. The cleanout location shall have a protective cover. The protective cover shall be model #2194-S as manufactured by Clay and Bailey Products with "sewer" or the letter "S" on the lid. The top of the cleanout must be set a minimum of three (3) inches below the bottom of the box lid and the tracer wire as described in Subsection F(2) above shall terminate in the protected cover with no less than eighteen (18) inches of extra wire inside the cover for locating purposes.

The developer shall maintain an accurate record for the production of the as-built drawings of the location, size and direction of each tee and wye and location, size and length of each building service line. Locations will be referenced to the pipe line stationing as shown on the plans or the distance from the first (1st) downstream manhole.

Manholes and special structures shall be constructed at locations indicated and in accordance with details as shown on the plans.

Precast wall and reducing cone sections. Handle with care to avoid damage to joint ends of each section. Damaged sections may be subject to rejection at the discretion of the engineer. When using O-ring joints, care shall be exercised in placing the O-ring on the spigot end and lowering the bell section on to the spigot end so that a watertight seal is obtained.

When using bitumastic joints both spigot and bell ends shall be primed with solvent material compatible to the adhesive in the mastic. Approved bitumastic material shall completely fill the joints so that a minimum of one-fourth (¼) inch bead of material is visible after jointing, to be smoothed off after completion of the jointing operation.

When a flexible preformed butyl rubber or bituminous polymer compounded with modifiers is used to seal jointed sections of manholes, the extrusion of sealant from the joint is not required. The vertical spacing between manhole sections shall not exceed one-fourth (¼) inch. Preformed joint sealers remain flexible at temperatures as low as zero degrees Fahrenheit (0°F).

All bitumastic materials or preformed flexible joint sealants shall not be applied to wet or damp surfaces.

Cast-in-place. Consolidate concrete with mechanical vibrators to eliminate entrapped air voids and rock pockets. Forms shall be supported in such a manner as to prevent any movement of the forms while concrete is being cured. Any movement of the forms may be cause for rejection.

Invert channels. Alignment of the invert channels shall be as shown on the approved plans. When no specific details and dimensions are given, changes in flow direction shall be smooth, uniform and made with the longest radius possible. The cross section shape of invert channels shall match the lower halves of the entering and exiting pipes. The surfaces of the channels shall be steel-troweled to produce a dense, smooth surface. When filling openings around pipes through manhole walls, mortar and/or masonry units shall be placed so that the resulting joints are watertight. Mortar used in the joint closure shall not interfere with the invert channel.

The backfill material shall be compacted to a minimum of eighty percent (80.0%) of optimum density as determined by the Standard Proctor Test or shall be compacted to a density equivalent to the density of the immediate adjoining soil. The top six (6) inches of backfill in street right-of-way shall be compacted to a minimum density of ninety-five percent (95.0%) of optimum density as determined by the Standard Proctor Test. Backfill material shall be placed and compacted only when its moisture content is within two percent (2.0%) of optimum moisture content as determined by Standard Proctor Test.

The combination of the thickness of the layer, the method of compaction and the type of compaction equipment shall be at the discretion of the contractor subject to obtaining the densities as specified above.

The quality of the compactions shall be subject to compaction tests when deemed necessary by the City Engineer. It shall be the developer's responsibility to make necessary excavation in order to accommodate compaction tests at locations specified by the City Engineer. The compaction tests will be performed at no cost to the City. If the quality of the compaction does not meet the above requirements, the material will be removed and replaced to meet the above requirement at the expense of the developer.

Commercial sand backfill shall not be used.

Backfill material shall be carefully placed to avoid damage or displacement of sewer or structures.

Backfill shall not be placed when material contains frost, is frozen or a blanket of snow prevents proper compaction. Backfill shall not contain waste material, trees organic material, rubbish, etc.

The area below a plane six (6) inches above the top of pipe bell shall be backfilled in accordance with the specifications for "Pipe Bedding".

Backfill above a plane six (6) inches above the top of pipe bell shall be made with suitable earth, earth and rock or other acceptable material except that the area below a plane one (1) foot above the pipe bell shall not contain any excavated rock. When earth and rock is used, the maximum dimension of the rock shall not exceed twelve (12) inches.

No backfill shall be placed over or around any structure until the concrete or mortar therein has attained a minimum strength two thousand (2,000) psi and can sufficiently support the loads imposed by the backfill without damage.

The developer shall use utmost care to avoid any wedging action between the side of the excavation and the structure that would cause any movement of the structure. Any damage caused by premature backfill or by the use of equipment on or near a structure will be the responsibility of the developer.

Backfill shall be placed and compacted on all sides of the structure simultaneously and operations shall be so conducted that the backfill is always at approximately the same elevation on all sides of the structure.

No excavated rock larger than four (4) inches maximum dimension shall be placed within one (1) foot of the exterior surface of any structure.

Contractor shall clean pipe of excess mortar, joint sealant and other dirt and debris prior to inspection.

Sewer will be inspected by flashing a light between manholes and/or by physical passage where space permits. Determine from illumination and/or physical inspection the presence of any misaligned, displaced or broken pipe and the presence of visible infiltration or other defects.

Correct defects as required prior to conducting leakage tests.

Test all sewer pipe over eighteen (18) inches I.D. after either the completed backfill or partial backfill sufficient to stabilize the position of the pipe in both alignment and grade is accomplished. The developer may select sections of the project for testing at any time by notifying the Public Works Department twenty-four (24) hours in advance.

Perform at depths of water as measured above centerline of pipe of not less than two (2) feet or more then ten (10) feet (consideration shall be given for water table above said centerline).

Maintain test as necessary to locate all leaks but not less than two (2) hours.

Repeat as necessary after repair of leaks and defects until leakage, as measured, does not exceed fifteen hundredths (0.15) gallons per inch of internal diameter per hour per one hundred (100) feet of pipe length (200 gal/inch of I.D./day/mile).

Protect manholes and other structures by means of bulkheads to prevent bursting pressures from being applied inside the structure.

Dewater pipe upon completion of testing.

The pipe plug for introducing air to the sewer line shall be equipped with two (2) taps. One (1) tap will be used to introduce air into the line being tested, through suitable valves and fittings, so that the input air may be regulated. The second (2nd) tap will be fitted with valves and fittings to accept a pressure test gauge indicating internal pressure in the sewer pipe. An additional valve and fitting will be incorporated on the tap used to check internal pressure so that a second (2nd) test gauge may be attached to the internal pressure tap. The pressure test gauge will also be used to indicate loss of air pressure due to leaks in the sewer line.

The pressure test gauge shall meet the following minimum specifications:

Test each reach of sewer pipe between manholes after completion of the installation of pipe and appurtenances and the backfill of sewer trench.

Plug ends of line and cap or plug all connections to withstand internal pressure. One (1) of the plugs provided must have two (2) taps for connecting equipment. After connecting air control equipment to the air hose, monitor air pressure so that internal pressure does not exceed five (5.0) psig. After reaching four (4.0) psig, throttle the air supply to maintain between four (4.0) and three and one-half (3.5) psig for at least two (2) minutes in order to allow equilibrium between air temperature and pipe walls. During this time, check all plugs to detect any leakage. If plugs are found to leak, bleed off air, tighten plugs and again begin supplying air. After temperature has stabilized, the pressure is allowed to decrease to three and one-half (3.5) psig. At three and one-half (3.5) psig, begin timing to determine the time required for pressure to drop to two and one-half (2.5) psig. If the time, in seconds, for the air pressure to decrease from three and one-half (3.5) psig to two and one-half (2.5) psig is greater than that shown on the table below, the pipe shall be presumed free of defects.

If air test fails to meet above requirements, repeat test as necessary after all leaks and defects have been repaired. Prior to acceptance all constructed sewer lines shall satisfactorily pass the low pressure air test.

In areas where ground water is known to exist, install a one-half (½) inch diameter capped pipe nipple, approximately ten (10) inches long, through manhole wall on top of one (1) of the sewer lines entering the manhole. This shall be done at the time the sewer line is installed. Immediately prior to the performance of the line acceptance test, ground water level shall be determined by removing pipe cap, blowing air through pipe nipple into the ground so as to clear it and then connecting a clear plastic tube to pipe nipple. The hose shall be held vertically and a measurement of height in feet of water shall be taken after the water stops rising in this plastic tube. The height in feet shall be divided by two and three-tenths (2.3) to establish the pounds of pressure that will be added to all readings.

This method is applicable to precast manholes only.

All lift holes shall be plugged with an approved non-shrink grout.

Manholes are to be tested after assembly and before backfilling. No standing water shall be allowed in the manhole excavation that may affect the accuracy of the test.

All pipes and other openings into the manhole shall be plugged and securely braced to prevent displacement of the plugs while the vacuum is drawn.

Installation and operation of vacuum equipment shall be in accordance with equipment specifications and instructions provided by the manufacturer.

The test head may be placed in the cone section of the manhole. The frame-cone joint will be visually inspected by the engineer.

A vacuum of ten (10) inches of mercury shall be drawn and the vacuum pump shut off. The time for the vacuum to drop to nine (9) inches of mercury shall be recorded.

Acceptance for four (4) foot diameter manholes shall be defined as when the time to drop to nine (9) inches of mercury meets or exceeds the following:

For manholes five (5) foot in diameter, add an additional fifteen (15) seconds and for manholes six (6) foot in diameter, add an additional thirty (30) seconds to the time requirements for four (4) foot diameter manholes. If the manhole fails to test, necessary repairs shall be made with a non-shrink grout while the vacuum is still being drawn. Retesting shall proceed until a satisfactory test is obtained.