Article IV Stormwater Construction Standards

This article specifies requirements for stormwater management (aka drainage) systems, including conveyance and water quality structures.

Groundwater and stormwater runoff should be managed on-site to the extent possible. On-site retainage of stormwater and implementation of other stormwater management measures to control the rate, volume and characteristics of stormwater discharged to the City's storm drainage systems shall be required whenever feasible, with exceptions to be approved by the City. Storm drains, catch basins, manholes, retention/detention structures, water quality structures, permeable surfaces, and related best management practices (BMPs) shall be installed where necessary to provide adequate treatment and on-site infiltration or off-site disposal of surface water from all streets and adjacent land as shown on the proposed plans that require approval by the City prior to construction.

Groundwater shall not be managed by or discharged (such as by sump pumps) into the stormwater system. Lowest level floors and the bottom of stormwater BMPs should be at least three feet, but no less than two feet, above the seasonal high groundwater table. The seasonal high groundwater table should be field verified at the site.

No stormwater discharge shall cause or contribute to an exceedance of water quality standards. Additional stormwater quality controls may be required to reduce pollutant loading from drainage systems that ultimately discharge to a water body listed as an impaired water on the most recent Massachusetts Integrated Report of Waters.

Stormwater drainage systems shall incorporate low-impact development (LID) techniques, where feasible.

No stormwater discharge (point or sheet flow) shall cause flooding or erosion on adjacent properties. Driveways, aprons, and other entrances to the street shall be constructed to prevent roadway drainage from entering the private property.

Work under this article shall comply with federal, state, and local requirements. All private and public stormwater management systems shall comply with the most current National Pollutant Discharge Elimination System (NPDES) requirements.

The developer shall process and record permanent easements for communal drainage structures or BMPs located on private property.

Calculations and designs shall demonstrate compliance with the DEP Stormwater Management Standards. The specified design storms shall be defined as a twenty-four-hour storm using the rainfall distribution recommended by the National Oceanic and Atmospheric Administration (NOAA) Atlas 14, as amended.

Submittals required for stormwater projects include:

All construction shall comply with the City's ordinances regarding clearing, erosion control, and stormwater management. In addition, construction shall comply with any applicable federal and state requirements, including but not limited to National Pollutant Discharge Elimination System (NPDES) construction general permit.

Silt fencing may be used as one of the primary erosion control measures. Silt fence shall consist of a sheet of synthetic fabric such as polypropylene, nylon, polyester, or polyethylene yarn. Silt fence shall be erected in a continuous fashion from a single roll of fabric. The bottom of the fabric fence shall be buried sufficiently below the ground surface to prevent gaps from forming, usually four to six inches below ground surface. The fabric shall be installed on the upstream side of the stakes. Stakes shall be strong enough and tall enough to securely anchor the fabric to the ground. Stake spacing shall be no more than 10 feet apart for extra-strength fabric and six feet apart for standard-strength fabric. Maintenance of the fence is required during construction. Material shall be based on the synthetic fabric requirements as follows:

Fiber rolls or an approved equal may be used as another primary erosion control measure. Fiber rolls shall be trenched between three and five inches into the ground, depending on the size of the fiber roll. Fiber rolls shall be staked securely into the ground using wood stakes. A minimum of three inches of the stake shall stick out above the roll. Stakes shall be spaced three to four feet. Fiber rolls placed around drain inlets shall be placed a minimum of one foot back from the inlet. For slope stabilization, fiber rolls shall be placed perpendicular to the expected flow of stormwater runoff, with the following separation:

Gravel aprons shall be installed at the entrance of construction sites or where new roads under construction are being connected to the public way to prevent sediment from the construction site entering the roadway. Aprons shall be a minimum of 25 feet in length and the width of the proposed street or at least 15 feet in width and filled with six inches of two-inch crushed stone. Regular maintenance to remove trapped dirt and to replace stone shall be provided to keep the public way clean.

Silt sacks (or equivalent) shall be placed in down gradient catch basins to prevent sediment from entering the drainage system. Silt sacks shall be periodically cleaned while in use and must be cleaned prior to and after precipitation events. Contractors are advised they may be required to respond immediately for repair and maintenance at the request of the City within two hours of notification.

All soil stockpiles to be in place for more than 14 days shall have erosion controls (e.g., fiber rolls) installed on the down gradient side to prevent migration of soils.

All erosion and sediment controls shall remain in effective operating condition during construction activities. The contractor shall inspect all erosion and sediment controls regularly and make the necessary repairs or modifications to ensure effectiveness or as directed by the City Inspector.

The contractor shall initiate soil stabilization measures immediately whenever earth-disturbing activities have permanently or temporarily ceased on any portion of the site. The contractor shall complete soil stabilization measures as soon as practicable, but no later than 14 calendar days after the initiation of soil stabilization measures.

In general, discharge of groundwater or stormwater runoff from sources on private property to the City's drainage system or right-of-way is prohibited. This includes sump pumps, foundation drains, roof downspouts, and runoff from driveways and yards. However, when suitable alternatives do not exist, private drainage systems may be connected to the City drainage system with approval from the DPW.

New private stormwater management systems that connect to the City's drainage system shall be approved by DPW and shall be constructed, installed, maintained, repaired, and operated to the satisfaction of the DPW.

Private drains, including building storm drains for new or existing buildings, groundwater sump drains, cellar drains, and drains from irrigation systems, shall not be connected directly to the City's sanitary sewer system. Illicit connections to the sanitary sewer system shall be removed by the property owner at their expense.

For redevelopment projects, existing connections to the City's system that will remain connected shall be video inspected to verify pipe condition and ensure integrity prior to approval of redevelopment plans. The inspection should be witnessed by DPW staff.

Proposed private connections must discharge to the City's drainage system by gravity. If the private stormwater system is lower than the City's system, stormwater shall be lifted by approved means to a structure on the private property prior to connecting to the City's MS4.

The City assumes no responsibility for the installation and maintenance of private connections or for any damage that may result from their failure or from water backflow from the City's drainage system. The owner is required to submit a waiver to this effect, signed and dated by the owner.

Private connections shall include a backflow preventer, cleanout, and a shutoff device in such places that all fittings are accessible to the municipality.

Pipe material.

Pipelaying.

Drainage manholes shall have a minimum inside diameter of four feet minimum. Manholes over 12 feet in depth shall have minimum of five feet inside diameter.

A drainage manhole shall be located at any change in direction or slope of a drainpipe. A drainage manhole will be constructed at private connections to the City's drainage system, unless otherwise approved by DPW.

Manholes shall be constructed in series and shall have a distance of no more than 250 feet between manholes, unless otherwise approved by DPW.

Cross-drain inverts should, where possible, enter the structure a minimum of one foot above the outgoing invert.

When drop manholes are used the drop shall not be more than 3 1/2 feet.

Contractor shall excavate to a depth of 12 inches below the bottom of and all around the proposed manhole, compact and fine grade and install washed screened gravel as a subbase material. Pipes shall extend no more than three inches inside the interior wall and all openings around pipe entrances and lift holes shall be thoroughly grouted with non-shrink grout prior to backfilling. Compaction process shall be the same manner as compaction around pipe.

When groundwater is higher than the elevation of the bottom of the manhole, three-fourths-inch to one-inch washed stone shall be placed around structure to a distance of at least halfway up the barrel of the highest pipe. The manhole shall be tested for tightness prior to backfill and approval.

Precast manholes shall be constructed of reinforced precast concrete monolithic base section, barrel section and dome section meeting the latest applicable requirements of ASTM C478 I and AASHTO M 199, or latest revision thereto. Special manholes shall also meet the requirements of MassDOT Standard Specifications, Section M4.02.14, Precast Units. After curing a minimum of 14 days, the outside surface of the tapered or cone section of precast cement concrete drainage structures shall be dried and cleaned. Pre-cast manholes shall not have steps installed.

Constructed in place manholes shall be built of precast sump, six-inch concrete barrel blocks, and four-inch (pie) plates with an inside diameter of four feet. Such manholes shall have a solid (impenetrable) sump. Cement concrete blocks shall conform to ASTM C139. As circular concrete block walls are laid, the horizontal joints and key ways shall be flush full with mortar. As rectangular blocks are laid, all horizontal and vertical joints shall be flushed full with mortar.

All joints between the frame, grade rings, dome, barrels and base shall be set in place with non-shrink mortar. Inside the manhole, all joints where the sealing material is not flush with the inside wall shall be grouted with non-shrink mortar and finished by hand/wet-brushed. Tongue and groove sections between barrel sections shall be mortared or use butyl rubber sealants.

Risers shall be brick, not concrete blocks. Risers shall be clay or shale brick, and shall conform to the requirements of AASHTO M 91, Grade MM or as specified in MassDOT M4.05.

Grade adjustments shall be made using either precast grade rings/risers or clay/shale bricks.

Live load design shall be H-20 loading.

Manhole frames and covers.

The tops of frames and covers shall be set 1/8 inch below finish grade pavement in the street. Final grade locations for installations outside of the paved roadway shall be as approved by the DPW Inspector.

Frames shall be set upon a full bed of mortar, and mortar shall be brought up alongside of frame to provide a watertight joint.

Catch basins shall be installed on both sides of the roadway, at low points in the roadway, and near the upper point of curvature of the curb roundings of intersecting streets. Catch basins shall not be installed in the roadway within driveway entrances.

Catch basins shall be located so that the maximum distance which water will have to flow over the surface shall not be greater than 250 feet.

Catch basins shall be connected to manholes and not to other catch basins. Chain basins are prohibited.

All basins shall have a sump of at least 48 inches (four feet) below the invert of the outlet pipe, or otherwise approved by the DPW, and an inside diameter of four feet minimum.

Contractor shall excavate to a depth of 12 inches below the bottom of and all around the proposed catch basin base, compact and fine grade and install washed screened gravel as a subbase material. Pipes shall extend no more than three inches inside the interior wall, and all openings around pipe entrances and lift holes shall be thoroughly grouted with non-shrink grout prior to backfilling. Compaction process shall be the same manner as compaction around pipe.

When groundwater is higher than the elevation of the bottom of catch basins, three-fourths-inch to one-inch washed stone shall be placed two feet all around structure to a distance of the high groundwater elevation. The stone shall be placed against and over the end of the pipe opening to prevent entrance of the finer filling material. The catch basin shall be tested for tightness prior to backfill and approval.

Precast catch basins shall conform to ASTM C478 and AASHTO M 199, or latest revision thereto. Live load design shall be H-20 loading. Catch basins which are limited by height shall be installed with a flat top slab, cast in place, designed for H-20 loading and cast-iron frame cast in place.

Constructed in place catch basins shall be constructed of a precast sump, six-inch cement block and four-inch (pie) plates that conform to ASTM C139. Live load design shall be HS-25 loading.

Drop (aka direct) inlet catch basins may be connected to standard catch basins. They shall not be connected to drainage manholes unless otherwise approved by DPW.

Circular concrete block walls are laid up the horizontal and key ways shall be flush full with mortar above the outlet invert. The dome or cone section shall be constructed in the same manner. The opening between the plates shall be filled with washed, screened gravel and left open. A twenty-four-inch opening shall be left open at the top for a frame and grate.

Grade adjustments shall be made using either precast grade rings/risers or clay/shale bricks.

Catch basin grates shall be twenty-four-inch square grate with an eight-inch heavy-duty frame, East Jordan Iron Works (formerly LeBaron Foundry Co.), LF248-2-4F. Single or dual catch basin grate shall consist of a twenty-four-inch square grate LeBaron Foundry Co. L24SG1-000 or approved equal with an eight-inch heavy-duty frame (MassDOT Standard).

Grates shall have the following wording cast into the outside borders: "Dump No Waste" and "Drains to Waterway." Text shall be bold capital letters, at least one inch high. Placement may be as per manufacturer.

All catch basins that do not have a flat top slab designed for H-20 loading and cast-iron frame cast in place shall be installed using blocks to make a square hole that will accept a frame and grate, and there shall be at least two full courses of brick for frame adjustment.

The tops of frames and covers shall be set 1/8 inch below finish grade pavement in the street. Final grade locations for installations outside of the paved roadway shall be as approved by the DPW Inspector.

Frames shall be set upon a full bed of mortar, and mortar shall be brought up alongside of frame to provide a watertight joint.

Granite curb inlets shall be installed at all catch basins. Granite curb and inlets shall be constructed in conformance with MassDOT Standard Specification Section 501, except that cement concrete shall be placed beneath the center section of each curbstone and as backfill in front and behind the curb.

The back face for a distance of three inches down from the top shall have no projections greater than one inch. The front shall be straight split, free from drill holes, and shall have no projection greater than one inch or depression greater than 1/2 inch for a distance of 10 inches down from the top. For the remaining distance there shall be no depression or projection greater than one inch. The ends shall be squared with the top for the depth of the face finish. The granite curb inlet shall be six feet in length, plus or minus 1/2 inch from 17 to 19 inches in depth, six inches wide at the top and at least six inches wide at the bottom. The reveal shall be 10 inches.

Curb inlets set on a radius of 160 feet or less shall be cut to that radius. The gutter mouth at least three inches in depth and at least two feet in length shall be cut in the front face of the stone. If there is no other curbing, or as applicable, transitional curbing shall be required on both sides of the inlet. The transitional curbing shall be six feet in length, with a height equal to the inlet and tapering to grade at the end.

Drainage swales shall be stabilized with vegetation or riprap to prevent erosion.

Drainage swales shall be designed to convey the two-year and ten-year twenty-four-hour storms.

The maximum depth of a swale shall be 24 inches. Side slopes shall be no steeper than 3:1 (horizontal: vertical) with a minimum grade of 0.5% and maximum grade of 5%. The minimum bottom width for a swale, whether earthen, gravel, or paved, is two feet.

The bottom of the drainage swale shall be at least three feet above seasonal high water table or bedrock.

The use of swales draining across a sidewalk into the gutter is generally unacceptable. In those cases where necessary, DPW approval shall be required for the design.

Design standards.

Proprietary separators. If constructed in the public right-of-way, the City has standardized on Stormceptor hydrodynamic separators or approved equal.

Infiltration BMPs.

At the discretion of the Department, a mandrel test shall be conducted following completion of pipelaying.

Placement of curb, gutter, sidewalk, or asphalt concrete pavement shall not occur until the DPW Inspector has approved the mandrel test. The DPW Inspector shall be present through the duration of the mandrel testing.

The allowable deflection (reduction in vertical inside diameter) for all non-rigid pipe shall be 7.5% maximum. The deflection shall be tested by pulling a mandrel which is 92.5% of the inside pipe diameter through all installed pipe. The mandrel shall be the "go/no-go" type and shall be pulled without mechanical assistance. At each location in which the mandrel cannot pass, the cause shall be ascertained. Obstacles in the pipe shall be removed. If it is determined that the deflection exceeds 7.5%, that a gasket has been improperly installed or that the pipe has been damaged due to trenching for another utility, the respective section of pipe shall be re-bedded or removed, replaced and re-bedded using watertight repair couplings. A passing mandrel retest is required. At the contractor's discretion, any sections of non-rigid pipe not passing the mandrel test may be televised to ascertain the problem.

A CCTV inspection may be requested after installation, with the results being provided to the DPW.

Pipes left in place that are equal to or less than six inches in diameter may be left unfilled.

Pipes left in place that are greater than six inches in diameter shall be filled with LDCC.

Structures left in place shall be demolished down to five feet below ground surface, the bottom shall be cracked and compacted, and the remaining structure filled with CDF, LDCC, or clean gravel, as directed the City Inspector. Demolition debris shall be removed, and the area regraded and compacted over the filled structure.

Private stormwater management systems will be constructed, installed, maintained, repaired, and operated by their owners, at the owner's expense. Ongoing maintenance of stormwater management systems placed on private property, rather than within the City right-of-way limits, shall be responsibility of the property owner or homeowners' association.

The owner of any property on which a drainage system is located is responsible for the maintenance and upkeep of the system. The inspection and maintenance of the drainage systems shall be performed at minimum on an annual basis, and more frequently depending on the circumstances.

The owner shall provide documents that describe the long-term operation and maintenance of all permanent stormwater management measures. Such a plan shall include nonstructural and structural measures to manage stormwater after construction of the new or expanded facility. An approved long-term operations and maintenance plan for that stormwater system shall be recorded with the deed at the Massachusetts Registry of Deeds.