[Amended by Res. 05-08-14; and by Res. No. 10-28-21]
1. All
sanitary sewers shall be designed in accordance with the applicable
edition of the Sewerage Manual for the Pennsylvania Department of
Environmental Protection, Water Quality Management Program, and these
Specifications.
2. Construction
of sanitary sewers will not be permitted until the proper commonwealth
permits have been obtained in the name of the Township or the Authority.
1. Building
Sewer. Building sewers shall in no case be less than four inches in
diameter. An adapter, approved by the Logan Township inspector, connecting
the building sewer to the lateral must be used. In accordance with
the recommendation of the Township, the Township, at its discretion,
may require the building sewer of a building having more than one
residential equivalent to be greater than four inches in diameter.
2. Lateral.
The lateral sewer between the sewer main and the building sewer upon
the property must be six inches in diameter, unless otherwise approved
by the Township.
3. Sewers.
All sewers, except building sewers and laterals, shall in no case
be less than six inches in diameter. The Township, at its discretion,
may require that sewers be greater than six inches in diameter.
Sewer pipe, fittings and wye connections used for sewers shall
conform to one of the following:
A. Polyvinyl
chloride (PVC) sewer pipe meeting the requirements of ASTM D-3034,
SDR 35 with integral bell-and-spigot-type joints meeting the requirements
of ASTM D-3212 and elastomeric gaskets meeting the requirements of
ASTM F-477. All trap and vent assemblies on structures constructed
prior to January 1, 2011, shall be constructed with (Schedule 40 DVW
ASTM D-1785-type fittings, utilizing purple primed, ASTM 656 and solvent
cement.
B. Type
PS-46 PolyVinyl chloride (PVC) sewer pipe meeting the requirements
of ASTM F-789 with integral bell-and-spigot-type joints meeting the
requirements of ASTM D-3212 and elastomeric gaskets meeting the requirements
of ASTM F-477.
C. Polyvinyl
chloride (PVC) sewer pipe meeting the requirements of ASTM D-1785,
Schedule 40 with purple primed, ASTM F-656, solvent cement-type joints
conforming to ASTM D-2564 — to be used in all interior plumbing
work.
D. Ductile-iron
sewer pipe shall conform to ANSI/AWWA C150/A21.50 and ANSI/AWWA C151/A21.51.
Pipe joints shall be push-on type or mechanical joint type. All pipe
joint systems shall conform to the provisions of ANSI/AWWA C111/A21.11,
Fittings shall be ductile iron with mechanical joints conforming to
ANSI/AWWA C110/A21.10 and ANSI/AWWA C1 11/A21.11 having a pressure
rating of 350 psi. Pipe thickness shall be in no class less than Class
52. The Township, at its discretion, may require the pipe thickness
to be greater than Class 52.
All area drains, including garage floor and basement floor drains,
potentially discharging rain or "clear" water shall not be connected
to the building sewer. As well, downspouts, sump pumps, and any other
device not containing waste material is strictly prohibited from entering
the Township's sanitary sewer system.
All sewers shall be installed in strict accordance with the
manufacturer's recommendations and Township's Sewer Construction Standard
Details. All sewers shall be installed using a pipe laser. No other
methods or laser level equipment will be allowed. All sewers shall
be installed by competent, skilled pipelayers. Each excavation for
a sewer shall be guarded adequately with barricades and other protection
devices to protect vehicle and pedestrian traffic from damage and
injury. Any roadway, sidewalk and other Township property or public
property disturbed in the installation of a sewer shall be restored
to its original condition or better at the sole cost and expense of
the person installing the sewer.
[Amended by Ord. 05-28-15]
A building sewer shall be connected to the public sanitary sewerage
system at the place designated by the Township. The invert elevation
of the building sewer at the point of connection shall be as required
by the Township. A smooth, neat joint shall be made, and the connection
of the building sewer to the lateral shall be made secure and watertight
with a coupling adapter approved by the Township. Fernco-type couplings
are not acceptable, unless a manufactured coupler is not available
and prior approval from the Township is received. Building sewers
shall be installed as direct as possible. Changes in direction must
be made with wyes, combination wye and eighth-bends or half wyes,
or one-eighth bends. Ninety-degree changes in direction shall be made
with a two-foot minimum length of pipe between the approved fittings.
Every change in direction which exceeds 45° shall include a cleanout.
Changes in pipe size where the building sewer is connected to the
lateral shall be made only with fittings. An inspection port of the
same size as the lateral shall be placed in the sewer discharge pipe
on or about the property line (as determined by the Township) of the
building, house and/or structure being connected to the public sanitary
sewer system. This inspection port shall be constructed by use of
at least a six-inch tee fitting being placed in the lateral at the
time of construction thereof. From the said tee fitting, a vertical
stack pipe of at least six-inch diameter will extend upward to ground
level. The top of said vertical stack pipe shall terminate with an
adapter with a screw-on cap. The frame and cover over the inspection
port shall be East Jordan Pattern #1565 or Neenah Model # R-1975-A2
or approved equal. The frame and cover must be installed such that
no downward forces imparted by a load on the frame can be transferred
to the observation stack. The frame must be installed on level ground
as near to the property line as possible. The frame can be purchased
at the Township office. The inspection port assembly shall remain
in place and accessible at all times by Township personnel. All such
connections shall be installed in such a manner as to be watertight.
The building owner shall have the option to install a barrier for
the purpose of preventing passage of stormwater and/or other waters
and/or liquids from utilizing the trench in which the building sewer
is located as a conduit to the building being serviced by the building
sewer.
A building sewer shall be laid on a grade of not less than 1/4
inch per foot (2.0% grade) and shall have a minimum cover of 2 1/2
feet. The Township Engineer or authorized representative may grant
special permission for a building sewer to be laid on a grade less
than 1/4 inch per foot. A cleanout shall be placed at no more than
every sixty-foot interval along the building sewer. The cleanout shall
be constructed as detailed in the Township's Sewer Construction Standard
Details.
The connection between the building sewer and the building drain
shall be constructed as detailed in the Township's Sewer Construction
Standard Details. Fernco couplings are permitted at this location
to connect dissimilar pipe materials only when a manufactured connector
is not available.
All commercial and institutional facilities processing and serving
food must install a trap, based on acceptable design standards. The
unit selection, computations and catalog cuts must be filed with the
Township Engineer and approved prior to installation.
A. Total
Discharge Flow Rate = Fixture Discharge + Dishwasher Discharge.
B. For
plumbing fixtures and equipment wastes, determine fixture discharge.
(If more than one fixture can discharge at the same time, include
all discharges.)
(1) Fixture discharge (gpm): for drains discharging plumbing fixtures
and equipment wastes or kitchen drains not discharging "clear" water.
(2) Dishwasher manufacturer's discharge rating (gpm).
1. The
unit selection, computations and catalog cuts must be filed with the
Township Engineer and approved prior to installation.
2. Oil
interceptor sizing shall be achieved by determining the greater demand
upon the proposed unit, either discharge flow rate or emergency oil
spill capacity.
A. Discharge
Flow Rate.
(1) For drains discharging plumbing fixtures and equipment wastes or
floor drains not influenced by surface water from roof or exterior
drainage areas:
Calculate fixture discharge (if more than one can discharge
at same time, including all discharges)
Total Volume of Fixture (C.F.) x 7.48 Gal. x 0.75/2 min. C.F.
= Discharge Flow Rate (gpm)
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Where:
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0.75% of fixture volume utilized (2 min. drainage period from
fixture) 7.48 gal./C.F. conversion factor
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(2) For drains discharging oily surface water crossing the floor areas:
Surface Area (S.F.) X 1.2 inches x 2.0 gal.-hr. x hr. 96.26
inc-S.F. = Discharge Flow Rate (gpm)
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Where:
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1.2 inches/hr. = two-year rainfall in Central Pennsylvania
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2.0 = Minimum storage factor
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96.26 in-min-SF units factor = Gal.-hr.
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B. Emergency
Oil Spill Capacity.
=Max. Grease and/or Oil Discharge (gpm) x 2 min. x .8/2.0
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Where:
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Maximum grease and/or oil discharge rate from all equipment
that stores and/or delivers products
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2 min. = Maximum spill time
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0.8 = Separation feeder
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2.0 = Sizing factor
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The grease capacity (gal.) must be equal to the maximum grease
and/or oil discharge x 2 min.
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To convert gallons of oil/grease to pounds, use 6 gallons =
1 pound.
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Knowing the proposed discharge flow rate and/or emergency oil
capacity, select a unit with the proper sizing using manufacturer's
catalog information.
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Persons installing sewers must comply with the requirements
of the Commonwealth of Pennsylvania Act No. 38 (1991), the provisions
of which are incorporated herein by reference.
1. Manhole
sections shall be precast concrete and shall be manufactured in accordance
with the provisions of ASTM C-478. Waterproofing shall be obtained
by using ZPEX C-1000 RED admixture to the concrete. All joints shall
be tongue and groove. The inside diameter of the manhole sections
shall be not less than 48 inches. Manhole tops shall be "eccentric
cone" sections or flat tops having an opening not less than 27 inches
in diameter.
2. All
joints in the precast concrete manhole sections shall be thoroughly
cleaned, primed and a joint-sealing compound (two strips per joint)
equal to RAM-NEK Performed Plastic Gasket, as manufactured by K.T.
Snyder Company, or equal, placed entirely around the joint immediately
before the manhole sections are assembled. "Squeezed out" excess joint
material must be neatly trimmed and removed. Through wall lifting
holes shall not be permitted. Lifting keys or lugs shall be factory-installed
integrally in the manhole components.
3. Manhole
bases shall be precast concrete "flanged" type bases. At each point
where the sewer pipe enters (or leaves) a manhole base, a cast-in-place
flexible pipe gasket system shall be installed. Rubber gasket materials
shall conform to the requirements of ASTM C-443.
4. All
precast manhole sections shall be furnished with manhole steps at
twelve-inch centers and properly aligned. The manhole steps shall
be properly aligned vertically as the manhole sections are being assembled.
Reinforced plastic manhole steps shall be 1/2 inch Grade 60, ASTM
A615 deformed steel reinforcement completely encapsulated in Grade
49108, ASTM D4104 copolymer polypropylene plastic compound. Manhole
steps shall be M.A. Industries, Inc.'s Type PSI-PF.
5. After
the manhole is made watertight and completely cured, the exterior
surfaces (and interior surfaces when used within the Innovative and
Alternative District) shall be entirely coated with a coal tar epoxy
coating system equal to one prime coat and the number of finish coats
necessary to provide a final dry film thickness of not less than 20
mils. The coating shall be applied in strict conformance with the
coating manufacturer's specifications. A written certification stating
that the previously stated waterproofing specification has been met
shall be provided to the Township.
6. Immediately
prior to placing the concrete for the flow channels in the manholes,
thoroughly clean the surfaces of the concrete that will make contact
with the concrete for the flow channel, moisten these surfaces with
water and place approximately 1/2 inch of mortar containing a latex
bonding admixture thereon. The bonding mortar shall be field-mixed
at the manhole site in strict conformance with the manufacturer's
instructions. The flow channel concrete shall be PA-DOT Class A concrete
with PA-DOT No. 1B coarse aggregate and shall be placed on the bonding
grout immediately after the bonding grout is placed. Smooth flow channels
cast in the manhole bases by the manhole manufacturer will be acceptable.
7. Manhole
frames and covers shall be similar to Neenah Foundry Company Catalog
No. R-1753-A self-sealing marked "Sanitary Sewer" and having an opening
not less than 27 inches in diameter. Four holes shall be drilled in
the manhole frame and the top of the precast concrete manhole eccentric
cone section. After cleaning the manhole frame and the top of the
precast concrete manhole eccentric cone section, place joint-sealing
compound on the concrete and securely bolt the manhole frame to the
eccentric cone section top with three-fourths-inch expanding head
concrete anchors. If precast concrete grade adjustment rings are required
to properly bring the manhole cover to finished grade, joint-sealing
compound shall be placed between adjacent rings, between the ring
and frame and between the ring and eccentric cone section. In all
cases, the frame must be bolted to the eccentric cone section.
8. Provide
adequate support in the form of a concrete cradle to undisturbed earth
under all pipes entering or leaving manholes.
Inflow protection inserts shall be in all manholes which are
not "self-sealing." The inflow protection insert and its associated
components shall be manufactured from corrosion-proof materials suitable
for atmosphere containing gases associated with wastewater collection
systems. The thickness of the insert body shall not be less than 3/32
inch nor greater than 6/32 inch. The insert body shall not have an
overall depth exceeding 6 1/2 inches. The insert shall have a
sealing gasket made of close cell neoprene. The insert shall have
a gas relief valve designed to relieve at a pressure of one pound
or less. The valve shall have a leak-down rate not exceeding 10 gallons
per 24 hours, to eliminate the ponding of water over the manhole.
The gas relief valve shall have no metal parts. The valve shall be
positioned so that it is protected and will not be broken by any movement
of the manhole cover. The insert shall have a lift strap attached
to the insert body. The lift strap shall be made of one-inch-width
polyester, nylon and shall be seated at all ends to prevent unraveling
or deterioration. The lift strap shall be attached to the insert body
by means of a sealed aluminum rivet. Attachment of the lift strap
to the insert body shall be recessed to prevent contact with the manhole
cover during removal or replacement of the manhole cover. The manhole
frame rim shall be cleaned of all dirt or debris before placing the
insert upon the rim. The insert shall be fully seated around the manhole
frame rim. Inserts shall not be installed until all testing of the
sewer lines has been satisfactorily completed and the Township has
issued written approval to install the inserts.
1. All
sewers, except those building sewers that the Township grants permission
not to be tested, shall be tested for alignment and deflection and
exfiltration as follows:
A. Prior
to testing, the person installing the sewer must submit to the Township
for approval the test procedure and test equipment he proposes to
use.
B. The
person conducting the test shall furnish the labor, equipment, materials,
and all else necessary to perform the testing specified herein. All
sewers which do not meet the test limits established herein shall
be repaired or removed and replaced to the satisfaction of the Township.
2. Alignment
Test. A test mandrel, constructed according to the dimensional tolerances
shown below, shall be pulled through the sewer line to determine whether
the alignments and deflection of the pipe are correct and to ensure
that all obstructions have been removed. In the case that the test
shows poor alignment or improper deflection of the sewer pipe, misplaced
pipe, obstructions or other defects, such defects shall be corrected
to the satisfaction of the Township. The minimum mandrel length and
outside diameter shall be:
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Test Mandrel Construction
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Pipe Diameter
(inches)
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Minimum Mandrel Length
(inches)
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Minimum Mandrel Outside
(inches)
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Diameter
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6
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12.0
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5.32
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8
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17.6
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7.10
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3. Exfiltration
Test (Low-Pressure Air Test). After testing for alignment and flushing
to remove all obstructions, the sewer shall be subjected to a low-pressure
air test as follows:
A. The
sewer being tested shall be properly capped and plugged and carefully
braced to resist the thrust actions developed by the test.
B. If
the sewer to be tested is submerged in groundwater, the depth of groundwater
over the flow line of the sewer must be determined. All test pressures
must be increased by the amount of backpressure due to groundwater.
C. Add
air slowly to the portion of sewer under test until the internal air
pressure is raised to 5.0 psi.
D. After
the internal air pressure of 5.0 psi. is obtained, allow two minutes
for the air temperature to stabilize, adding only the amount of air
necessary to maintain test pressure.
E. After
the stabilization period (minimum pressure in the pipe of 5.0 psi.),
start the stop watch. Determine the time that is required for the
internal air pressure to reach 4.5 psi. Minimum permissible holding
time shall be 10 minutes for six-inch diameter pipe: 12 minutes for
eight-inch diameter; pipe and 30 minutes for twelve-inch diameter
pipe.
F. Should
any test of sewer pipe laid not meet the test requirements specified
above, the contractor shall, at his own expense, locate and repair
the defective sewer pipe until the pipe meets the test requirements.
In-place grouting to repair defective sewer pipe will not be permitted.
G. Safety
precautions must be observed. Plugs must be braced to prevent blowouts.
Pressurizing equipment must be capable of being operated remotely,
and no one should be permitted in the manholes during testing.
1. The
contractor shall vacuum test EACH manhole constructed in his contract.
The tests shall be conducted in the presence of and to the complete
satisfaction of the Township. Should a manhole not satisfactorily
pass the test, the contractor shall discontinue manhole construction
on the applicable contract until such manhole does test satisfactorily.
2. The
contractor shall provide the tools, materials, equipment and instruments
necessary to conduct manhole testing specified herein. Vacuum testing
equipment and associated testing apparatus shall be subject to the
Township's approval. The contractor shall use vacuum apparatus equipment
equipped with the necessary piping, control valves and gauges to control
the air-removal rate from the manhole and to monitor vacuum. An extra
vacuum gauge of known accuracy shall be provided to frequently check
test equipment and apparatus. A seal plate with vacuum piping connections
for inserting in the manhole frame shall be provided.
3. Prior
to testing, the contractor shall thoroughly clean the manhole and
seal the openings, to the satisfaction of the Township. Properly sized
plugs shall be used to seal the opening, taking care to securely brace
the plugs. Testing shall be performed with the frame installed. The
joint between the manhole eccentric cone and the manhole frame shall
be included in the test. The contractor may select to make a test
for his own purposes prior to backfilling. However, all vacuum tests
of the manholes for acceptance shall be conducted only after the backfilling
has been completed.
4. The
contractor shall perform vacuum testing in accordance with the testing
equipment manufacturer's written instructions: a vacuum of 10 inches
of mercury and close the valves. The manhole shall be considered acceptable
when the vacuum does not drop below nine inches of mercury for the
following manhole sizes and themes:
A. Four-foot
diameter: 60 seconds.
B. Five-foot
diameter: 75 seconds.
5. The
contractor shall determine the source or sources of leaks in manholes
failing the vacuum test. The contractor shall repair or replace defective
materials and workmanship, as is the case, and conduct additional
vacuum tests and such subsequent repairs and retesting as required
until all manholes meet testing requirements. All materials and methods
used to make manhole repairs must meet with the Township approval
prior to use. All repairs, replacements and retests shall be made
at no additional expense to the Township.
1. Products.
A. Polyethylene
septic tank shall be 1,000 gallons in capacity and be one of the following:
(1) Heavy-duty type manufactured by AK Industries.
(2) WR-4000 manufactured by Wedco Molded Products.
(3) Norwesco 1,000-gallon single compartment.
B. Manhole frame and cover meeting the specifications found in §
L, must be installed over tank access cover upon a bed of sand or limestone dust using a four-inch concrete grade ring with 4 3/4 concrete anchors.
C. Tank-to-pipe
adapter must be Schedule 40 PVC at tank inlet and SDR-35 at tank outlet.
D. Gaskets,
materials, mastic sealant and screws must provide an odor-free, watertight
installation.
2. Installation.
A. A.K.
Industries Tank, Overexcavate no more than six inches under and around
tank. Place tank on six inches of PA-DOT 2B aggregate. Once the tank
is installed, level backfill excavation with PA-DOT 2B aggregate in
six-inch lifts to the spring line being sure to fill in the corrugations
under the haunches. Fill tank with water to spring line. Install riser
with flared end downward and secure to tank with mastic and 20 stainless
steel screws. Be sure that the tank and riser surfaces are clean and
dry. Place PA-DOT 2B in six-inch lifts around the tank to an elevation
equal to the tank and riser joint. Backfill riser with limestone dust
or sand to an elevation of 13 inches below finish grade. This backfill
material must be two feet in thickness. Approved backfill may be placed
between dust or sand and the limit of excavation. Install four-inch
concrete grade ring and manhole frame and cover to grade and backfill
with topsoil. Install septic tank cover on riser with gasket, material,
and stainless steel screws.
B. Wedco
WR-4000 Tank. Overexcavate no more than 12 inches under and around
the tank. Place six inches of compacted PA-DOT 2 RC aggregate in excavation
for tank base. Install tank level and fill with water to 1/2 tank
depth. Place PA-DOT 2RC aggregate in eight-inch compacted lifts to
the midpoint of the tank. Backfill uniformly around the tank so that
one side is not higher than any other during backfilling. Backfill
must be compacted under inlet and outlet pipes. When making pipe connections,
do not twist or deflect pipe stub installed in the tank. This may
cause damage to baffle within the tank. Install the riser section
with mastic and stainless steel screws. Fill the remainder of the
septic tank with water and backfill with PA-DOT 2 RC aggregate in
compacted lifts to the spring line of the tank. The remainder of backfill
over the tank must be PA-DOT 2 RC aggregate in six-inch layers without
compaction. Backfill riser with limestone dust or sand to the top
of the tank lid. Secure tank lid with gasket material and stainless
steel screws. Seal the threaded plug with pipe dope. Install four-inch
concrete grade ring and manhole frame and cover over the tank lid
to grade.
C. Norwesco
Tank. Excavate to a depth that will provide a minimum of six inches
and a maximum of 30 inches of cover over the top of the tank. Allow
18 inches to 24 inches on all sides of the tank. Bed the tank in well-packed
sand - six-inch minimum in soil terrain, twelve-inch minimum in rocky
terrain. Inlet and outlet piping should be solvent-welded using standard
PVC cement. Prior to backfilling, install manhole extensions. Fill
tank with water as the tank is backfilled with a sand/gravel mix compacting
in twelve-inch lifts. Always compact ends first, making sure to compact
around the inlet and outlet pipes.
3. Testing.
A. Vacuum.
Upon receipt of tanks from the manufacturer, each tank must be vacuum-tested
for structural integrity. The test is conducted by applying a vacuum
of 54 psi to the interior of the tank where deflection of the length
or width cannot exceed two inches after a five-minute test period.
Failure of this test constitutes rejection of this tank. Retest of
failed tanks may be granted by the Township, depending upon circumstances
surrounding the failure. Testing equipment and labor must be supplied
by the contractor or the local supply house.
B. Water.
Once the tank is installed, a water test consisting of a full tank,
including the riser section, must stand for 24 hours without any water
loss to be deemed acceptable. The failure of this test constitutes
the removal and replacement of this tank. Retesting after approved
repairs or component replacement may be approved by the Township.
The contractor must supply the equipment and labor for this test.
4. Cleanout.
A. Within three feet of the outlet of the Wedco WR-4000 tank, a four-inch cleanout must be installed meeting the requirements of the Township as shown in §
U.
1. PVC
Pressure Lateral Pipe. The discharge pipe and fittings (pressure laterals)
for the effluent pumps shall be polyvinyl chloride (PVC) pressure
pipe. The PVC pressure pipe shall meet the requirements of: ASTM D-1785,
Schedule 80, Specification for Polyvinyl Chloride (PVC) Plastic Pipe
Schedule 80 and 120, latest revision. The pipe shall be manufactured
from Class 12454-B rigid PVC compounds with a hydrostatic design stress
of 13.8 Mpa (2,000 psi) designated as PVC 1120. Joints shall be socket
type. Fittings shall be either socket type manufactured from Class
12454-B rigid PVC compounds in accordance with the requirements of
ASTM D-2467. Primed and solvent cement joints shall conform to ASTM
F-656 D-2564.
2. Effluent
Pump Discharge Pipe Testing. This subsection is applicable to the
testing of the discharge piping from the septic effluent pumps to
the sewer lateral connection. The contractor shall conduct pressure
and leakage tests specified below to the Township's satisfaction.
The contractor shall provide the test pump, pipe connections and all
necessary tools, materials and equipment, including the proper test
gauges to show pressure (psi) and flow (gallons per minute), required
to properly perform the testing. The hydrostatic testing equipment
and testing installation shall be satisfactory to the Township prior
to testing, and the testing shall be conducted in the presence of
the Township and to the satisfaction of the Township. Water for the
testing shall be furnished by the contractor. When the pipe to be
tested is completed, it shall be tested as follows: The pipe shall
be filled by the contractor with water a minimum of 24 hours before
the pipe is tested. Extreme care must be taken to ensure that all
air is expelled from the pipe during the filling of the pipe with
water. After the pipe has been filled with water for 24 hours, conduct
the pressure test for a duration of at least four hours. The test
pressure shall be 50 pounds per square inch (psi). A leakage test
shall be conducted concurrently with the pressure test. The contractor
shall provide suitable means to measure the leakage during the pressure
test, and a record of the water added to the pipe shall be kept for
the period of the test. The leakage shall be defined as the quantity
of water that must be added to the pipe to maintain the pressure within
five psi of the specified test pressure. There shall be no leakage
during the four-hour leakage test. In case the pipe fails to pass
the specified leakage test, take corrective measures necessary to
repair the leaks and retest the pipe.
3. Septic
Tank Effluent Pump Assemblies.
A. Basin.
The septic tank effluent pump shall be mounted in the twenty-four-inch
diameter by eight feet zero inches deep basin molded of fiberglass-reinforced
polyester resin with smooth, resin-rich interior surface. The basin
shall have a nominal wall thickness of 1/4 inch. A one-piece stainless
steel antiflotation plate shall be molded into the bottom of the basin.
A circular fiberglass antiflotation flange molded with the walls of
the basin shall also be acceptable. The antiflotation plate shall
have holes for a minimum of four stainless steel anchor bolts for
securing the plate to the reinforced concrete base. The stainless
steel anchor bolts shall conform to ASTM A320, Grade BB, AISC Type
303 or 304.
B. Basin
Cover. The basin cover shall be of three-sixteenths-inch steel coated
with high-temperature-baked epoxy paint. The cover shall be bolted
to the basin with stainless steel cap screws. Cadmium-plated nuts
for the screws shall be embedded in the fiberglass to prevent turning
and for corrosion resistance. Tapped backoff holes shall be provided
in the cover so that the cover can be lifted with screws instead of
prying. Cover shall be sealed with close-cell high-density neoprene
foam gasket. The gasket shall be a minimum of one inch wide by 1/4
inch thick. The gasket shall be cemented to the basin cover.
C. Pump.
The pump shall be a submersible centrifugal-type pump with a heavy
cast-iron motor housing, single vane, enclosed impeller and stainless
steel pump/motor shaft. The pump housing shall be of high-tensile
strength Class 30, ASTM A48, gray cast iron. The casting shall be
treated with phosphate and chromate rinse and painted with high-quality
dry alkyd enamel. The pump shall be capable of handling septic tank
effluent and liquids with temperatures to 140° F. intermittent.
The pump shall be capable of passing three-fourths-inch solids. The
pump shall be capable of discharging 40 GPM against 42 TDH. The pump
shall be Model P50 effluent pump as manufactured by F.E. Myers, or
approved equal. The pump discharge fittings shall be of one-and-one-half-inch
NPT. The pump shall be capable of running dry without damage to components.
The pump motor shall of 1/2 HP (minimum), 115/230 volt, single-phase,
60 Hz, 3,450 RPM. The motor shall be capable of operating over the
full range of the performance curve without overloading the motor
or causing any objectionable noise or vibration. The motor shall be
fully submerged in high-grade turbine oil, have permanently lubricated
heavy-duty bearings (minimum B-10 life of 50,000), and double-tandem
seal configuration. The common motor pump shaft shall be 416 stainless
steel and shall be heat shrunk into the die-cast motor rotor. The
impeller wear ring shall be Type 304 stainless steel. The replaceable
volute sealing ring shall be Buna-N. The top shaft seal shall have
carbon and ceramic seal faces, and the bottom shaft seal shall have
tungsten carbide faces. All external hardware shall be Type 304 stainless
steel. The motor power cord shall be SJOW/SOWA. The cable jacket shall
be sealed at the motor entrance by means of a rubber compression washer
and compression nut. A heat-shrunk tube filled with epoxy shall seal
the outer cable jacket and individual leads to prevent liquid from
entering the motor housing. The permanent split-capacitor motor shall
have a built-in on-winding current, and thermal (stops the motor if
the motor winding temperature reaches 266° F.) overload protectors
with automatic reset switch shall be provided for the motor. Seal
leak detector probes to detect water leakage in the seal housing shall
be provided.
D. Stainless
Steel Lift Chain. The pump shall be equipped with a stainless steel
lifting chain. The chain shall fasten to the pump assembly by means
of a stainless steel clevis. The cabin shall also be secured to the
top of the basin. The chain shall be of the welded-link type and shall
be a minimum of 1/4 inch.
E. Pump Discharge Piping. The discharge piping shall be two-inch Schedule 80 PVC pipe. A union ball valve (see Subsection
3F below) shall be provided to connect the pump discharge piping to the pressure lateral pipe.
F. Shutoff
Valve. A PVC true union ball-type shutoff valve manufactured from
PVC Class 1245B conforming to ASTM D1784 with Vitron O-ring seals
and self-lubricating teflon seats shall be furnished and installed
in the discharge piping.
G. Check
Valve. A PVC double union ball-type check valve manufactured from
PVC Class 1245AB conforming to ASTM D1784 with Vitron O-ring seals
shall be furnished and installed in the discharge piping.
H. Basin
Inlet Flange. A basin inlet flange for four-inch Schedule 40 PVC pipe
shall be provided for field mounting. The flange shall be mounted
in the field at inlet height required by the specific installation.
I. Basin
Inlet Pipe. The polyvinyl chloride (PVC) basin inlet pipe shall be
ASTM D1785, Schedule 40 manufactured from Class 12454-B rigid PVC
compounds designated PVC 1120.
J. Basin
Discharge and Electrical Conduit Connections. These connections shall
be made watertight flanges and adapter furnished by the basin manufacturer
as required for the type and size of pipe.
K. Liquid
Level Controls. Provide three mercury-type float switches to control
pump operations at the levels indicated on the drawings. A PVC float
pole shall also be acceptable. Switches shall be waterproof design
with mercury switch and eccentric weight housed in a smooth, chemical-resistant
polypropylene casing. Provide sufficient heavy neoprene jacketed,
waterproof cables and stainless steel mounting bracket to install
the switches at the elevations shown. Cable attachments shall permit
adjustment of the float level.
L. Junction
Box. The junction box shall be constructed of fiberglass. The junction
box shall have a fully gasket cover held in place by four captive
stainless steel screws that cannot be removed from the cover, with
heads totally encapsulated in PVC so that no metal parts are exposed.
The cover shall be fastened to the main body of the junction box by
means of a totally corrosion-resistant tether to prevent dropping
the cover into the basin. The junction box shall be designed to NEMA
6 standards for occasional submergence. An adequate number of plug-in
connectors shall be provided for incoming pump cord and level control
switches. Waterproof male plugs shall be supplied on the pump power
cord and control cord and the cords for the level control switches
and soul mate to a female socket mounted in the junction box. The
plugs and cords shall be of the proper size to handle the voltage
and current requirements of the pump level switches. The plug and
receptacle shall fit like a cork into the flexible shroud portion
of the male. In addition, individual neoprene shoulders around the
contacts shall fit into recesses in the female section. The cable
shall be neoprene molded, one-piece design, and the connectors shall
have threaded coupling for positive tight connections and quick release.
The mating connectors shall have an indexing tab to ensure proper
alignment.
M. Warranty.
The pump manufacturer shall provide a warranty which guarantees the
pumps to be free from defects in material and factory workmanship
for a period of two years from the date of acceptance by the owner.
All repairs, parts and parts replacement required as a result of such
defects shall be made by the pump manufacturer free of charge to the
owner, including all shipping and handling costs, during the warranty
period.
4. Pump
Control System.
A. Manufacturer.
The control panels described herein shall be manufactured by EG Pump
Controls, Inc., or approved equal. (Manufacturer's representative:
John P. Place, Inc., 90 Clairton Boulevard, Pittsburgh, PA 15236,
telephone: 412-892-2000).
B. General.
The simplex pump control panel shall be of the float-controlled type.
The factory assembled system shall include:
(1) NEMA 4X fiberglass enclosure.
(2) Intrinsically safe controller.
(3) Alarms and sensors as specified herein.
(4) Two-year warranty on all components.
C. Control System Operation. The control system shall provide automatic control for one electric-driven pump specified under §
C herein. The control panel shall be built to accept 230 volts, single-phase, three-wire services. The necessary three float switches shall be supplied and installed by the pump supplier.
(1) The pump basin liquid level shall be monitored and controlled as
follows:
(a) Level 3: high-level alarm.
(b) Level 2: start pump on rising level.
(c) Level 1: stop pump on falling level.
(2) Based upon the liquid level, the float switches shall energize the
appropriate control contacts to start and stop the pump and to energize
an audible and visual alarm.
D. Enclosure.
All control elements shall be housed in an enclosure rated per NEMA
4X standards and suitable for outdoor installation. The enclosure
shall be manufactured corrosion-resistant fiberglass and have provisions
for padlocking. All hardware, including the hinges, latches and padlock
provisions shall be stainless steel. The enclosure shall have a removable
subpanel fabricated from Type 5052-H32, 0.080-thick, marine alloy
aluminum. The enclosure shall have a continuous piano-hinged door
(deadfront) fabricated from Type 5052-H32, 0.080-thick, marine alloy
aluminum. The inner door shall be held closed by two hand-operated
one-fourth-inch turn fasteners. All mounting holes shall be drilled
and tapped. Self-tapping metal screws shall not be used to mount any
components. All bolts, nuts, washers, lock washers, and machine screws
shall be AISC Type 304 or 316 stainless steel. The enclosure shall
have external mounting feet to allow for wall mounting. The contractor
shall wall-mount the enclosure using AISC Type 304 and 316 stainless
steel fasteners and anchors. The contractor shall provide a padlock
conforming to the requirements of Federal Specifications FF-P-106
for each panel. All padlocks shall be keyed alike and shall be keyed
into the Logan Township master key system. Six keys shall be provided.
E. Logic
Controls. The simplex logic control shall consist of an intrinsically
safe controller mounted on the subpanel and the pilot devices operable
without opening the inner door (deadfront). The control circuit shall
be protected by a separate 15A circuit breaker.
F. Intrinsically
Safe Controller. The controller shall consist of a single solid-state
module designed for ease of maintenance and replacement, complete
with diagnostic capabilities. The use of individually mounted components
will not be acceptable. The controller shall be EG Pump Controls,
Model No. SIR-24-123.
(1) The controller shall consist of:
(a) Hand-Off-Auto selector switch.
(b) Call-to-run indicating light.
(c) Float condition indicator light/test switch. Each float shall have
an indicator lamp to indicate when the control circuit is energized
and one normally open spring return test switch to test pump operation.
(d) 16 amp @ 120 volt rated output contacts (for starters and alarms).
(e) 100 microamp @ 5 volt float control.
(f) Artificial intelligence to detect float switch failure. Should any
float fail, the sequence of operation shall automatically shift to
the next float (i.e., if FS1 "Off float fails, then FS2 shall become
the "Off" float and FS3 shall become the "Start Pump and High Level
Alarm" float).
(2) Separate metal barriers shall be supplied to completely isolate intrinsic
safe wiring from all other wiring within the control panel enclosure.
G. Alarms.
The following alarms shall be provided:
(1) Elapsed Time Meter. A nonresettable elapsed time meter shall be mounted
on the deadfront to indicate pump run time. The elapsed time meter
shall have five digits for hours, one digit for 1/10 hours, and one
digit for 1/100 hours. A rotating mechanical indicator on the front
of the elapsed time meter shall rotate to indicate that the meter
is running.
(2) Seal Failure. A moisture-sensing system shall be installed and connected
to the relay logic to illuminate an amber neon indicator on the inner
door. Sensitivity shall be 60K ohms minimum. (Moisture-sensing probes
shall be supplied and installed in the pumps by the pump manufacturer.)
(3) Pump Over-Temperature (Auto Reset). The over-temperature sensor shall
lock out the pump motor starter and illuminate a red neon indicator
on the inner door.
(4) Overload Trip. A contact on the overload relay shall be used to illuminate
a red neon indicator on the inner door indicating a tripped condition.
The circuit shall require a manual reset push-button.
(5) Control Circuit Breaker Trip. A red neon indicator on the inner door
shall be illuminated indicating a tripped condition.
(6) High-Level Alarm Pilot Light. A full size (13/16 inch), oiltight
pilot shall be mounted on front of the enclosure door. The pilot light
shall be full voltage and shall include a closed-cell neoprene gasket
to ensure watertight integrity. The lamp and socket shall be removable
from the inside of the enclosure.
(7) Audible Alarm. A NEMA 4X encapsulated electronic horn shall be mounted
on the side of the enclosure. Audible rating of the horn shall be
a minimum of 85 decibels at two feet.
H. Silence
Push-Button. A heavy-duty oiltight push-button located on the side
of the enclosure shall be provided to silence the horn during an alarm.
The alarm condition shall automatically reset itself upon lowering
of the level.
5. Power
Handling.
A. Main
Lugs. Main lugs of the appropriate size shall be furnished for connecting
the incoming supply power. The lugs shall be suitable for use with
aluminum or copper conductors. Pump motor circuit breaker line side
lugs shall not qualify as main lugs.
B. Ground
Lugs. Ground lugs of appropriate size shall be bolted to the subpanel.
Individual lugs shall be provided for incoming power and pump connection.
C. Motor
Circuit Protection. Motor circuit protection shall be selected in
accordance with the National Electric Code and be either a thermal
magnetic circuit breaker or magnetic motor circuit protector. The
breaker shall be interlocked with the deadfront so that the deadfront
may not be opened with the breaker in the ON position. Thermal magnetic
breakers shall comply with Federal Specification W-C 3 57A as Class
2 breakers. Symmetrical amperes interrupting ratings are 10,000 amps
minimum for 240-volt rated breakers. Magnetic motor circuit protector
shall have an adjustable instantaneous trip setting. Circuit breaker
toggles shall be operated through cutouts in the inner door (deadfront).
A circuit breaker shall be installed for the control circuit in place
of a fuse.
D. Motor
Starters. Motor starters shall be full voltage - non reversing (FVNR)
rated for 1,000,000 full load operations minimum. Motor starters shall
have three poles, Class 10, ambient compensated overload relays with
automatic reset capability. All starters shall be size 00 minimum.
6. General
Features. The following components shall be provided:
A. Receptacle.
A duplex 120 VAC GFI receptacle shall be mounted in the enclosure.
B. Lightning/Surge
Arrestor. A lightning/surge arrestor connected to the main circuit
breaker. The lightning arrestor shall meet or exceed the requirements
of ANSI/IEEE Standard C62.1-1984, Sections 8.6.1 and 8.7.3.
C. Space
Heater. A heating system shall be supplied to maintain the interior
temperature 2°-3° F. above ambient temperature to prevent
corrosion due to condensation.
D. Wiring
Diagram. Each panel shall have a complete laser-screened laminated
Mylar wiring diagram (5 mil thickness minimum) placed on the inner
door. The diagram shall contain an electrical schematic, physical
component layout, and a complete bill of materials.
E. Wiring
Channel. All wiring within the enclosure shall be neatly bundled inside
a wiring channel. The channel shall have a removable cover for ease
in troubleshooting.
F. UL
Label. All control panels must have the capabilities and functions
as outlined above and be assembled by a UL "ENCLOSED INDUSTRIAL CONTROL
PANEL" label within the enclosure door to assure a high grade of quality.
G. Nameplates.
All nameplates shall be weatherproof laser-screened laminated Mylar
(five mil thickness minimum), gold in color with black letters. A
nameplate shall be supplied to identify each switch, pilot light,
and all components mounted to the back panel. Nameplates shall be
attached such that all weather conditions shall not permit peeling.
H. Testing.
Each panel shall be shop-tested to assure proper operation of every
function. Test records shall be furnished to the Engineer prior to
final approval of the control panel.
I. The
control system shall include any additional devices required by the
pump manufacturer to validate the pump warranty.
J. The
manufacturer of the pump controller shall warrant it to be free from
defects in materials and workmanship for two years from the date of
acceptable installation as determined by the owner.
7. Electrical
Work.
A. Codes/Rules/Ordinances/Certificates.
(1) All the electrical work, materials, and methods of installation to
satisfactorily complete the contract shall comply with the following:
(a) The National Electrical Code (NEC).
(b) The National Electric Safety Code.
(c) The Federal Occupational Safety Health Act (OSHA).
(d) Installation rules and requirements of the Pennsylvania Electric
Company.
(e) Regulations and ordinances of Logan Township.
(f) Federal and state codes and regulations applicable to the project.
(2) All of the above-specified regulations shall be of the latest published
edition. These are hereby to be part of the contract documents. If
conflict between these written specifications and the reference codes
and regulations exist, the codes and regulations shall take preference.
(3) The contractor shall be solely responsible for obtaining all permits
and inspections for approval and shall pay all fees for procuring
permits and certificates pertaining to the electrical work.
(4) The contractor shall produce an inspection certificate or panel label
at the completion of the contract. This shall be done by the prevailing
authority regarding the installation and execution of this work. All
costs for this service shall be solely borne by the contractor.
B. Tests.
The tests and demonstrations shall be performed at the completion
of the work and shall show that all work and materials for this contract
are performing to their original intent and comply with the NEC.
C. Intent.
Should anything be omitted from either plans or specifications, which
is usual practice in first-class electrical work and is essential
or necessary for the proper completion of the electrical work in the
opinion of the Township, it shall be furnished by the contractor as
though herein definitely specified or shown on the drawings. Should,
in the contractor's opinion, the electrical work shown or specified
prevent the installation of a first-class efficient plant or be inconsistent
with such a result, he shall so notify the Township in writing when
submitting his proposal. Electrical system layouts indicated on drawings
are generally diagrammatic, and location of equipment is approximately
correct; exact routing of conduit and locations of equipment shall
be governed by structural conditions and obstructions. This is to
be coordinated with an approval by the Township. The drawings shall
not be scaled. The right is reserved to make any reasonable change
in location of outlets and equipment prior to rough-in without involving
additional expense.
D. Materials
and Equipment. The installation shown on location plan sheets and
more particularly described hereinafter shall be made by competent,
skilled mechanics using the best of new materials. The various materials
and apparatus hereinafter specified denote the standard of quality
desired and shall be adhered to unless otherwise directed or approved
by the Township. Materials and appliances of the types for which there
are Underwriters' Laboratories standard requirements, listing and
labels shall conform to their requirements, in which case certified
statements and examination reports by a recognized independent testing
laboratory acceptable to the Engineer are required. All materials
and equipment offered under these specifications shall be limited
to products regularly produced and recommended by the manufacturer
for the service intended. The materials and equipment shall have capacities
and ratings sufficient to amply meet the requirements of the contracts.
Equipment shall be installed in strict accordance with manufacturer's
instructions for type and capacity of each piece of equipment used.
The contractor shall obtain these instructions from the manufacturer,
and these instructions shall be considered part of these specifications.
Insofar as possible, use one type and quality.
(1) The following materials and equipment will be required for the electrical
work under the scope of this contract. Equipment provided must be
similar to the catalog cut sheets attached.
(a) 100 AMP, 12 space, rainproof load center.
(b) 100 AMP, 20 space, interior load center.
(c) 100 AMP, interior, breaker type, service disconnect.
(d) Stainless steel pedestal.
(e) Stainless steel mounting plate.
(f) 100 AMP meter socket Kilowatt-hour (KWH) meter.
(2) The following materials and equipment will be required (but not all
inclusive) for this electrical work under these contracts:
(c) 100 AMP, three-wire, twisted, direct burial cable two-inch.
(d) PVC, Schedule 40 conduit.
(e) Two-inch rigid steel conduit (mast).
(f) Three-fourths-inch rigid steel conduit.
(g) Three-fourths-inch coated rigid steel conduit.
(i) No. 10 copper wire stranded.
(k) No. 6 copper ground wire.
(l) Single-pole circuit breakers.
(m) Double-pole circuit breakers hangers.
(p) Antioxidant paste fasteners.
E. Cutting
and Patching. The contractor shall do all cutting, chasing, and drilling
required and necessary in connection with his work. All such cutting,
chasing, and drilling shall be done in a workmanlike manner without
disfiguring or weakening the exterior of buildings, or any other work.
The contractor shall be held responsible for any damage or defects
due to neglect or carelessness on the part of his employees in connection
with the work.
F. Underground
Work. Underground work shall include all excavating, conduits, and
backfilling required under this contract. The contractor shall be
responsible for clearing all underground service line, such as sanitary
and drainage piping. All excavation, trenching, backfilling, and compaction
for electrical work shall be as set forth in the applicable sections
of the General Technical Provisions, unless otherwise modified by
this section of the Detailed Technical Provisions. Trench excavations
shall be made by open cut to proper alignment and grade. Trenches
shall be of sufficient width to provide free working space on each
side of the conduit(s) to a maximum of the conduit's or conduits'
width plus 12 inches. In earth excavation, the trench shall be carried
to the elevations indicated on the drawings. Where rock is encountered,
the trench shall be carried to a point six inches below the bottom
of the conduit. Conduits shall not be allowed to rest directly upon
the rock but shall be cushioned by a six-inch layer of PennDOT 2RC
aggregate. Open trenches under driveways or other paved areas the
entire depth of trench shall be backfilled with PennDOT 2RC aggregate
in accordance with the applicable provisions of Section GT-33(d),
"Trench Backfilling," of the General Technical Provisions of these
contract documents. Upon completion of the backfill and construction
operations, all excess soil, rocks, trash and debris shall be removed
from the site and the construction area left neat and clean. Under
no circumstances shall excavated material remain, even temporarily,
where it will interfere with the project or other contractors' operations.
Where excavation is required in seeded areas, the seeded areas shall
be graded to match the existing grade and reseeded as specified herein.
G. Conduit.
All conduits shall be installed in accordance with applicable provisions
of the NEC, using approved fittings and couplings and as specified
herein or as shown on the drawings. Rigid steel conduit shall be full-weight,
heavy-wall, mild steel pipe with a protective coating inside and outside
by sheradizing or galvanizing methods conforming to Federal Specifications
WW-C-581. Rigid steel conduit installed underground shall be coated
with two coats of bitumastic paint. Rigid PVC conduit shall be high-impact,
Schedule 40 (except where required by NEC to use Schedule 80) PVC
conduit and fittings conforming to NEMA. Specifications TC-2, 90C,
UL-rated and labeled and made from compounds conforming to ASTM D1784.
PVC conduit shall have material strengths of 5m500 psi tensile, 11,000
psi flexural and 8,600 psi compression; all at 78° F. In all instances,
couplings and outlet connectors shall be made tight. Bends in rigid
galvanized steel conduit shall be made only with approved mechanical
benders. Fittings shall be constructed of the same material as the
conduit to which they are attached and shall comply with the requirements
of the National Electrical Code, Article 370, for materials and uses
in conduit systems and Federal Specification W-J-800C. No set-screw
or indented-type connectors or couplings will be permitted on the
contract. All conduit shall be run as straight and direct as possible
to reduce the number of bends. Conduit shall be installed in such
a manner that wire may be removed and replaced at any later date.
Running threads will not be permitted. Approved threaded couplings
shall be used. All couplings shall be pulled up tight and made waterproof
in such a manner as to not interrupt the electrical bond.
H. Installation
of Wire. All wiring shall be installed in accordance with the applicable
provisions of the NEC and specified herein or shown on the drawings.
Conductor sizes shall be in accordance with sizes shown on the drawings.
Conductor sizes shall not be less than No. 12 AWG for branch circuits
whose total length from panel to center outlet exceeds 100 feet, including
switch leg. Conductors shall be continuous from outlet to outlet,
and no splices or joints shall be made except in outlet boxes. Conductors
for secondary distribution circuits for installation in raceways shall
be high-conductivity copper metal, 600 volts with thermoplastic insulation
of heat-resistant grade, Type THW or TBHN. All wiring shall be installed
in rigid galvanized steel or PVC conduit, as indicated otherwise on
the drawings and specified herein. Aboveground conduit runs shall
be surface-mounted as specified on the drawings. Make taps and splices
in wire No. 8 and smaller mechanically tight by using Western Union
or pigtail splice. Splices may be made with copper-sleeve-type solderless
connectors such as manufactured by Buchanan Electrical Products Co.,
Scotch-Lok or equal. The pressure tool shall take three or more indentions
in the solderless connector, and the solderless connector shall be
insulated with a vinolite insulating cap. Make taps and splices in
wire No. 6 and larger by means of brass or copper pressure connectors
applied after wire has been cleaned; make tight and fully insulate
as specified in these Specifications. Use parallel taps where necessary
to conserve space. The sizes of wire specified herein or as shown
on the drawings are the minimum that will be acceptable. Wire and
cable shall be as follows: building wire - No. 12 AWG through No.
750 MCM AWG - 600 volt - Type THW or THEN thermoplastic insulation.
Wiring in the pump basin must be UL-approved to meet the requirements
for use in Class I, Group D, Division 1, locations as defined in Article
500, "Hazardous Locations," of the National Electrical Code.
I. Grounding.
All conduit, motors, and equipment installed under this contract shall
be properly bonded and grounded. Method and size of ground wire shall
be installed in accordance with the NEC, latest edition, and the National
Fire Protection Association. A bonding jumper shall connect the grounding
terminal of all receptacles to the grounded box. Bonding jumpers shall
be of copper or other corrosion-resistant materials and shall be of
sufficient size to have a current-carrying capacity not less than
is required in Table 250-95 of the NEC. The jumper shall be connected
to the grounded box by means of a grounding screw which shall be used
for no other purpose. All grounding wire shall be green color coded
and may be run in the same conduit or raceway as phase and neutral
wires. Neutral wiring systems will not be used for the purpose of
grounding. No ground wire may be less than No. 12 AWG wire and shall
conform to the capacity as set forth by NEC, as specified above. The
entire system shall be grounded by means of a connection between the
system and a driven ground rod system on the exterior of the building
in the earth.
J. Disconnects.
Switches shall be heavy-duty, enclosed, nonfusible switches with NEMA
3R weatherproof enclosure. All current carrying parts shall be plated
with a suitable material such as silver to prevent corrosion and oxidation.
Switches shall be rated 250 or 600 volts, AC, as indicated on the
drawings. Switches shall be I-T-E, Square "D" or approved equal. Provide
ground lugs in all switches.
K. Wire
Identification. Factory color code all wires per the schedule below.
Identify wires by the actual circuit number of all important junction
boxes. Wiring shall be one-phase as indicated on the drawings.
|
Wire
|
120/208 or 120/240
|
---|
|
Neutral
|
White
|
|
Phrase "A"
|
Black
|
|
Phase "B"
|
Red
|
|
Phase "C"
|
Blue
|
|
Ground
|
Green
|
8. Electrical
Service.
A. The
contractor shall provide and install a complete electrical service
for each pumping installation as detailed on the contract drawings.
B. In
general, this service shall include:
(1) A complete 120/240 volt, one-phase, three-wire underground service.
C. Provide
all necessary accessories and appurtenances for a complete and operational
system as herein specified and as shown on the drawings.
D. The
contractor shall install the electrical service to the pump control
system from the property owner's existing panelboard and provide all
necessary accessories and appurtenances and pay all costs involved.
The contractor shall coordinate and schedule his work with the property
owner to reduce disruption of the property owner's activities. Any
damage to private property of the property owner shall be corrected
by the contractor, at the contractor's sole expense, to the satisfaction
of the property owner and the owner.
E. If
100 amp minimum capacity is not existing, the contractor shall upgrade
existing service to meet 100 amp minimum requirement. The contractor
shall verify the new complete service entrance with the utility company
to assure that it complies with their requirements and make changes
as necessary.
All manhole/cleanout covers and frames shall fit properly to
prevent "clanking." "Clanking manhole/cleanout covers shall be machined
to produce a proper fit, or "clanking" manhole/cleanout covers shall
be removed.
1. Unless
otherwise noted on the contract drawings, all concrete used shall
be PennDOT Class A concrete (6.00 bags/cubic yard). There will be
no admixtures allowed unless approved by the Township Engineer. The
concrete shall be in accordance with all applicable provisions of
PennDOT Publication Form 408 Specifications, latest edition. All references
to "concrete" on the contract drawings and in these Specifications
and contract documents shall mean "cement concrete." Where "bituminous
concrete" is specified or meant, it shall be noted "bituminous concrete."
2. All
reinforcing steel shall be deformed as defined in ASTM Specifications.
All reinforcing steel, unless noted on the contract drawings, shall
be Grade 60 as defined in the American Society for Testing and Materials,
"Specifications for Steel Bars of Concrete Reinforcement" (ASTM A615,
A616, or A617). Bar and rod mats for concrete reinforcement shall
conform to specifications for "Fabricated Steel Bar or Rod Mats for
Concrete Reinforcement" (ASTM A184).
1. The
epoxy cement grout shall be a moisture-insensitive, solvent-free,
high-solids, high-modulus, epoxy-resin grout formulated of epoxy component
and selected silica aggregate in a preproportioned package. The grout
properties shall be as follows;
A. Compressive
strength, ASTM D695: minimum 12,000 psi in 28 days at 73° F. ambient
and material temperature.
B. Flexural
strength, ASTM D970: minimum 3,800 psi in 28 days at 73° F., ambient
strength and material temperature.
C. Tensile,
shear strength, ASTM D638: minimum 1,500 psi in 28 days at 73°
F., ambient and material temperature.
D. Acceptable
manufacturers:
(1) Sika Corporation: Sikadur Grout-Pak;
(2) The Euclid Chemical Company: Poly-Patch;
2. Surfaces
to receive the grout shall be prepared in accordance with the manufacturer's
instructions. The epoxy cement grout shall be mixed in accordance
with the manufacturer's instructions for preconditioning and two-component
mixing. Place the grout in accordance with the manufacturer's instructions.
1. Wye
connections and service laterals shall be provided for each house
and building and at vacant lots as directed by the Township. The location
of the wye connections and the service laterals will be determined
by the Township. Laterals shall run from the wye connection to the
right-of-way line or property line as shown on the drawings and as
directed in the field by the Township. Where directed by the Township,
a drop-type service lateral shall conform to the applicable details
on the drawings. Pipe caps shall be installed at the ends of all laterals.
All lateral end points shall be designated by using a wooden post
no less than two inches by four inches and shall extend from the lateral
stub to two feet above the ground surface. Each marking post shall
clearly indicate the depth to the lateral stub.
2. Wye
connections, service laterals, fittings and caps shall be PVC pipe
conforming to ASTM D3034, SDR 35, as specified therein.
3. Wye
connections must be installed CONCURRENT with the installation of
the sanitary sewer pipe. Under no circumstances will the contractor
be permitted to install the wye connections subsequent to sanitary
sewer pipe installation.
Cleanouts shall be constructed as detailed on the contract drawings.
The pipe shall be as specified herein. Concrete shall be as specified
herein. The client frames shall be an Allegheny Foundry Company Pattern
345, or approved equal, having ten-and-one-half-inch openings. The
cleanout covers shall be Allegheny Foundry Company Pattern No. 346,
or approved equal, marked "SEWER." The frame shall be secured to the
concrete encasement, as detailed on the drawings.
1. Materials
and Method of Construction. All materials and methods of construction
for restoration of disturbed areas shall comply with the applicable
sections of PennDOT Publication 408 Specifications, latest edition.
A. Section
305: Bituminous Concrete Base Course.
C. Section
401: Plant Mixed Bituminous Concrete Base.
D. Section
420: Bituminous Wearing Course ID-2 and Bituminous Wearing Course
ID-2, RPS.
E. Section
421: Bituminous Binder Course ID-2 and Bituminous Binder Course ID-2,
RPS.
F. Section
460: Bituminous Tack Coat.
G. Section
491: Milling of Bituminous Pavement Surface.
H. Section
630: Plain Cement Concrete Club.
I. Section
641: Plain Cement Concrete Curb Gutter.
J. Section
653: Paved Should, Type 3.
K. Section
703.3: Select Granular Material.
L. Section
802: Topsoil Furnished and Placed.
M. Section
804: Seeding and Soil Supplements.
O. Section
806: Water Course Erosion Protection.
P. Section
962: Painting Traffic Lines and Markings.
2. Pennsylvania
Department of Transportation Roadways. Repaving of Pennsylvania Department
of Transportation (PennDOT) roadways shall be as specified herein
and as shown on the contract drawings.
A. On
all PennDOT roadways, the upper 1 1/2 inches of existing pavement
shall be milled in preparation for the overlay pavement in accordance
with PennDOT Publication 408 Specifications, Section 491.
B. Prior
to placement of the overlay pavement, condition the milled surface
in accordance with PennDOT Publication 408 Specifications, Section
401.3(f).
C. Patch
existing pavement to the satisfaction of the Pennsylvania Department
of Transportation.
D. Repair
or replace, to the satisfaction of the utility owner, utility facilities
damaged by the milling operation.
E. Prior
to placing the finished pavement, paint the inside faces of existing
curbs and curb and gutter sections with a thin application of asphaltic
compound to provide a closely bonded watertight joint.
F. Remove
all surplus material to the satisfaction of the Township Engineer
and PennDOT.
3. Logan
Township and City of Altoona Roadways. Repaving of Logan Township
(and City of Altoona) streets will require conforming to the standards
and specifications of each entity that are in effect at the time of
construction and do not necessarily follow what roadway material is
excavated from the construction area.
4. Stabilized
Areas. Restoration of stabilized areas shall be completed as detailed
on the drawings and as set forth in the contract documents. The contractor
is to understand that since the pipe trenches under stabilized areas
will be backfilled with PennDOT 2RC select granular material, there
will be no payment for restoration of stabilized areas. Contractor
shall grade, shape and compact the full width of the stabilized roadway
and all other stabilized areas.
5. Ninety-Day
Temporary Pavement Restoration. Refer to drawings for requirements
for ninety-day temporary pavement restoration on Pennsylvania Department
of Transportation roadways.
6. Prior
to placing the bituminous concrete overlay pavement, apply a bituminous
tack coat consisting of a thin application of emulsified asphalt at
such rate and in such manner as set forth in PennDOT Publication 408
Specifications, Section 460.
7. The
contractor shall adjust existing shoulders, driveways, street approaches,
accesses, businesses, parking areas, etc., to conform to the finished
pavement elevation. This work will be considered incidental to the
placement of the bituminous wearing course and will not be paid for
separately.
8. Restoration
of driveways, street approaches, sidewalks, parking areas, curbs,
curb gutters, etc., shall be replaced "IN KIND," in accordance with
PennDOT Standards or as detailed on the drawings and in the contract
documents. As a minimum, concrete pavement restoration shall be six
inches thick with six by 6 4/4 welded wire fabric reinforcing,
and bituminous concrete pavement restoration shall be four inches
thick, after proper compaction, PennDOT bituminous concrete base course
with a one-inch-thick, after proper compaction, PennDOT bituminous
wearing course ID-2, SRL-L. Cement concrete curb and cement concrete
curb gutter shall be replaced to the same shame, thickness, workmanship
and finish as the original curb or curb gutter unless otherwise required
by the Township.
9. All
pipe trenches under bituminous concrete surfaces and stabilized surfaces
shall be backfilled with PennDOT 2RC select granular material. The
contractor is to understand that payment for this backfill material
will not be made directly but will be considered incidental and subsidiary
obligations to the other pay items as set forth in the contract form
of proposal.
10. Prior
to the placement of the permanent pavement, the existing pavement
must be concrete saw cut in a neat, straight line, to the bottom elevation
of the existing base course, one foot on each side of the trench removed,
or the existing pavement shall be removed to the edge of the existing
pavement, if so directed by the Township Engineer. No separate payment
will be made under this project for removing existing pavement. The
contractor must adjust all necessary storm inlets of the Pennsylvania
Department of Transportation, Township of Logan and City of Altoona
and shall be responsible to coordinate (and bear the cost of, if required)
the adjustment of all private and public utilities (valve boxes, curb
boxes, manhole covers and cleaned covers) to conform to the finished
pavement elevation. No separate payment will be made under this project
for adjusting the height of storm inlets and utility boxes.
11. All
joints between the new pavement and existing pavement, between curbs
(curb gutters) and new pavement and around storm inlets, valve boxes,
curb boxes, manhole covers and cleaned covers shall be sealed with
a hot bituminous material of the class and type designated for the
wearing course. The hot bituminous material shall have a minimum width
of 12 inches at the joints and shall extend 12 inches from the curb
(curb gutters), storm inlets, valve boxes, curb boxes, manhole covers
and cleanout covers. Prior to sealing, clean and free harmful material
from the area to be sealed.
12. The
contractor shall perform temporary restoration of trenched areas immediately
upon satisfactory completion of laying and backfilling of the sewer
pipe in order to return all roadways to a condition that will permit
safe, free and unobstructed movement of vehicular and pedestrian traffic.
Failure of the contractor to comply with this requirement will constitute
sufficient cause of the Township to order an immediate stoppage of
all construction work until trench restoration requirements are completed
to the satisfaction of the Township.
13. Dust
Control. The contractor shall provide effective dust control during
the entire project. Dust control shall be accomplished by the use
of water or calcium chloride or by other methods approved by the Township.
The contractor shall be required to make the connections between
existing sewer laterals, sewer mains and manholes owned by the Township
or any other municipal entity. The construction of each connection
shall be completed in strict conformance with the drawings and the
requirements of the applicable public entity. The contractor shall
furnish all pipe, fittings, couplings, adapters and other materials
necessary to make the connections. The contractor shall take all necessary
precautions and provide the necessary plant, labor, materials, and
equipment to prevent interruption of the flow in the existing sewers.
The contractor shall be responsible for and shall correct, to the
satisfaction of the public entity and the owner, any and all damages
to the existing manhole sewage treatment plant and sewer lines caused
by the contractor's operations. All pipe and fittings shall be as
specified herein for sanitary sewer pipe and laterals.
When required by Chapter
18 of the Logan Township Code of Ordinances, the installation of a water meter upon the portable water sources must meet the Altoona Water Authority Specifications as amended from time to time.
Prior to final acceptance of any sanitary sewer extension by
the Township, the developer shall furnish to the Township "as-built
plans" showing the angle and distance between manholes, the top and
invert elevation of each manhole and the exact location of all sewer
lateral connections relative to the nearest manhole both downstream
and upstream, including the depth at lateral end.