A.
Buildings. Every building equipped with plumbing fixtures
and used for human occupancy or habitation shall be provided with
a potable supply of cold water in the amounts and at the pressures
specified in this chapter. For permanent residences or buildings in
which people are employed, hot water shall be provided. The hot water
supply to any fixture requiring hot water shall be installed on the
left side of the fixture.
B.
Use of non-potable water prohibited. Only potable
water shall be accessible to plumbing fixtures supplying water for
drinking, bathing, culinary use or the processing of food, medical
or pharmaceutical products.
A.
Size of water service. The water service pipe shall be of sufficient size to furnish water to the building in the quantities and at the pressures required elsewhere in this code. It shall in no case, be less than 3/4 inch nominal diameter. Methods for sizing the water service pipe are described in Article XVI.
(1)
Protection of water service. Newly installed or replaced
water service piping shall be provided with a backflow device located
at or near the water meter. Dual check valves, double check valves,
and reduced pressure zone type backflow preventers are acceptable
for the purpose of this section.
B.
Separation of water service and building sewer.
(1)
Except as permitted below, the underground water service
pipe and the building drain or building sewer shall be not less than
10 feet apart horizontally and shall be separated by undisturbed or
compacted earth.
(2)
The water service pipe may be placed in the same trench
with the building drain and building sewer provided approval is given
by the Administrative Authority and the following conditions are met:
(a)
The bottom of the water service pipe, at all
points, shall be at least 12 inches above the top of the sewer line
at its highest point.
(b)
The water service pipe shall be placed on a
solid shelf excavated at one side of the common trench.
(c)
The number of joints in the service pipe shall
be kept to a minimum.
(d)
The sewer material shall be of an approved type.
(e)
Where the location of plumbing fixtures in the
building make it impracticable due to lot condition and/or topography
either to maintain a horizontal separation of 10 feet between water
service lines and building drain or sewer lines, or a vertical separation
of one foot with the water service pipe above the building drain or
sewer, the water service pipe shall be enclosed in a continuous, impervious
plastic sheath with ends properly sealed below grade from where required
separations are not met to a point not less than six inches above
the top of the finished concrete floor, minimum water line and sewer
line depths required by this code shall be adhered to at all times.
The Administrative Authority shall notify the homeowner of the existence
of any plastic sheathing used outside the building foundation. This
notification shall be included in the final inspection certificate.
C.
Water service near sources of pollution. Potable water
service pipes shall not be located in, under or above cesspools, septic
tanks, septic tank drainage fields or seepage pits. A separation of
10 feet shall be maintained. Where the water service must cross the
sewer line, the bottom of the water service within 10 feet of the
point of crossing, shall be at least 12 inches above the top of the
sewer line. The sewer line shall be of approved material at least
10 feet on either side of the crossing.
D.
Water service pipe through wall. Clearance shall be
provided around a water service pipe passing through walls to protect
against (a) chemical action from direct contact with concrete, (b)
distortion or rupture of water service pipe from shearing action due
to settlement, (c) distortion or rupture of the water service pipe
caused by expansion or contraction. Sleeves or wall seal shall be
a minimum of one pipe size larger than the pipe passing through or
arches may be used to provide the wall opening. The space between
the pipe and wall structure shall be carefully packed or caulked with
lead or waterproof and rodent resistant material.
The design of the building hot and cold water distribution system shall conform to good engineering practice. Methods used to determine pipe sizes shall be acceptable to the Administrative Authority. (A guide to the design of building water supply systems is given in Article XVI.)
A.
Size of fixture supply. The minimum sizes of a fixture
supply pipe shall be shown in Table 860-177A, "Minimum sizes of Fixture
Water Supply Pipes." The fixture supply pipe shall be extended to
within at least 30 inches of the point of connection to the fixture.
|
Table 860-177A
Minimum Sizes of Fixture Water Supply
Lines
| ||
|---|---|---|
|
Type of Fixture or Devices
|
Nominal Pipe Size
(inches)
| |
|
Bathtubs
|
1/2
| |
|
Combination sink and tray
|
1/2
| |
|
Drinking fountain
|
3/8
| |
|
Dishwasher (domestic)
|
1/2
| |
|
Kitchen sink (residential)
|
1/2
| |
|
Kitchen sink (commercial)
|
1/2
| |
|
Lavatory
|
3/8
| |
|
Laundry tray, 1, 2, or 3 comp.
|
1/2
| |
|
Shower (single head)
|
1/2
| |
|
Sinks (service, slop)
|
1/2
| |
|
Sinks, flushing rim
|
3/4
| |
|
Urinal (flush tank)
|
1/2
| |
|
Urinal (direct flush valve)
|
3/4
| |
|
Water closet (tank type)
|
3/8
| |
|
Water closet (flush valve type)
|
1
| |
|
Hose bibbs
|
1/2
| |
|
Wall hydrant
|
1/2
| |
B.
High street main pressures. Where the service water
pressure to a building exceeds 80 psi, an approved water pressure
regulator with strainer shall be installed to reduce the pressure
to the building. Sill cocks and outside hydrants and fire line supply
may be left on full main pressure at the option of the owner. The
pressure reducing valve shall be set to reduce the water pressure
to 80 psi or lower, depending on the building requirements. A gauge
shall be installed on the house side of said pressure regulator in
an accessible location for inspection and repair.
C.
Water hammer. All building water supply systems in
which quick acting valves are installed shall be provided with devices
to absorb high pressures resulting from the quick closing of these
valves. Mechanical Devices: Where mechanical devices are used the
manufacturer's specifications shall be followed as to location and
method of installation.
D.
Inadequate water pressure. Whenever water pressure from the street main or other source of supply is insufficient to provide flow pressures at fixture outlets as required under Subsection G, a booster pump and pressure tank or other approved means shall be installed on the building water supply system.
E.
Variable street pressures. Where street water main
pressures fluctuate, the building water distribution system shall
be designed for the minimum pressure available.
G.
Minimum pressures required in water distribution system.
Based on the minimum static water pressure available, pipe sizes shall
be selected so that under conditions of peak demand a minimum flow
pressure at the point of discharge shall not be less than shown in
Table 860-177G, "Minimum Flow Pressure and Flow Rates."
|
Table 860-177G
Minimum Flow Pressure and Flow Rates
| |||
|---|---|---|---|
|
Location
|
Flow Pressure
(psi)
|
Rate
(gpm)
| |
|
Ordinary basin faucet
|
8
|
2.0
| |
|
Self-closing basin faucet
|
8
|
2.5
| |
|
Sink faucet, 3/8 inch
|
8
|
4.5
| |
|
Sink faucet, 1/2 inch
|
8
|
4.5
| |
|
Bathtub faucet
|
8
|
6.0
| |
|
Laundry tub cock, 1/2 inch
|
8
|
5.0
| |
|
Shower
|
8
|
5.0
| |
|
Ball-cock for closet
|
8
|
3.0
| |
|
Flush valve for closet
|
15
|
15.35
| |
|
Flushometer valve for urinal
|
15
|
*15.0
| |
|
Drinking fountains
|
15
|
0.75
| |
|
Sill cock-Wall hydrant
|
10
|
5.0
| |
|
NOTE:
| ||
|---|---|---|
|
*
|
Wide range due to variation in design and type
of flush valves.
| |
A.
Water supply control valves.
(1)
Stop and waste valves prohibited. Combination stop-and-waste
valves or cocks shall not be installed underground in water service
piping.
(2)
Curb valve. On each water service from a street main
to a building an approved gate valve or ground key stopcock shall
be installed near the curbline between the property line and the curb.
This valve or stopcock shall be provided with an approved curb valve
box and shall not be under a driveway.
(3)
Building valve. Each building water service shall
be provided with a shut-off valve located inside the building near
the point the water service enters.
(4)
Meter valve. Where a shut-off valve is installed in
the line on the discharge side of a water meter, the valve shall not
be less than the building water service.
(5)
Riser valves. Except in single family dwellings a
valve shall be installed at the foot of each water supply riser. In
multi-story buildings a valve shall be installed at the top of each
water supply downfeed pipe from a booster system.
(6)
Valves in dwelling units. In two-family or multiple
family dwelling units one or more control valves shall be provided
so that the water to any unit may be shut off without stopping flow
of water to other units. These valves shall be readily accessible
inside the unit controlled.
(7)
Individual fixture valves. In all building classifications,
the water service line to each fixture or other piece of equipment
shall be provided with a valve or fixture stop to shut off the water
to the fixture. All sill cocks and wall hydrants shall be separately
controlled by a valve inside the building.
(8)
Tank controls. Supply lines from pressure or gravity
tanks shall be valved at or near the tanks.
(9)
Water heating equipment valve. The cold water branch to each hot water storage tank or water heater shall be provided with a valve located near the equipment. Each tank or heater shall be equipped with an approved automatic relief valve as specified in § 860-180B.
(10)
Valves to be accessible. All water supply control
valves shall be placed as to be accessible for service and maintenance.
All concealed tub or shower valves shall be provided with renewable
seats.
(11)
Control valve design. Except to single fixtures,
control valves on all water lines shall when fully opened, have a
cross sectional area not less than 85% of the cross sectional area
of the line in which they are installed.
B.
Water pressure booster systems.
(1)
Water pressure booster system required. When the water pressure in the public water main or individual water supply system is insufficient to supply the probably peak demand flow to all plumbing fixtures and other water needs freely and continuously with the minimum pressures and quantities specified in § 860-177G or elsewhere in this code and in accordance with good practice, the rate of supply shall be supplemented by:
(2)
Support. All water supply tanks shall be supported
in accordance with the building code or other regulations which apply.
(3)
Covers. All water supply tanks shall be covered to
keep out unauthorized persons, dirt and vermin. The covers of gravity
tanks shall be vented with a return bend vent pipe having an area
not less than the area of the down feed riser pipe and the vent shall
be screened with corrosion resistant screen of not less than 16 by
20 mesh.
(4)
Overflows for water supply tanks. Each gravity or
suction water supply tank shall be provided with an overflow having
a diameter not less than show in Table 860-178B(4), "Sizes of Overflow
Pipes for Water Supply Tanks." The overflow outlet shall discharge
above and within not less than six inches of a roof or roof drain,
floor or floor drain, or over an open water supplied fixture. The
overflow outlet shall be covered by a corrosion resistant screen of
not less than 16 by 20 mesh to the inch and by 1/4 inch hardware cloth
or shall terminate in a horizontal angle seat check valve. Drainage
from overflow pipes shall be directed so as not to freeze on roof
walkways.
|
Table 860-178B(4)
Sizes of Overflow Pipes for Water Supply
Tanks
| ||
|---|---|---|
|
Maximum Capacity of Water Supply Line
to Tank
(gpm)
|
Diameter of Overflow Pipe
(inches ID)
| |
|
0 — 50
|
2
| |
|
50 — 150
|
2 1/2
| |
|
100 — 200
|
3
| |
|
200 — 400
|
4
| |
|
400 — 700
|
5
| |
|
700 — 1,000
|
6
| |
|
Over 1,000
|
8
| |
(5)
Low pressure cut-off required on booster pumps. When
a booster pump is used on a water pressure booster system and the
possibility exists that a positive pressure of 10 psi or less may
occur on the suction side of the pump, there shall be installed a
low pressure cut-off on the booster pump to prevent the creation of
a vacuum or negative pressure on the suction side of the pump, thus
cutting off water to other outlets.
(6)
Potable water inlet control and location. Potable
water inlet to gravity tanks shall be controlled by a ballcock or
other automatic supply valve so installed as to prevent the tank from
overflowing. The inlet shall be terminated so as to provide an accepted
air gap but in no case less than four inches above the overflow.
(7)
Tank drain pipes. Each tank shall be provided at its
lowest point with a valved pipe to permit emptying the tank which
shall discharge as required for overflow pipes and not smaller in
size than shown in Table 860-178B(7), "Size of Drain Pipes for Water
Tanks."
|
Table 860-178B(7)
Size of Drain Pipes for Water Tanks
| ||
|---|---|---|
|
Tank Capacity
(gallons)
|
Drain Pipe
(inches)
| |
|
Up to 750
|
1
| |
|
751 to 1,500
|
1 1/2
| |
|
1,501 to 3,000
|
2
| |
|
3,001 to 5,000
|
2 1/2
| |
|
5,001 to 7,500
|
3
| |
|
Over 7,500
|
4
| |
(8)
Prohibited location of potable supply tanks. Potable
water gravity tanks or manholes of potable water pressure tanks shall
not be located directly under any soil or waste piping.
(9)
Pressure tanks — vacuum relief. All potable
water pressure tanks shall be provided with a vacuum relief valve
at the top of the tank which will operate up to a maximum water pressure
of 200 psi and to maximum water temperatures of 200° F. The minimum
size of each vacuum relief valve shall be 1/2 inch.
(10)
Pumps and other appliances. Waterpumps, filters,
softeners, tanks and all other appliances and devices used to handle
or treat potable water shall be protected against contamination.
A.
General. A potable water supply system shall be designed,
installed and maintained in such manner as to prevent contamination
from non-potable liquids, solids, or gases from being introduced into
the water supply through cross connections or piping connections to
the system.
B.
Identification of potable and nonpotable water. In
all buildings where dual water distribution systems, one potable water
and the other nonpotable water, are installed, each system shall be
identified either by color marking or metal tags.
(1)
Color marking. When color marking is used, potable
water lines shall be painted green and nonpotable water lines shall
be painted yellow. This requirement may be met by painting three inch
wide bands green or yellow at intervals of not more than 25 feet and
at points where piping passes through walls, floors or roofs in which
case the bands shall be applied to the piping on both sides of the
walls and both above and below the floor or roof. Points of outlets
for nonpotable water shall be marked with a tag or color coded.
(2)
Metal tags.
(a)
When tags are used, potable water lines shall
be identified by 3-inch diameter metal tags bearing the legend Safe
Water in letters not less than one-half inch in height. This requirement
is not meant to limit or restrict the use of identification tags used
for other identifying purposes.
(b)
Nonpotable water lines shall be identified by
firmly attached, metal tags having the shape of a four inch equilateral
triangle bearing the legend Water Unsafe in letters not less than
7/16 inch in height.
(c)
As in the use of color bands, tags shall be
attached to pipes at intervals of not more than 25 feet and at either
side of points where pipes pass through walls and above and below
points where pipes pass through floors or roofs.
C.
Cross connection control. Cross connections between
potable water systems and other systems or equipment containing water
or other substances of unknown or questionable safety are prohibited
except when and where, as approved by the authority having jurisdiction,
suitable protective devices such as the reduced pressure zone backflow
preventer or equal are installed, tested, and maintained to insure
proper operation on a continuing basis.
(1)
Individual water supplies. Cross connections between
an individual water supply and a potable public supply shall not be
made unless specifically approved by the authority having jurisdiction.
D.
Interconnections. Public water supplies. Interconnection
between two or more public water supplies shall be permitted only
with the approval of the health authority having jurisdiction.
E.
Toxic materials.
(1)
Construction. Piping conveying potable water shall
be constructed of nontoxic material.
(2)
Materials and substances. No materials or substances
that could produce either toxic conditions, taste, order or discoloration
in a potable water system shall be introduced into or used in such
systems.
(3)
Painting of water tanks. The interior surface of a
potable water tank shall not be lined, painted, or repaired with any
material which will affect either the taste, odor, color or potability
of the water supply when the tank is placed in or returned to service.
F.
Used piping. Piping which has been used for any other
purpose than conveying potable water shall not be used for conveying
potable water.
G.
Connection to boilers and solar hearing units. Potable
water connections to boiler feed water systems in which boiler water
conditioning chemicals are introduced shall be made through an air
gap or provided with an approved backflow preventer located in the
potable water line before the point where such chemicals are introduced.
Boilers shall be equipped with a check valve in the cold water supply
to the boiler.
H.
Prohibited connections to fixtures and equipment.
Connection to the potable water supply system for the following shall
be protected against backflow:
(1)
Bidets.
(2)
Operating, dissection, embalming, and mortuary tables
or similar equipment — in such installation the hose used for
water supply shall terminate at least 12 inches away from every point
of the table or attachments.
(3)
Pumps for nonpotable water, chemicals, or other substances
— priming connections may be made only through an air gap.
(4)
Building drainage, sewer or vent systems.
(5)
Any other fixture of similar hazard.
I.
Refrigerating unit condensers and cooling jackets.
Except where potable water provided for a refrigerator condenser or
cooling jacket is entirely outside the piping or tank containing toxic
refrigerant, with two separate thickness of metal separating the refrigerant
from the potable water supply, inlet connection shall be provided
with an approved check valve. Also adjacent to and at the outlet side
of the check valve, an approved pressure relief valve set to relieve
at five psi above the maximum water pressure at the point of installation
shall be provided if the refrigeration units contain more than 20
pounds of refrigerants.
J.
Used water return prohibited. Except as provided for
below, water used for cooling of equipment or other processes shall
not be returned to the potable water system. Such water shall be discharged
into the drainage system through an air gapped indirect waste. Under
conditions where water shortage may occur, the water used for cooling
may be used for nonpotable purposes on written approval of the Administrative
Authority.
K.
Protection against backflow and backsiphonage.
(1)
Water outlets. A potable water system shall be protected
against backflow and backsiphonage by providing and maintaining at
each outlet:
(a)
Air gap: An air gap as specified herein between
the potable water outlet and the flood level rim of the fixture it
supplies or between the outlet and any other source of contamination,
or
(b)
Backflow preventer: A backflow preventer device
or vacuum breaker to prevent the drawing of contamination into the
potable water system.
(2)
Minimum required air gap.
(a)
How measured: The minimum required air gap shall
be measured vertically from the lowest end of a potable water outlet
to the flood rim or line of the fixture or receptacle into which it
discharges.
(b)
Size: The minimum required air gap shall be
twice the effective opening of a potable water outlet unless the outlet
is a distance less than three times the effective opening away from
a wall or similar vertical surface in which cases the minimum required
gap shall be three times the effective opening of the outlet. In no
case shall the minimum required air gap be less than shown in Table
860-178K(2), "Minimum Air Gap for Plumbing Fixtures."
|
Table 860-178K(2)
Minimum Air Gap for Plumbing Fixtures
| |||
|---|---|---|---|
|
Minimum Air Gap
| |||
|
Fixture
|
When Not Affected by Near Wall-1
(inches)
|
When Affected by Near Wall-2
(inches)
| |
|
Lavatories and other fixtures with effective
opening not greater than 1/2 inch diameter
|
1.0
|
1.50
| |
|
Sink, laundry trays, gooseneck bath faucets
and other fixtures with effective opening not greater than 3/4 inch
diameter
|
1.5
|
2.25
| |
|
Over rim bath fillers and other fixtures with
effective openings not greater that 1 inch diameter
|
2.0
|
3.0
| |
|
Drinking water fountain-single orifice 7/16
(0.437) in diameter or multiple orifices having total area of 0.150
sq. in. (area of circle 7/16 diameter)
|
1.0
|
1.50
| |
|
Effective opening greater than 1 in.
|
2 x diameter of effective opening
|
3 x diameter of effective opening
| |
|
Notes:
| ||
|---|---|---|
|
1.
|
Side walls, ribs or similar obstructions do
not affect air gaps when spaced from inside edge or spout opening
a distance greater than three times the diameter of the effective
opening for a single wall, or a distance greater than four times the
diameter of the effective opening for two intersecting walls.
| |
|
2.
|
Vertical walls, ribs, or similar obstructions
extending from the water surface to or above the horizontal plane
of the spout opening require a greater air gap when spaced closer
to the nearest inside edge of spout opening than specified in Note
1 above. The effect of three or more such vertical walls or ribs has
not been determined. In such cases, the air gap shall be measured
from the top of the wall.
| |
(3)
Devices for the Protection of the Potable Water-Supply.
Approved backflow preventers or vacuum breakers shall be installed
with any plumbing fixture or equipment, the potable water supply outlet
of which may be submerged and which cannot be protected by a minimum
air gap.
(4)
Approval of devices. Before any device for the prevention
of backflow or backsiphonage is installed, it shall have first been
certified by a recognized testing laboratory acceptable to the Administrative
Authority. Devices installed in a building potable water supply distribution
system for protection against backflow shall be maintained in good
working condition by the person or persons responsible for the maintenance
of the system. The Administrative Authority having jurisdiction shall
routinely inspect such devices and if found to be defective or inoperative
shall require the replacement thereof.
(5)
Installation of devices.
(a)
Vacuum breakers: Vacuum breakers shall be installed
with the critical level at six inches above the flood level rim of
the fixture they serve and on the discharge side of the last control-valve
to the fixture. No shut-off valve or faucet shall be installed beyond
the vacuum breaker. For closed equipment or vessels such as pressure
sterilizers the top of the vessel shall be treated as the flood level
rim but a check valve shall be installed on the discharge side of
the vacuum breaker.
(b)
Reduced pressure zone backflow preventer: A
reduced pressure zone backflow preventer may be installed subject
to full static pressure.
(c)
Devices of all types: Backflow and backsiphonage
preventing devices shall be accessibly located preferably in the same
room with the fixture they serve. Installation in utility or service
spaces, provided they are readily accessible, is also permitted.
(d)
Hose bibb: With the exception of drain valves
all hose bibbs shall be provided with vandal proof vacuum breakers
or built in vacuum breakers where applicable.
(6)
Tanks and vats — below rim supply.
(a)
Where a potable water outlet terminates below
the rim of a tank or vat, and the tank or vat has an overflow of diameter
not less than given in Table 860-178B(4), "Sizes of Overflow Pipe
for Water Supply Tanks." The overflow pipe shall be provided with
an air gap as close to the tank as possible.
(b)
The potable water outlet to the tank or vat
shall terminate a distance not less than 1 1/2 times the height
to which water can rise in the tank above the top of the overflow.
This level shall be established at the maximum flow rate of the supply
to the tank or vat and with all outlets except the air gap, overflow
outlet closed.
(7)
Protective devices required. Approved devices to protect
against backflow and backsiphonage shall be installed at all fixtures
and equipment where backflow and/or siphonage may occur and where
a minimum air gap cannot be provided between the water outlet to the
fixture or equipment and its flood level rim.
(a)
Connections not subject to back pressure: Where
a water connection is not subject to back pressure, a non-pressure
type vacuum breaker shall be installed on the discharge side of the
last valve on the line serving the fixture or equipment. A list of
some conditions requiring protective devices of this kind is given
in Table 860-179K(7), "A Cross Connection where Protective Devices
are Required and Critical level (C-L) Settings for Backflow Preventers."
|
Table 860-179K(7)(a)
Cross Connections where Protective Devices
are Required and Critical Level (C-L) Settings for Backflow Preventers1
| ||
|---|---|---|
|
Fixture or Equipment
|
Method of Installation
| |
|
Aspirators and ejectors
|
C-L at least 6 inches above flood level of receptacle.
| |
|
Dental units
|
On models without built-in vacuum breakers —
C-L at least 6" above flood level rim of bowl.
| |
|
Dishwashing machines
|
C-L at least 6" above flood level of machine.
Install on both hot and cold supply lines.
| |
|
Flushometers (closet and urinal)
|
C-L at least 6" above top of fixture supplied.
| |
|
Garbage can cleaning machine
|
C-L at least 6" above flood level of machines.
Install on both hot and cold supply lines.
| |
|
Hose outlets
|
C-L at least 6" above highest point on hose
line.
| |
|
Laundry machines
|
C-L at least 6" above flood level of machines.
Install on both hot and cold supply lines.
| |
|
Lawn Sprinklers
|
C-L at least 12" above highest sprinkler or
discharge outlet.
| |
|
Steam tables
|
C-L at least 6" above flood level.
| |
|
Tanks and Vats
|
C-L at least 6" above flood level rim or line.
| |
|
Trough urinals
|
C-L at least 6" above perforated flush pipe.
| |
|
Flush tanks
|
Equip with approved ball cock. Where ball cocks
touch tank water equip with vacuum breaker at least 1" above overflow
outlets. Where ball cock does not touch tank water install ball cock
outlet at least 1" above overflow outlet or provide vacuum breaker
as specified above.
| |
|
Hose bibs (where aspirators or ejectors could
be connected)
|
C-L at least 6" above flood level of receptacle
served.
| |
|
NOTE:
| ||
|---|---|---|
|
1.
|
Critical level (C-L) is defined as the level
to which the backflow preventer (vacuum breaker) may be submerged
before backflow will occur. Where the C-L is not shown on the preventer,
the bottom of the device shall be taken as the C-L.
| |
(b)
Connections Subject to Back Pressure: Where
a potable water connection is made to a line, fixture, tank, vat,
pump or other equipment with a hazard of backflow or backsiphonage
where the water connection is subject to backpressure, and an air
gap or backflow preventer cannot be installed, the Administrative
Authority may require the use of an approved reduced pressure zone
backflow preventer and, also, in extreme situations, an approved pressure
type vacuum breaker. A partial list of such connections is shown in
Table 860-179K(7)(b), "Partial List of Cross Connections Subject to
Back Pressure."
|
Table 860-179K(7)(b)
Partial List of Cross Connections Subject
to Back Pressure
| |
|---|---|
|
Chemical Lines
| |
|
Dock Water Outlets
| |
|
Individual Water Supplies
| |
|
Industrial Process Water Lines
| |
|
Pressure Tanks
| |
|
Pumps
| |
|
Steam Lines
| |
|
Swimming Pools
| |
|
Tanks and Vats — Bottom Inlets
| |
|
Hose Bibs
| |
|
Carbonated Beverage Dispensers
|
In residences and buildings intended for continuous
occupancy, hot water shall be supplied to all plumbing fixtures and
equipment used for bathing, washing, culinary purpose, cleansing,
laundry, or building maintenance, with sufficient capacity to insure
a minimum of 110° F.
A.
Return circulation — where required. Hot water
supply systems in four-story buildings or buildings where the developed
length of hot water piping from the source of hot water supply to
the farthest fixture supplied exceeds 100 feet shall be of the return
circulation type. (Raychem Hwat System is an acceptable alternate.)
B.
Water pressure relief valves and temperature relief
valves required.
(1)
Safety devices.
(a)
Equipment used for heating water or storing
hot water shall be protected by approved safety devices in accordance
with one of the following methods:
[1]
A separate pressure relief valve and a separate
temperature relief valve; or
[2]
A combination pressure and temperature relief
valve;
[3]
Except that tankless heaters installed on low
pressure steam or hot water heating boilers shall have a pressure
relief valve installed as well as a water mixing or tempering valve
to limit the water temperature to domestic fixtures to not over 140°
F.
(b)
All safety devices shall meet the current requirements
of the United States of America Standards Institute, American Society
of Mechanical Engineers, or the Underwriters Laboratories. Listing
by Underwriters Laboratories, American Gas Association, or National
Board of Boiler and Pressure Vessel Inspectors shall constitute evidence
of conformance with these standards. Where a device is not listed
by any of these, it must have certification by an approved laboratory
as having met these requirements.
(2)
Pressure relief valves. Pressure relief valves shall
meet the requirements of the current USAFI Standards and where required
by the Inspection Authorities also the ASME code requirements. The
valves shall have an official rating not less than the rating of the
heater or heaters on which they are installed. They shall be set at
a pressure not in excess of the listed working pressure of the tank
or vessel. Pressure relief valves shall be installed directly on the
tank or heater in the hot water outlet.
(3)
Temperature relief valves. Temperature relief valves
shall have official and listed capacity of not less than the input
rating of the heater or heaters on which they are installed. They
shall be installed so that the temperatures sensing element is immersed
in the hottest water within the top six inches of the tank. The valve
shall be set to open when the stored temperature is 210° F. (or
less).
(4)
Combination pressure — temperature relief valves.
Combination pressure — temperature relief valves shall comply
with the requirements for both pressure and temperature relief valves.
(5)
Installation of relief valves. No check valve or shut-off
valve shall be installed between any safety device and the hot water
equipment used, nor shall there be any shut-off valve in the discharge
pipe from the relief valve. The discharge pipe shall not be smaller
at any point than the discharge pipe size connection of the relief
valve and shall pitch downward to its termination with no water pockets
being permitted throughout its full length. Relief outlets when connected
to the building drainage system shall be indirectly connected.
C.
Pressure marking of hot water storage tank. Hot water
storage tanks shall be permanently marked in an accessible place with
the maximum allowable working pressure.
D.
Drain cocks or valves for hot water storage tanks.
Drain cocks or valves for emptying shall be installed at the lowest
point of each water storage tank.
E.
Scald proof tub and shower valves. All new or replaced
shower and tub-shower combinations shall be provided with individual
control valves of the pressure balance or thermostatic mixing type
or other approved device. Such valves shall be equipped with high-
limit stops adjusted to a maximum hot water setting of 120° F.
Multiple or gang showers may be controlled by a master thermostatic
mixing valve set to limit the hot water temperature to a maximum of
120° F.
F.
Thermal expansion control. Installed closed domestic
hot water piping systems shall be provided with approved means to
control thermal expansion.
