Project Name
Project Number
UEPH Complex
Statement of Work
26 November 2001
The valve shall be constructed of the same material as the fill tube. The valve shall have two
stages of shutoff. In the first stage, the valve shall restrict the flow of fuel oil into the tank to
approximately 0.315 L/s [5 gpm] when the liquid level rises above 95 percent of the tank
capacity. In the second stage, the valve shall completely stop the flow of fuel oil into the tank
when the liquid level rises above 98 percent of the tank capacity.
4-17.4.3 Tank screening. Provide sight screening for the tank to reduce the visual impact of
the fuel oil storage tank. Visual screening may be vegetation or fencing, in compliance with the
local standards. [Design District shall ensure that aboveground fuel oil storage tanks are
suitably screened from view. The requirements of this paragraph may be modified to suit local
requirements.]
4-18
LIQUEFIED PETROLEUM (LP) GAS STORAGE AND DISTRIBUTION. LP gas
tanks shall comply with requirements of NFPA 58 and the ASME Code, Section VII, Pressure
Vessels. Tanks shall be pad mounted, and shall not be located inside any building. Tanks shall
be provided with all required gauges, shut off valves, safety devices, and suction connections.
Shut off valves shall be installed at each tank, at the service entry to the building (if not in sight
of the tank), and at each heating unit. No shut off valve shall be installed between a safety
device and tank. LP gas pressure shall be reduced to a minimum service pressure of 3.5 kPa
[ psi] prior to the building entrance. LP gas pipe connectors shall be in accordance with UL
567.
4-19
ELECTRICAL DISTRIBUTION. [Design District shall determine where power is to
be obtained, if system is to be overhead or underground, and provide applicable characteristics
of the primary system.]
4-19.1
Overhead distribution. System shall consist of wood, steel, aluminum or concrete
poles and bare copper conductors. Design shall be in accordance with ANSI C2 and NFPA 90.
4-19.2
Underground distribution. System shall consist of direct buried conduit and copper
conductors. Design shall be in accordance with ANSI C2 and NFPA 90.
4-19.3
Service entrance. Shall be in accordance with NFPA 90.
4-19.4
Transformers. Transformers shall be pad mount. The high voltage compartment shall
contain incoming primary feeder, load break switch, fuse protection and surge protection. The
nameplate rating for the transformer shall not be less than 90 percent of the KVA demand load
calculated for the transformer. [Insert transformer sizing, demand performance and other
applicable characteristics.]
4-19.5
Street and area lighting. Residential roadway lighting, including collector streets,
shall be provided in accordance with the IES Lighting Handbook. Provide lighting at roadway
intersections, and at intervals not exceeding 60.9 m [200 ft] between intersections. Area lighting
shall be provided at intervals not exceeding 60.9 m [200 ft] along area walkways not otherwise
illuminated, common area walks, and at all steps in area walkways. Area lighting shall be
provided in accordance with the IES Lighting Handbook. Luminaries shall be actuated by
photoelectric control, one photocell per circuit.
4-19.6
Metering. [Design District shall determine metering requirements.]
4-20
TELEPHONE. The [Telephone company] [DOIM] [Contractor] will furnish and install
distribution cables. Conduit required between underground terminal boxes and the buildings
shall be provided by the Contractor. Trenching and backfill required to install the telephone
company cables shall be included in the construction contract. Contractor provided boxes,
conduits, and trenching shall comply with local telephone company criteria and shall be
coordinated with the telephone company. Coordinate with Installation Director of Information
Management (DOIM) for specific requirements.
SOW-103
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